Display device and remote control device for controlling said device and methods of controlling said devices

FIELD: physics, computer engineering.

SUBSTANCE: invention relates to techniques for controlling display devices. Disclosed is a display device, which comprises a display unit which outputs a plurality of content representations using a plurality of image frames, and a remote control signal receiver which receives a control command from a remote control device for controlling a first content representation from the plurality of content representations. The device also comprises a controller which, if the received control command has no effect on another content representation from the plurality of content representations, performs a control operation according to the received control command, and if the received control command affects another content representation from the plurality of content representations, performs control to output a message notifying on the received control command to the other content representation.

EFFECT: facilitating management of content viewed by multiple users using one remote control device.

15 cl, 25 dwg

 

[1] According to this application claims priority in accordance with the patent application Korea No. 10-2011-0146195, filed December 29, 2011 at the intellectual property office Korea, the patent application Korea No. 10-2011-0146197, filed December 29, 2011 at the intellectual property office Korea, the patent application Korea No. 10-2011-0146163, filed December 29, 2011 at the intellectual property office Korea, as well as the application for the Korea patent No. 10-2012-0041465 filed April 20, 2012 at the intellectual property office Korea, and a patent application in Korea No. 10-2012-0113835, submitted October 12, 2012 at the intellectual property office Korea, the contents of which are incorporated here in full by reference.

The LEVEL of TECHNOLOGY

1. The technical field TO WHICH the INVENTION RELATES

[2] Devices and methods that are compatible with exemplary embodiments of the implementation, refer to the display device, the remote control device to control the display device and methods of managing these devices. More specifically, devices and methods that are compatible with exemplary embodiments of the implementation, refer to the display device to provide different content for many users, the remote control device to control the display device and is capable of�am managing these devices.

2. The LEVEL of TECHNOLOGY

[3] Together with the development of digital technologies have been developed and have been used different electronic products. In particular, display devices such as television (TV), mobile phones, personal computers (PC), portable personal computers (laptops), tablet devices, smart devices, personal digital assistants (PDA), etc., are widely used in many families, and households.

[4] Since the use of display devices is becoming more extensive, the needs of users in more of the various functions is also increasing. Consequently, manufacturers have put a great amount of effort to meet the needs of users and to produce products with completely new features, such as providing three-dimensional (3D) content.

[5] Recently, efforts have been made to develop a display device for simultaneously providing a plurality of contents, so that many users can watch different content. When using the display device in this mode, users not familiar with the manipulations to control the display device, can't know the current situation and manipulation for a specific situation.

[6] When many p�of lovatelli looking at a lot of content, there may be a control command applied to each content, and overall team management. When users are not aware of their respective teams, the management team of a specific user may interrupt the presentation of the content to another user.

[7] Consequently, there is a need in an easy and intuitive obtaining the status and mode of operation of the display device.

[8] there is Also a need in the method of controlling the content that is viewed by multiple users using a single remote controller.

DISCLOSURE of INVENTION

[9] Aspects of one or more exemplary embodiments of the invention solve the above-mentioned and/or other problems and eliminate the deficiencies, and provide a display device for providing content to multiple users, a remote control device for controlling the display device and methods of controlling these devices. The display device displays the object in a particular situation and determines whether or not to exercise control and how to implement it, based on the impact of management teams entered for one of the plurality of representations of content to another representation of the content.

[10] Aspects of one or more approx�dark embodiments also provide a display device for the detection of the nearest device points many devices points to the remote control device, and control the presentation of content points corresponding device in accordance with the command of the user, and a remote control device for controlling the display device, and how to manage these devices.

[11] In accordance with an aspect of an exemplary embodiment provides a display device comprising: a display unit that displays multiple representations of the content using a variety of image frames, the receiver of the remote control signal, which receives a control command from a remote control device; and a controller which, if the received control command to control a single view of content from multiple views of content, selectively performs an operation display control operations corresponding to the control command, or a message informing you of the input control command in accordance with the type of the received command.

[12] the display Device may further include a receiver that receives a lot of content; and a signal processor, which comprises frames of images by processing each of the received plurality of contents.

[13] the display Device may d�further include a mass storage device, which stores information about management operations classified as either feasible operation or operation with the restriction of execution in accordance with the fact whether it impacts on another representation of the content, and the controller may compare the received control command information management operations, stored in the memory device, and to perform a control operation corresponding to the control command, if the command corresponds to a feasible operation, or display a message informing you of the input control command, if the command corresponds to the operation of the limitation of execution.

[14] the management Team relating to executable operations can include at least one of commands for editing content to edit the content of a presentation of content, the team's volume control to adjust the volume of audio content, the commands display the on screen display (OSD) to display the OSD menu in the presentation of content and control commands to adjust the image quality for quality adjustment of the image frame displayed in the content, whereas the control command relating to the operation of the limitation of execution, may include at least one of the operation control on-off �warning and control operations on the output characteristic of the display device.

[15] the Controller may perform a control operation corresponding to the control command if another device points, consistent with other representation of content is accepted response signal agreeing with the management team, and may not perform the operation control corresponding to the control command, if it be received response signal objecting to the command.

[16] the Controller may perform a control operation corresponding to the control command, if the response signal in relation to the control command is received from another device points, consistent with other representation of content within a predetermined time from the time when a message is displayed.

[17] according To an aspect of another exemplary embodiment provides a method of controlling the imaging device, comprising: displaying a plurality of representations of content using a variety of image frames; receiving control commands to control a single view of content from multiple views of the content; and selectively executing the operation to display the operation control corresponding to the control command, or a message notifying you enter the received control command in accordance with the type of the received command.

p> [18] the Method of controlling the imaging device may further comprise receiving a plurality of contents and drafting of image frames by processing each of the plurality of received content.

[19] Selective operation may include an operation control corresponding to the control command, if the command corresponds to a feasible operation, and display a message informing you of the input control command, if the command corresponds to the operation of the limitation of execution.

[20] the management Team relating to executable operations can include at least one of commands for editing content to edit the content in the presentation of content, the team's volume control to adjust the volume of audio content, the commands display the on screen display (OSD) to display the OSD menu in the presentation of content and control commands to adjust the image quality for quality adjustment of the image frame displayed in the content, while the management team, related to operations with execution restriction may include at least one of the operation control on-off power and control operations on the output characteristic of the display device.

[21] Method control�Oia display device may further include, if the control command corresponds to the operation of the limitation of execution, the operation control corresponding to the control command, if the response signal agreeing with the management team, was adopted from another device points, consistent with other representation of the content, and the failure of the operation control corresponding to the control command, if it be received response signal objecting to the command.

[22] the Method of controlling the display device may further include, if the control command corresponds to the operation of the limitation of execution, the operation control corresponding to the control command, if the response signal in relation to the control command is received from another device points, consistent with other representation of content within a predetermined time from the time when a message is displayed.

[23] In accordance with another aspect of an exemplary embodiment of the device is provided a remote control that controls the imaging device that outputs multiple representations of the content, wherein the remote control device includes: a sensor that detects the closest to the remote control device of points from mn�deities devices points corresponding to each of the plurality of representations of content; an input unit that receives a user's command; a controller which, if entered by the user, generates a control command to control the presentation of content that is synchronized with the closest points in the device according to the user command; and an interface that transmits a control command to the display device.

[24] the Sensor can detect a distance between the plurality of devices of the glasses and the remote control device and to detect the nearest unit of points by comparing the registered distance.

[25] the Sensor may compare the received intensity radio frequency (RF) signal received from each of the plurality of device points, and detecting the device of points, which transmits the RF signal with the highest received intensity, as the closest device points.

[26] the control Command may include at least one of commands for editing content to edit the content in the presentation of content, the nearest unit of the relevant points, the team's volume control to adjust the volume of audio content, the commands display the on screen display (OSD) to display the OSD menu in the presentation of content and control command adjustment�th, image quality adjustment of the image frame, a display to present content.

[27] the control Command may include at least one of information on the submission of content, relevant information on the characteristics of the nearest device points and the nearest unit points, and a control command corresponding to the user's command.

[28] according To an aspect of another exemplary embodiment provides a method of controlling a remote control device, which controls the imaging device that outputs multiple representations of the content, wherein the method includes: detecting closest to the remote control device of points of the plurality of devices of points corresponding to each of the plurality of representations of content; and if the user request, generating a control signal in accordance with a user command to control the presentation of content corresponding to the nearest unit points, and transfer it to the display device.

[29] the Detection of the nearest device points may include registration, respectively, the distance between the plurality of devices of the glasses and the remote control device and compare registered distances, and thus, the detection of the nearest device points.

[30] O�to emerge nearest device points may include the comparison of the intensity of the reception RF signal, received from each of the plurality of devices of points, and the visibility of points, which transmits the RF signal with the highest received intensity, as the closest device points.

[31] the control Signal may include at least one of commands for editing content to edit the content in the presentation of content, the nearest unit of the relevant points, the team's volume control to adjust the volume of audio content, the commands display the on screen display (OSD) to display the OSD menu in the presentation of content and control commands to adjust the image quality for quality adjustment of the image frame displayed in the content.

[32] the control Signal may include at least one of information on the submission of content, relevant information on the characteristics of the nearest device points and the nearest unit points, and a control command corresponding to the user's command.

[33] In the above-described aspects of exemplary embodiments of the multiple users can watch different content on a single display device and an intuitive understanding of the status and control method of the display device. In addition, the operation control can vary depending on the impact�the third control command, imposed on one of the submissions of content to another representation of the content.

[34] by using the single control device, it is possible to easily realize a selective control over the presentation of content on a single display device corresponding to a plurality of devices of points.

BRIEF description of the DRAWINGS

[35] These and other aspects and advantages will become apparent and will be more easily understood through the following description of exemplary embodiments of the invention presented together with the accompanying drawings, of which:

[36] Fig. 1 is a diagram of a display system in accordance with an exemplary implementation option;

[37] Fig. 2 is a block diagram of a display device in accordance with an exemplary implementation option;

[38] Fig. 3 is a block diagram of a signal processor in accordance with an exemplary implementation option;

[39] Fig. 4 is a block diagram of a display device in accordance with another exemplary variant of implementation;

[40] Fig. 5 is a block diagram of a display device in accordance with another exemplary variant of implementation;

[41] Fig. 6 is a block diagram of the device of points in accordance with an exemplary implementation option;

[42] Fig. 7.�t a scheme, reflecting the impact of the control commands received from a remote control device, to another representation of the content;

[43] Fig. 8 is a block diagram of a display device in accordance with another exemplary variant of implementation;

[44] Fig. 9 is a diagram of a message object that is displayed to guide the connection with the device of points in accordance with an exemplary implementation option;

[45] Fig. 10A and Fig. 10B represent the object schema of the message that is displayed to ask whether you sync with the content in accordance with an exemplary implementation option;

[46] Fig. 11A and Fig. 11B represent the schema of the object image, reflecting the right of management in accordance with an exemplary implementation option;

[47] Fig. 12 is a diagram of a message object that notifies of the completion of multiple representations in accordance with an exemplary implementation option;

[48] Fig. 13 is a block diagram of a remote control device in accordance with an exemplary implementation option;

[49] Fig. 14 is a block diagram of the device of points in accordance with another exemplary variant of implementation;

[50] Fig. 15 is a block diagram of the sequence of operations of a method of controlling a mustache�the master display in accordance with an exemplary implementation option;

[51] Fig. 16 is a block diagram of the sequence control method of a display device in accordance with another exemplary variant of implementation;

[52] Fig. 17 is a block diagram of the sequence control method of a display device in accordance with another exemplary variant of implementation;

[53] Fig. 18 is a block diagram of the sequence control method of a remote control device in accordance with an exemplary implementation option;

[54] Fig. 19 is a depiction of an exemplary embodiment of a system by which you can view a polarized image;

[55] Fig. 20 is an image presented to explain the way the pattern of the phase plate in accordance with an exemplary implementation option;

[56] Fig. 21 is a picture of the case when the content is viewed through the device of glasses having polarizing lens in accordance with the method of the template phase plate, in accordance with an exemplary implementation option;

[57] Fig. 22 is a picture of the case when the content is viewed through the device of glasses having polarizing lens in accordance with the method of active phase �of lestingi, in accordance with an exemplary implementation option; and

[58] Fig. 23 is a block diagram of the device configuration of points on the basis of the method of polarized light in accordance with an exemplary implementation option.

The IMPLEMENTATION of the INVENTION

[59] Now, reference is made to the exemplary embodiments of the invention, examples of which are illustrated in the attached drawings, wherein similar everywhere reference position refer to similar elements. An exemplary implementation options described below with reference to the drawings.

[60] Fig. 1 is a diagram of a display system in accordance with an exemplary implementation option.

[61] the display System of Fig. 1 includes a display device 100, the device 200 points and the device 300 remote control.

[62] the display Device 100 receives and alternately displays a variety of content through multiple representations of content. The display device 100 generates the synchronization signals corresponding to respective views of the content, and sends one of the generated synchronization signals to each of the devices 200 points.

[63] the Device 200 points receives the synchronization signal from the device 100 to display and opens the gates of points in accordance with the synchronization signal So the viewer who wears the device 200 points and can watch specific content of the plurality of contents displayed in the content synchronized (displayed) to the device 200 points.

[64] the Device 300 remote control receives and sends to the device 100 displaying a user command to control the display device 100. The device 300 remote control detects any devices 200-1 and 200-2 points and sends a control command to control the presentation of content that is synchronized with the corresponding device points, 200-1 or 200-2.

[65] Here, when the frames of image contents are distributed alternately and displaying a representation of content is called a set of frames of images of the same content is visible to the user wearing the device 200 points. However, the presentation of content different from the content. For example, when the user wearing the device 200 points synchronized with a specific presentation of content switches the channel when viewing content, or begins to see the content by playing With other DVD content, the content is changed from A to C, but the content is not changed. That is, the presentation of content is a concept beyond the organization of content and like a channel for performance�of content.

[66] As shown in Fig. 1, the display device 100 alternately displays the first content and the second content through multiple representations of content. The first device 200-1 points receives a synchronization signal corresponding to the first representation of content, and opens the gates of points, when the displayed first content, and the viewer who wears the first device 200-1 points can watch the first content. The second device 200-2 points receives a synchronization signal that corresponds to a second representation of content, and opens the gates of points is displayed when the second content, and the viewer who wears the second device 200-2 points can watch the second content.

[67] Although the display device 100 according to Fig. 1, shows two content and connected with two devices 200-1 and 200-2 points corresponding to the two notions of content, it is clear that one or more other exemplary embodiments are not limited. For example, in accordance with one or more exemplary embodiments of the implementation of the display device 100 can display three or more of the content through three or more representations of content and can be connected to three or more devices of points.

[68] the display Device 100 can communicate with the device 200 points and device�Istvan 300 remote control through a variety of wireless communication technologies such as Wi-Fi, Bluetooth, standard Association by means of data transmission in the infrared (IRDA), radio frequency (RF), IEEE 802.11, WLAN, HR WPAN, UWB. LR WPAN and IEEE 1394.

[69] Fig. 2 is a block diagram of the device display 100 in accordance with an exemplary implementation option.

[70] As shown in Fig. 2, the display device 100 includes at least one receiver (for example, the set of receivers 110-1-110-n), the set of processors 120-1-120-n signals, the unit 130 of the display (e.g. display), and the controller 140. The display device 100 can be implemented using a variety of devices, including a display unit, such as TV, mobile phone, PDA, laptop, monitor, tablet, e-book, digital frame, kiosk, smart device, etc.

[71] At least one receiver (for example, the set of receivers 110-1-110-n) takes a lot of different content.

For example, each of the plurality of receivers 110-1-110-n takes the content of a broadcast program from a broadcast station using a broadcast network or receives the content file from the web server using the Internet. Receivers 110-1-110-n can receive content from a variety of players with a recording medium embedded in the playback device 100 or connected to it. The player with the recording medium refers to a device that in�proizvodi content stored on various storage media, such as CD, DVD, hard drive, Blu-ray disc, memory card, USB memory, etc.

[72] When the content received from a broadcast station, receivers 110-1-110-n may include the tuner, the demodulator and the equalizer. Conversely, when the content received from such source as the web server, the receivers 110-1-110-n may be implemented as a network interface card. When the content is taken from various players with recording media receivers 110-1-110-n may be implemented as an interface unit connected to the player with the recording medium. Essentially, receivers 110-1-110-n can be implemented in different ways.

[73] in addition, it is clear that the receivers 110-1-110-n is not necessarily accept content from sources of the same type, they can take the content from sources of different types. For example, the first receiver 110-1 may include a tuner, a demodulator and equalizer, and a second receiver 110-2 may include a network interface card.

[74] meanwhile, in Fig. 2, the display device 100 includes a plurality of receivers 110-1-110-n, but many receivers can be implemented as a single receiver depending on exemplary embodiments. That is, only the receiver can accept a multitude of content.

[75] Processors 120-1-120-n signals can gene�synchronize frames of images by processing contents, adopted by the receivers 110-1-110-n. The signal processor 120 is explained in more detail with reference to Fig. 3.

[76] Fig. 3 is a block diagram of the signal processor 120 in accordance with an exemplary implementation option.

[77] As shown in Fig. 3, the first processor signals 120-1 includes a first video processor 121-1 122-1 and the Converter frame rate. Despite the fact that only the first processor signals 120-1 shown in Fig. 3, the same or similar to Fig.3 structure can be applied to other processors 120-1-120-n signals.

[78] the First video processor 121-1 processes the video data in the content taken from the first receiver 110-1. More precisely, the first video processor 121-1 may include a decoder for decoding video data Converter and scale to zoom in or zoom out the video data in accordance with the dimensions of the display unit 130 of the display.

[79] in addition, the first video processor 121-1 can convert video data in a data format associated with the first Converter 122-1 frame rate. For example, when video data is entered in the format of "top-down", and the first Converter 122-1 frame rate processes the frame in the format of "side by side", the first Converter 122-1 framerate can convert frames of image content in the format of "side by side" by positioning �Adrov images side by side in the horizontal direction.

[80] the First Converter 122-1 frame rate converts the frame rate of the content extracted from the first video processor 121-1, the output frequency of the device 100 display. For example, when the display device 100 operates at 60 Hz mode with one idea, the first Converter 122-1 frame rate may convert the frame rate of each content to 60 Hz, the frame rate regime with one idea. As for the n-th (for example, the second, when n=2) content in the mode with multiple views of the display device 100 can operate at an output frequency of n*60 Hz.

[81] Despite the fact that in Fig. 2, the display device 100 includes a plurality of processors 120-1-120-n signal, the set signal processors can be implemented as a single signal processor depending on exemplary embodiments. That is, only the signal processor can handle a lot of content.

[82] Block 130 display alternately disposes and displays the frames of image content generated by the processors 120-1-120-n signals. More precisely, the block 130 performs display multiplexing, to alternately arrange and display frames of image content derived from processors 120-1-120-n signals, at least one after the other. In some �instances, block 130 of display can be increased or reduced image frame content in accordance with the screen size.

[83] for Example, in the display device of the type glasses with shutters, block 130, the display alternately disposes and displays the image frame of the first content image frame of the second content, ... and image frame n-content of at least one after the other. The user can look intended for him/her content through donning device 200 points, which operates concurrently at bronirovaniju content display unit 130 of the display. More precisely, the device 200 points includes shutter glasses left eye and the shutter glasses right eye. The shutter glasses left eye and the shutter glasses right eye alternately open and close when viewing 3D content. In contrast, when at least one frame image is alternately displayed, the shutter glasses left eye and the shutter glasses right eye opened and closed together, in accordance with bronirovanie content output that is synchronized with the device 200 points. Therefore, the user can watch the content separately from other users.

[84] In essence, the mode for alternate location and output of image frames of the content may be referred to as regime with lots of PR�of dostavleni (or regime with two views). In normal mode (or the mode with a single view) to display as 2D content and 3D content, the display device 100 may process the content by activating only one of the receivers 110-1-110 n.

When the user selects the mode with multiple representations in the normal mode, the display device 100 can process data via activation of one or several receivers 110-1-110 n.

[85] meanwhile, the content may be 20 content or 3D content. 3D content gives the user the ability to perceive depth using a variety of images representing the same object from different points of view.

[86] When using a variety of 3D-content, unit 130 can display multiplexing image for the left eye 3D content provided by many converters 122-1-122-n frame rates based on a preset location, and arrange them alternately with frames of images other content.

[87] Therefore, the image for the left eye and the image for the right eye of the first content, the image for the left eye and the image for the right eye of the second content ... and the image for the left eye and the image for the right eye n-th content and are displayed sequentially. Custom�tel perceives the image for the left eye and the image for the right eye of the same content via the device 200 points.

[88] the Controller 140 controls the operations of the device 100 display. More specifically, the controller 140 controls the receivers 110-1-110-n processors 120-1-120-n signals and the unit display 130 to perform their respective operations.

[89] When a predetermined event, the controller 140 may control the processor 120-1-120-n signals and the unit display 130 in accordance with this event.

[90] Here, the predetermined event may include an event of reception of a control command for controlling one of the representations of content from the device 300 remote control, the event of the absence of synchronizing at least one of the contents with the device 200 points, input events start command mode with multiple representations, the input event command control rights from the device 300 remote control event command input mode is completed with multiple views, etc.

[91] the Operation of the controller 140 in accordance with certain pre-event will be explained in detail below.

[92] Fig. 4 is a block diagram of the device display 100 in accordance with another exemplary implementation option.

[93] As shown in Fig. 4, the display device 100 includes a plurality of receivers 110-1-110-n, the number of processors 120-1-120-n signals, the unit display 130 (eg�measures display), and the controller 140, and the generator 150 of the synchronization signals and the block 160 of the interface (e.g. interface). Here, the controller 140 may control the generator 150 of the synchronization signals and the block interface 160 to perform their respective functions.

[94] the Generator 150 generates synchronization signals sync signal to the sync device 200 points corresponding to the content, in accordance with bronirovanie content. That is, the generator 150 generates synchronization signals sync signal for the Gating device points 200 points with bronirovanie mapping for the image frame content in the mode with multiple representations.

[95] Block interface 160 is connected to at least one device points and communicates with him. Thus, the block interface 160 may send a synchronization signal to the device 200 points and receive the selection from the device 200 points, through communication with the device 200 points in accordance with any of a variety of wireless schemes.

[96] for Example, the block interface 160 may include a Bluetooth communication module for communication with the device 200 points, to generate the synchronization signal as a transport stream in accordance with the standard Bluetooth and send the transport stream to the device 200 points.

[97] the Transport stream includes time information for opening or closing the shutters of the glasses device 200 points in synchronization with bronirovanie display content. More precisely, the time information may include information about at least one offset opening the left shutter of the displacement of the closing of the left shutter of the offset opening the right shutter and offset closing the right shutter of the device 200 points.

[98] the Offset is the information about the delay from the reference time that is set for each content, before the time of opening or closing the shutter glasses. That is, when the reference time is a time displacement device 200 points opens or closes the left shutter glasses and the right shutter glasses.

[99] for Example, the reference time may be a time when the frame image signal is generated vertical synchronization (frame synchronization). The transport stream may include information about the reference point in time, and also include information about the clock signal used in the display device 100. Thus, the device 200 points when receiving a transport stream, can synchronize the clock signal with a clock signal of the device 100 to display and to open or close the gates of points by determining, using the clock signal, when the offset passes since the vertical sync signal.

[100] in addition, the transport stream may �also include information about the cycle frame synchronization and information about the decimal point, if the cycle frame synchronization has a decimal point.

[101] meanwhile, the block interface 160 may perform the pairing-based scheme of communication by Bluetooth transfer Bluetooth addresses and PIN to the device 200 points from him.

[102] In an exemplary embodiment of the block interface 160 may include a variety of Bluetooth addresses, and one device points can be connected with one Bluetooth address. In this case, the Bluetooth address can be assigned to each device points in ascending order or in descending order, in accordance with the order in which the device 200 points connected to the block 160 of the interface. Block interface 160 may set an exception for Bluetooth addresses used to communicate with the device 200 points from the search, to prevent the connection of this address with another Bluetooth device points.

[103] When pairing is completed, the information relating to the device 200 points, for example, identification information of the device points or address for Bluetooth pairing can be registered in the block 160 of the interface. Block 160 of the interface negotiates the information device 200 points with a transport stream corresponding to bronirovaniju display content, and sends the transport stream to the device 200 points on the basis of information obtained through mating.

[104] Having transp�comfortable flow, the device 200 points may determine whether the traffic flow to its information device points, and to open or close points in accordance with the time information in the transport stream.

[105] In the example embodiment of the block 160 of the interface and the device 200 points communicate with each other in accordance with the Bluetooth communication scheme, it is an example. However, it is understood that one or more exemplary embodiments are not limited. For example, in accordance with one or more other exemplary embodiments of the implementation unit 160 of the interface and the device 200 points may use other schemes, such as infrared communication, and Zigbee, and various schemes for wireless transmission and reception of signals by constructing near-field communication channel.

[106] In the above exemplary embodiment of the block 160 of the interface is the only communication module and communicates with multiple devices points, however, the block 160 may be implemented as a plurality of communication modules that communicate with each device points, depending on exemplary embodiments. Alternatively, if the display device 100 supports a variety of wireless communication methods, the block 160 of the interface can be �configured so that to include a multitude of communication modules in accordance with each of the wireless modules. For example, the block interface 160 may include a plurality of communication modules in accordance with various wireless communication methods such as Bluetooth, Zigbee, wifi, etc.

[107] Although not shown in Fig. 2 - Fig. 4, the display device 100 may further include a component for providing the audio data from the content for each user in the mode with multiple representations in a different way. That is, the display device 100 may further include a demultiplexer for separating video data and audio data of the content received in the receivers 110-1-110-n audio decoder for decoding the separated audio data, a modulator for modulating the decoded audio data in other frequency signals and a block of audio output for sending the modulated audio data to the device 200 points. The output of audio data from the audio output unit is provided to the user via an output device such as headphones in the device 200 points.

[108] meanwhile, in some cases, where the content includes additional information, such as electronic program schedule (EPG) or subtitle information, the demultiplexer may further separate these additional data from the content. The device 100 from�images can add subtitles, processed for display by an additional processor data in the corresponding frame image.

[109] Fig. 5 is a block diagram of the device display 100 in accordance with another exemplary implementation option.

[110] As shown in Fig. 5, the display device 100 includes a plurality of receivers 110-1-110-n, the number of processors 120-1-120-n signals, the unit 130 of the display (e.g. display), the controller 140 and the receiver 170 of the remote control signal.

[111] the Receiver 170 of the remote control signal can receive a control command from the device 300 remote control. The controller 140 may control the display device 100 in accordance with the control command received from the receiver 170 of the remote control signal.

[112] Fig. 6 is a block diagram of a device 200 points in accordance with an exemplary implementation option.

[113] the Device 200 points with Fig. 6 communicates with the display device 100 of Fig. 2, which alternately displays a variety of content-based image frames and includes a block 210 of the interface (e.g. interface) controller 220, block 230 of the actuator shutter glasses (for example, the drive of the shutter glasses), block 240 input (for example, input device), block 250 of the first shutter glasses (for example, the first shutter glasses) and unit 20 of the second shutter glasses (for example, the second shutter glasses).

[114] Unit interface 210 communicates with the display device 100. For example, block 210 of the interface can be applied using the Bluetooth communication module for receiving a synchronization signal and sending the information about the device 200 points by communication with the display device 100. Unit interface 210 may send a command to a user (or management team), is entered through block 240 is input to the display device 100.

[115] As indicated previously, the synchronization signal may be in the form of a transport stream in accordance with the Bluetooth communication standard and may include information about the time of opening or closing unit 250 of the first shutter glasses and block 260 of the second shutter glasses device 200 points in synchronization with bronirovanie display content. The information included in the transport stream, has been described on the example of Fig. 4 and will not be elaborated further.

[116] the Controller 220 controls the operations of the device 200 points. In particular, the controller 220 controls the block 230 of the actuator of the shutter glasses by sending the synchronization signal that is received by a block 210, the interface to the block 230 of the actuator shutter glasses. That is, based on the synchronization signal, the controller 220 controls the block 230 of the actuator shutter glasses to generate a trigger signal for actuating b�Oka 250 of the first shutter glasses and block 260 of the second shutter glasses.

[117] Block 230 of the actuator shutter glasses generates a trigger signal based on the synchronization signal, received from the controller 220. In particular, on the basis of the synchronization signal block 230 of the actuator of the shutter glasses may open at least one unit 250 of the first shutter glasses and block 260 of the second shutter glasses in accordance with bronirovanie display one of the contents displayed by the display device 100.

[118] Block 250 of the first shutter glasses and block 260 of the second shutter glasses open or close the shutters of the glasses in accordance with a trigger signal from block 230 of the actuator shutter glasses. For example, block 250 of the first shutter glasses and block 260 of the second shutter glasses open the gates of points at the same time, is displayed when one of the contents, and close the shutter of the lens, display other content. Therefore, the user wearing the device 200 points, you can watch content from one of a plurality of displayed content.

[119] meanwhile, with regard to 3D content, block 250 of the first shutter glasses and block 260 of the second shutter glasses to open and close points in turn. That is, in accordance with a trigger signal, the block 250 of the first shutter glasses may open when the image is displayed for the left eye of 3D content, and unit 260 of the second shutter glasses may open when the image is displayed�tion for the right eye from 3D content.

[120] Block 240 input receives a user command to control the display device 100. In particular, block 240 input can accept a command to select one of the views of content. To accomplish this, the block 240 input may include a button, a touch pad or the radio button by which the user can choose to view content. If the user enters a command to select one of a variety of representations of content, in block 240 the input unit interface 210 may transmit information related to the selected presentation content to the display device 100 and receive a synchronization signal corresponding to the selected content from the device display 100. In addition, the block 240 input can accept a signal in response to the confirmation or denial from user commands or control commands to control the image content.

[121] hereinafter, the operation of the device display 100 in accordance with pre-defined events are illustrated with examples.

The event of receiving control commands for controlling one of the representations of the content

[122] Fig. 7 is a diagram showing the influence of a control command received from the device 300 remote control, to another representation of the content.

[123] When� many spectators wearing the device 200-1 and 200-2 points synchronized to different views of the content, and one user is watching the content, introduces the user to manage his/her representation of the content, the user command may affect the user watching the content in the other view content. Because users look at their own content, they sometimes can control the display device 100, without notifying other users. For example, when the content is viewed through the device 200-1 points, demonstrates a dramatic series, and the film in the content viewed by another device 200-2 points, ends, as shown in Fig. 7, a user wearing a different device 200-2 points can turn off the display device 100. In this case, the contents of the device 200-1 points exposed to an undesirable effect, and, accordingly, it is necessary to notify another user about the input control command and look for consistency in the management, in accordance with the type of the command.

[124] In accordance with an exemplary implementation option, when receiving a control command for controlling one of the representations of the content, the controller 140 can selectively display a message informing about the management team, entered in the other view Conte�the one in accordance with the type command. As mentioned above, when the control command is entered in the display device 100 points from the device 200-1 or 200-2 viewing a single view of content, the management team can affect a different view of the content. However, the management team may not affect another representation of the content, or the impact, if any, can be ignored. Therefore, when receiving the control commands from the receiver 170 of the remote control signal, in accordance with the type of control commands, the controller 140 manages to provide notice of the management team, entered through another presentation of content, or performs a management operation when there is no need to provide the notification.

[125] the management Team is divided into manageable operation and the operation with the restriction of execution on the basis of exposure to another representation of the content. When the impact on other performance no content, the management team is defined as a feasible operation in any case. Conversely, when a different view of the content is exposed to, the implementation may change in accordance with the consent or disagreement with another user or with other conditions. In this case, the management team ODA�determined as the operation of the limitation of execution.

[126] Doable denotes the operation control command, when a different view of the content cannot be influenced, as mentioned above. Management team for executable operations can include the command edit content to edit the content of the content display, command control volume to adjust the volume of audio content, a command menu displayed on the screen (OSD) to display the OSD menu in the presentation of content and the management team to adjust the image quality for quality adjustment of the image frame displayed in the selected view content.

[127] for Example, when the signal volume control is introduced from one device 200 points and controls the volume of the corresponding device 200 points, a different view of the content are not exposed to. Therefore, the operation control volume refers to the number of feasible operations. However, since the control command to control the output volume (total volume) of the device 100 of the display may affect a different view of the content, the control command is a command restricting execution. For example, as to the operation content changes, various contents can be viewed through a single view of content. With�we will now define, changing the content of one of the submission of the content does not affect other views of the content.

[128] the Operation of the limitation of execution refers to the management team, which is another representation of the content is exposed to. For example, the operation of the limitation of execution includes the management operation on-off power and the operation of the control characteristic of the output device display 100. That is, the user watching a single view of content can turn off the display device 100. In this case, the user will no longer be able to see a different view of the content and, accordingly, the operation control on-off power refers to the number of operations with a limitation of the implementation. Further, the operation control output characteristic indicates a control command dependent device parameters display 100. For example, can be adjusted the brightness of the screen or it may change the way the drug is taken.

[129] Fig. 8 is a block diagram of the device display 100 in accordance with another exemplary implementation option.

[130] the Device 100 of Fig. 8 recognizes feasible operation and the operation with the restriction of execution and may further include a memory unit 180, such as a storage device) for storing information about the operation� management, divided into manageable operation and the operation with the restriction of execution.

[131] by Adopting a control command from the receiver 170 of the remote control signal, the controller 140 may determine whether the received control command doable operation or operation with the restriction of the execution, by the comparison of the received control command information management operations stored in the memory unit 180.

[132] When the control command relates to a feasible operation, the controller 140 performs a control operation corresponding to the control command for the content presentation. That is, for control commands relating to the volume control presentation of content, the controller 140 sends a signal to the volume control without providing notice to the other view content. Conversely, when a control command refers to a command with the restriction of the execution, the controller 140 controls the signal processor 120 and the display 130 to display a message informing you of the management team, entered in the other view content. For example, the signal processor 120 converts the communication relating to the control command, the image data and combines these image data with the image frame of a different view of the content. Unit display 130 displays the combined frame �images in different view content. For example, when the control signal shutdown entered through a single view of content, the message "User channel No. 1 wishes to turn off the display" may be displayed in another view content.

[133] while the user is watching a different view of the content, you may send the device 100 displaying a signal in response to agreement or disagreement with the management team. For example, the device 200 points can receive signal for agreement or disagreement with the control command from the user through block 240 input and forward the signal to the display device 100 via the block 210 of the interface. The user can send a signal through the device 300 remote control or directly input signal through the input unit (for example, input device) of the device 100 display. In that case, if the signal is entered through block 240 input device 200-1 points, and the response signal agreeing with the management team, was adopted from another device 200-2 points, consistent with other representation of content, the controller 140 performs a control operation corresponding to the control command. When receiving the response signal, not agreeing with the management team, the controller 140 does not perform a control operation corresponding to the control command. That is, when Deco�Xia input signal to turn off the device display 100, the controller 140 displays the message "User channel No. 1 wishes to turn the display off. Do you agree with this?" in the other view content. When the response signal agreeing with the management team, is taken from block 210 of the interface of the other device 200-2 points, consistent with other representation of content, the controller 140 turns off the display device 100.

[134] meanwhile, if after a predetermined period of time, the display device 100 does not receive the response signal, the priority can be given to the presentation of the content entered by the management team and the management operation corresponding to the control command, can be performed. That is, in the absence of reception of response signal on a control command from another device 200 points, consistent with other representation of content within a predetermined period of time counted from the moment of conclusion of the message, the controller 140 may perform a control operation corresponding to the control command. However, the priority can be given and a different view of the content taking into account the impact on other representation of content and, thus, can be determined by receiving a response signal of disagreement. When control commands are differentiated and the response signal is not received, operation management, sootvetstvujusceje management, can be performed by determining the reception response signal of disagreement with a large impact on a different view of the content and definition of signal reception on consent with little effect.

[135] Accordingly, the operation control can be different depending on the impact of a management team that is entered in one of the submissions of content to another representation of the content. In particular, more stable display with multiple views can be achieved by notification in the other view content on a large influence on another representation of the content, and obtaining the consent for execution.

[136] meanwhile, in the above-described exemplary embodiment of the, if you enter a control command relating to the operation of the limitation of execution, a different view of the content notified that introduced the management team and that the agreement for the implementation obtained. However, in some cases, the operation control corresponding to the control command may be executed with respect to the submission of content for which this command is entered without notice to the other view content about the fact that you entered the command. For example, if you typed a command to power off the display device, can be completed only predstavlyaaet, for which you entered the command to power off the display device, without notice other representations of content about the fact that the team is entered.

The event in which at least one of the views of the content is not synchronized with the device points

[137] When detecting that the content is not connected to the device 200 points, the controller 140 performs a control to add and display a message object that manages the connection device 200 points in the presentation of content that is not consistent with the device 200 points, which is explained below with reference to Fig. 9.

[138] Fig. 9 is a diagram of a message object that is displayed to provide the leadership to connect the device 200 points in accordance with an exemplary implementation option.

[139] the Device 200-1 and 200-2 points to communicate with the display device 100 using its own identification information. When devices 200-1 and 200-2 points coupled with the display device 100, identification information of the devices 200-1 and 200-2 points is transmitted to the display device 100. In another exemplary embodiment of the Bluetooth address of the block 160 of the interface that is used to communicate with devices 200-1 and 200-2 points, can be used as identification information. In accordance with �identificational information or Bluetooth address, taken from devices 200-1 and 200-2 points, block 160 of the interface device 100 transmits display any of the synchronization signals corresponding to the representations of content to devices 200-1 and 200-2 points. During this process information coordination between content and devices 200-1 and 200-2 points can be generated or saved.

[140] Here, the block 160 of the interface device 100 can display to check the details of the coordination, reflecting the agreement between the content and the devices 200-1 and 200-2 points under the control of the controller 140, and determine whether these contents in the content that is not consistent with the devices 200-1 and 200-2 points.

[141] On the discovery of content is not synchronized with the devices 200-1 and 200-2 points, the processor 120 of the signals of the plurality of processors 120-1-120-n, for processing content is not synchronized with the device 200 points, you may add a message object that manages the connection device 200 points in the image frame corresponding content, and the unit display 130 may display the image frame is added to the message object, then the image frame other content.

[142] When a new device 200 points is connected, the controller 140 can control up to automatically sync the new device 200 points with pre�the representation of content, not synchronized with devices 200-1 and 200-2 points. When the corresponding representation of the content is consistent with at least one device 200 points, according to the message object that manages the connection device 200 points, the controller 140 may control to make the message object displayed in the corresponding representation of the content disappeared.

[143] As shown in Fig. 9, the display device 100 displays the second content and the devices 200-1 and 200-2 points are synchronized with the first content and the third content, respectively. Display the second content, the valves of points devices 200-1 and 200-2 points are closed. Since in this case no points, synchronized with the second representation of the content, the display device 100 can add and display the message "Please connect the points which manages the connection to the second content presentation device and 200 points.

[144] meanwhile, the audience, which are devices 200-1 and 200-2 points and watch the first and third entries, can't see the message object displayed in the second content when the viewer is facing the screen of the display device without glasses, can see the screen display consisting of superposed on each image�s content and see the message object is added to the second content and superimposed on the other image content. Thus, a viewer looking at the display screen without the device 200 points, you can see what part of current representations of the content is displayed without synchronization with devices 200-1 and 200-2 points.

[145] Here, when the device 200 points connected to the display device 100, the new device 200 points can automatically be aligned with the second representation of content that is not consistent with existing devices 200-1 and 200-2 points.

[146] the message Object that manages the connection device 200 points can represent not only the object of the message of Fig. 9, but any other object that provides notification that there is no coordination of the relevant content with the glasses 200. For example, the message may include a message informing about the lack of coordination as "Points not connected", or a message giving details about the connection points.

[147] Thus, the user can intuitively understand that the specific content is not currently connected to the device 200 points without the distraction of the viewer watching the content in the many submissions, and content that is not coupled to the device 200 points may be agreed with the new �the disorder more points simply.

The input event start command mode with lots of ideas

[148] When a predetermined event is an input event start command mode with lots of views, and when the start command mode with multiple representations is entered, the controller 140 may control to display a message asking if you want to synchronize corresponding representation of the content in the frame image of each view content, and to sequentially align the content with the devices 200-1 and 200-2 points that are described below with reference to Fig. 10A and Fig. 10V.

[149] Fig. 10A and Fig. 10B depict a message object that appears to ask whether to synchronize with the content, in accordance with an exemplary implementation option.

[150] When the user enters a start command mode with multiple views of the display device 100 alternately displays a variety of content, initiating mode with multiple representations. Here, processors 120-1-120-n signals can add a message asking about how to agree on whether the corresponding content in the frame image of each content, and block 130 can alternately display to display frames is added to the image object.

[151] Block 160 interface consistently agree on the submission to�awning with devices 200-3, 200-4 and 200-5 points connected to the display device 100. Here, one representation of the content is in line for a predetermined time, and when a predetermined time passes, can be assigned a different view of the content. This applies to many devices 200-3, 200-4 and 200-5 points connected with the display device 100.

[152] meanwhile, when receiving a reply message from at least one device 200 points, the block interface 160 may agree upon presentation of the content displayed at the time of receiving the response, the device of points, which sends the response. The reply message indicates the command input select content through the input block device 200-3, 200-4 and 200-5 points or via a remote control device.

[153] As shown in Fig. 10A, the display device 100 alternately displays the first, second, and third content, and in the current time displays the image frame of the first content presentation. The message "Please click to watch the image on the screen is added to the frame image of each content. Meanwhile, all of the devices 200-3, 200-4 and 200-5 points agreed with the first submission of content. When the selection team to select the first content currently already agreed, is entered through block 240-3 input left Ustra�STV 200-3 points the left device 200-3 points sends a command to the display device 100. Even when a predefined time interval ends, the block 160 of the communication device 100 can display to keep the agreement left the device 200-3 points and the first content.

[154] In Fig. 10B, the device 200 points is consistent with the second view content after expires a predetermined time interval Fig. 10A. However, since the left-hand device 200-3 points continues continuous coordination with the first submission of content by sending commands to select on the display device 100 in Fig.10A, the viewer who is left device 200-3 points can continue to watch the first presentation of the content. Meanwhile, a message inquiring about the agreement, is not added to the image frame of the first content presentation, agreed at a predetermined time. Consequently, the viewer selects the first content, you can watch the first content, without interrupting the object when a predetermined time.

[155] When a user enters a command through the block 240-4 input device 200-4 points, agreed with the second content in Fig. 10B, the device 200-4 points sends a command to the display device 100, and the block 160 of the communication interface device are saves the coordination device 200-4 points and the second content.

[156] Accordingly, the user can intuitively distinguish the beginning of a mode with a lot of ideas and input selection commands to view specific content.

[157] the Object of the message inquiring about the coordination with relevant content, not limited to the message object with Fig. 10A and Fig. 10B in one or more other exemplary embodiments. That is, in accordance with one or more exemplary embodiments of the implementation, you can use any object that leads to agreement with the relevant content. In addition, a timer showing the time remaining, can be added and displayed in the image frame corresponding content so that the user can see the remaining time for input selection commands to select content.

The event in which the remote control device enters a command query control rights

[158] When a predetermined event is an input event of a query command control rights from the device 300 remote control and when the team request rights management entered, the controller 140 may control to add and display an object image indicating the right of management, in the frame image of one of the plurality of contents that are described below with reference to Fig. 11A and Fig. 11V.

<> [159] Fig. 11A and Fig. 11B depict an object image indicating the right of management in accordance with an exemplary implementation option.

[160] When the team request rights management is introduced from the device 300 remote control, an image processor for processing content displayed through authorized the submission of content from multiple views of the content in the display device 100 may add an object image indicating the right of management, the frame image corresponding content.

[161] the Controller 140 may control to sequentially change the content, displaying the object image, every time I type a command query control rights. That is, when the object image is added and displayed in the image frame of any one of the content and the team request rights management is again entered from the device 300 remote control, the object image indicating the right of management, is added and displayed in the frame image of any other content. Every time you enter the team request rights management, content, displaying the object image, can consistently change. Therefore, the viewer can intuitively and easily distinguish between authorized representation of the content.

[162] the Team request rights UE�of Alenia denotes the user's command, which is entered by the user watching content via any one of the views of content to manage their content. Command query control rights can be entered by pressing or touching a specific button of the device 300 remote control, and a command to control the display device 100, such as pressing a control button switch channels or volume, can be recognized as a team request rights management.

[163] As shown in Fig. 11A, the request control rights is entered from the user device 300 remote control and a star-shaped object image indicating the right of management, is added and displayed in the image frame of the second content. The viewer who wears the device 200-6 points, consistent with the second content, and looks for the second content may recognize the object image indicating the right to control displayed on the display device 100, and to control a second content using the device 300 remote control. Here, control of the second content may correspond to the volume control, which corresponds to the second content, configure the display of the second content or viewing other content by switching to another channel, if the second conten� is a broadcast program.

[164] meanwhile, the viewer who wears the device 200-7 points, consistent with the third presentation of the content may not recognize the object image, nor to manage the third content.

[165] Here, when the user again enters a command query control law like object image indicating the right of management, is added and displayed in the third image frame content. Fig. 11B, the display device 100 displays content from third added object image, and the viewer who wears the device 200-7 points can observe an object image, added in the third content. Viewer watching the second content cannot recognize the object image, nor to control a second representation of the content.

[166] When the team request rights management entered again like object image is added and displayed in the image frame of the first content, and he can consistently change every time you enter the team request rights management.

[167] the Object image indicating the right of management, can represent not only the star-shaped object image, and any image that can recognize the viewer. One or more exemplary embodiments are not limited to the image object, but can be applied to some�rum object message, such as "control" meaning the right of management. When a query command to the right of control is not re-entered within a predetermined time, the controller 140 can make it so that the object image disappears after a predetermined time.

[168] Command query control rights can be introduced not only through the device 300 remote control, but also with the help of block 240 input device 200 points in one or more other exemplary embodiments. In this case, the object image indicating the right of management, may be added and displayed in the presentation of the content corresponding to the device 200 points, where we have introduced the team request rights management.

Event of the command input mode is completed with a lot of ideas

[169] When a predetermined event is an event for entering the command mode is completed, with many performances and when the command mode is completed, with many of the submissions entered, the controller 140 may control to add and display a message informing you of the completion of multiple representations in this footage you can see all the content that is described below with reference to Fig. 12.

[170] Fig. 12 depicts a message object that notifies of the completion of many performance�areas, in accordance with an exemplary implementation option.

[171] When the command mode is completed with multiple representations is introduced through the device 300 remote control, the display device 100 can add and display a message informing you of the completion of the mode with multiple representations of the frames in all of the displayed image content, and terminate mode with multiple representations.

[172] As shown in Fig. 12, when the command mode is completed with multiple representations is introduced through the device 300 remote control, the display device 100 adds and displays a message informing you of the completion of the mode with multiple representations, such as "Exit with multiple views", in images of all the frames from the first, second and third display content. Therefore, the viewer can intuitively be understood that the mode with multiple representations is completed.

[173] Command mode is completed with a lot of ideas can be introduced not only through the device 300 remote control, but also with the help of block 240 input device 200 points in one or more other exemplary embodiments.

[174] When mode with multiple representations is completed, it displays only the content that is displayed to the mode with multiple representations, and other content not more from�bragada. However, it is understood that one or more exemplary embodiments are not limited to this. For example, in accordance with one or more exemplary embodiments may display only the content that has the right of management to modes with a lot of submissions and other content may not be displayed.

[175] Although in the previous exemplary embodiments, the object is (but is not limited to) the message object or image object, different objects, such as an icon, a logo, a text label and a symbol that can be represented in accordance with the predetermined event.

[176] Adding object to the frame of the image signal processor 120 may be performed by the video processor of the image processing, and the frequency Converter of the frame can add the object to the frame image with the converted frame rate. Additional data processor for processing the subtitles can add the object. That is, when the content is generated in the form of image frames, the object can be added at any stage before the content is displayed in the unit display.

[177] meanwhile, if the user is watching the presentation And content, enters a command complete multiple representations concerning the presentation And content, while presented�I A and b content is displayed in a mode with multiple views the display device 100 may switch to a mode with a single view. In this case, the display device 100 may continuously output the content view In the content for which no command was introduced complete multiple representations, in the mode with a single view. When the mode is switched into the mode with a single view to the user no longer needs to wear the device points, and thus, the display device 100 can add and display a message object, such as "Mode with multiple representations has ended. You can remove the device points". Accordingly, the user watching the view In the content, you might learn that a regime with a lot of ideas over. However, if the content displayed in the view In content, is a 3D content, the user must continue to wear the device glasses to watch 3D content. In this case, it may be added to the message object, stating that the mode is switched to 3D with a single view, such as "Mode with multiple representations is completed and the mode will be switched into 3D mode.

[178] In another embodiment of the implementation, if the regime with a lot of ideas over, can be provided with an interface for selecting one view content from multiple views of content �La display mode with a single view.

[179] Fig. 13 is a block diagram of the device 300 remote control in accordance with an exemplary implementation option.

[180] As shown in Fig. 13, the device 300 remote control includes a block 310 of detection (for example, the detector or sensor), block 320 input (for example, input device), the control unit 330 (for example, the controller and unit 340 of the interface (e.g. interface).

[181] Block 310 detection receives signals from multiple devices 200 points corresponding, respectively, to the multiple representations of content, detects the device 200 points nearest to the device 300 remote control, and sends the detected signal to the control unit 330 of the device 300 remote control.

[182] Specifically, the block 310 detection can determine the distance between devices 200 points and the device 300 remote control and detect among devices device 200 points 200 points nearest to the device 300 remote control.

[183] In this case, the block 310 of detection can detect the device 200 points using the method of detection, such as radio frequency identification (RFID) or magnetic sensor, which allows to detect small distance between the device 300 and remote control devices 200 points.

[184] Used�ouya as a method of detecting RFID, block 310 detection can compare the intensity of reception of radio frequency (RF) signals received from the device 200 points, and to determine the device 200 points, which transmits the RF signal having the maximum reception intensity, as the closest device points.

[185] the Device 200 points may further include a unit 270 outputs the signal (for example, output device) (see Fig. 14). Fig. 14 is a block diagram of the device 200 points in accordance with another exemplary implementation option. Block 270 output signal of the device 200 points may include an RFID tag or component corresponding to the method of determining the distance of the device 300 remote control. In more detail, when the device 300 remote control registers the distance to each device points, using RFID, block 270 output signal may include an RFID tag.

[186] Block 320 input device 300 remote control receives a user's command. The input block 320 may use different input interfaces, such as keyboard, touch pad, scroll wheel, a joystick, a dial, etc., at least individually or in combination, to change the channel or change the volume of audio.

[187] When the selection of the user input with the input block 320, block 330 is administered�I generates a control signal to control the presentation of content, corresponding to the closest device 200 points detected among the devices 200 points, in accordance with the command of the user.

[188] the control Signal may include at least one of the device ID points, which is identification information about the upcoming device 200 points, or information on the submission of content corresponding to the nearest unit 200 points, and the control commands to control the presentation of content in the device 100 display.

[189] to do this, the device 300 controller may receive information regarding the submission of content that matches the device of points, points from the device. In accordance with an exemplary variant of implementation, each device points may include information related to the presentation of content that can be included in the signal, the output signal for registering the distance, and the control unit 330 may generate the control signal using the information related to the presentation of the content of the nearest device points. In accordance with another exemplary implementation option, if specified points nearest unit, the control unit 330 may request and receive information regarding the submission of content by the nearest device points. Despite the fact that the us�master 200 points and the device 300 remote control can transmit/receive information regarding the submission of content by using block 270 and input unit 310 of detection, they can also be configured to include a separate interface unit for transmitting/receiving information with respect to the presentation of the content.

[190] the control Command may include, for example, any one of such teams as the team edit content to edit the content in the view content that matches closest to the device 300 remote control device 200 points, team volume control to adjust the volume of audio content, the command will display the menu OSD to display the OSD menu in the presentation of content and the management team to adjust the image quality for quality adjustment of the image frame displayed in the content, etc.

[191] Block 340 interface sends a control signal generated by the control unit 330, the receiver 170 of the remote control signal device 100 display. The connection between the block interface 340 and the receiver 170 of the remote control signal may involve a communication scheme such as Bluetooth, infrared communication, and Zigbee, and various schemes for wireless transmission and reception of signals over a communication channel, such as near-field communication channel.

[192] In the example embodiment of the user can selectively control the presentation of content is suitable� the nearest unit 200 points by changing the location of the device 300 remote control without requiring repeated input of user commands to selectively control one of the representations of the content. It should be noted that the message object or image can be added and displayed in the presentation of content, the management of which is possible at the moment.

[193] Fig. 15 is a block diagram of the sequence control method of the display device 100 in accordance with an exemplary implementation option. Redundant descriptions on the device display 100 will be omitted here.

[194] the display Device 100 receives a lot of content (operation S1510). More specifically, the display device 100 receives many different contents. Further, the display device 100 generates frames of images (operation S1520). The display device 100 may generate frames of images by processing the received content. The display device 100 alternately displays the frames of images (operation S1530). That is, the display device 100 generates multiple representations of content and alternately displays the frames of the image content corresponding to the representations of the content.

[195] Here, when a predetermined event (operation S1540-Y), the display device 100 performs �deserves special mention, corresponding to this event (operation S1550). A predetermined event may include an event of receiving control commands to control one of the representations of content from the device 300 remote control, the event in which at least one of the contents is synchronized with the device 200 points, the input event start command mode with multiple representations, the input event command control rights from the device 300 remote control event command input mode is completed with multiple views, etc.

[196] the Event of receiving control commands from the device 300 remote control to control one of the representations of the content is explained below with reference to Fig. 16 and Fig. 17.

[197] Fig. 16 is a block diagram of the sequence control method of the display device 100 in accordance with another exemplary variant of implementation, and Fig. 17 is a block diagram of the sequence control method of a display device in accordance with another exemplary implementation option.

[198] the Receiver 110 of the device 100, the display can take a variety of content (operation S1610 and S1705), and the processor 120 of the signal generating frames of images by processing the content (operation S1620 and S1710). Block 130 display in�leads multiple representations of the content by combining image frames of the content (operation S1630 and S1715), and generator 150 generates synchronization signals sync signals to synchronize the presentation of content and the device 200 points (operation S1640 and S1720). Block interface 160 transmits synchronization signals to the devices 200 points (operations S1650 and S1725). When you enter the management team for any single representation of the content (operation S1660-Y and S1730-Y), at a time when displays multiple representations of the content, the display device 100 determines whether the control command doable operation. Identifying feasible operation (operation S1735-Y), the display device 100 performs operation corresponding to the command (operation S1737). Defining an operation by limiting the execution (operation S1735-Y), the display device 100 displays a message informing you of the input control command in the other view content (S1740). When the signal on the consent form with the restriction of the run is accepted from the device 200 points, consistent with other representation of the content (operation S1745-Y), or when the signal of the agreement is not accepted and not accepted when no signals within a predetermined period of time (operation S1755-Y), the display device 100 performs operation corresponding to the control command, similar to the case doable surgery (surgery S1737). Conversely, Paul�chive signal of disagreement (operation S1750-Y), the display device 100 does not perform the operation corresponding to the control command.

[199] meanwhile, when a predetermined event is an event in which at least one of the views of the content is not consistent with the device 200 points in Fig. 15 and the content presentation includes the presentation of content that is not consistent with the device 200 points, the method adds and displays a message object, the steering connecting device 200 points in the frame image at least one representation of the content that is not coherent with the device 200 points.

[200] When a predetermined event is an input event start command mode with lots of ideas and start command mode with multiple representations is entered, the display device 100 adds and displays a message asking about how to synchronize the presentation of the content in the frame image of each view content, and consistently agree on the contents of the device 200 points. Receiving a reply message from at least one device 200 points or from the device 300 remote control, the display device 100 can agree on the content displayed when the accepted response and the device 200 points that sent the response.

[201] When predetermined�th event is an input event of a query command control rights from the device 300 remote control and command query control law is introduced, the display device 100 adds and displays the object image indicating the right of management, in the frame image of one of the contents. Content that displays the object image, can consistently change every time you enter the team request rights management.

[202] When a predetermined event is an event of the command input mode is completed, with many performances and command mode is completed, with many of the submissions entered, the display device 100 adds and displays a message notifying the completion of many representations, images in frames of all content.

[203] Fig. 18 is a block diagram of the sequence of operations of a method of controlling the device 300 remote control in accordance with an exemplary implementation option.

[204] As shown in Fig. 18, the device 300 remote control receives signals continuously generated by the devices 200 points by block 310 of detection (operation S1810), and calculates the distance between the device 300 and remote control devices 200 points by analyzing these signals (operation S1820).

[205] the control Unit 330 receives the computed values from block 310 detection and selects the device 200 points nearest to the device 300 remote control (operation S183). When the user command is entered through block 320 input (operation S1840), the control unit 330 generates and transmits a control command to the display device 100 through the block interface 340 (operation S1850).

[206] the display Device 100 receives a control command by means of the receiver 170 of the remote control signal, and the controller 140 of the device 100 controls the display contents can be synchronized with the selected device 200 points by analyzing the received control command (operation S1860).

[207] In essence, when users who wore the device 200 points and at the same time looking the selected view content through the device 100 displaying manage your submissions of content, each user can easily manage the content and the sound of his/her presentation of content, by simply holding the device 300 remote control closer to your device 200 points, rather than to other devices 200 points, and entering scheduled management command, without having to implement a separate manipulation mode.

[208] meanwhile, the program for implementing methods in accordance with various exemplary embodiments of the implement may be stored on different storage media.

[209] In particular, the code for osushestvlenie� methods can be stored on a different non-volatile storage media, such as flash memory, read only memory (ROM), erasable programmable read only memory (EPROM), electrically erasable programmable read only memory (EEPROM), hard disk, removable disk, memory card, USB memory, and CD-ROM.

The display device based on the method of polarized light and the device points

[210] the above-Mentioned various exemplary embodiments of the implementation can be performed by the display device on the basis of the method of polarized light points and devices. Below, the configuration and operation of the display device on the basis of the method of polarized light points and devices will be explained with reference to Fig. 19 - Fig. 23.

[211] Below will be explained the configuration and operation of the display device on the basis of the polarization method.

[212] Fig. 19 is a depiction of an exemplary embodiment of a system by which you can view a polarized image.

[213] As illustrated in Fig. 19, a system whereby you can view a polarized image, includes the display device 100 and the device points.

[214] the display Device 100 is a component that displays an image, and in particular displays the image field�Sovana in a particular direction, such as the horizontal direction or the vertical direction. As is illustrated in Fig. 19, if the display device 100 displays an image, which is polarized in the vertical direction And device points can transmit only the image that is polarized in the horizontal direction, and block the image that is polarized in the vertical direction A. In this case, the viewer who wears glasses will not be able to view an image that is polarized in the vertical direction. Essentially, the display device 100 includes various polarization means or mechanisms for the polarization of the output images.

[215] as an example, polarization means, the display device 100 may further include a polarizing panel. The polarization panel is provided on the surface of the device screen display 100 and polarizes the image output from the device 100 displaying, in a predetermined direction. Polarization can be one of linear polarization, left-hand circular polarization and right circular polarization.

[216] However, to provide a variety of views, displaying a lot of content or to display 3D content, including the image for the left eye and the image for right GLA�and, in accordance with various exemplary embodiments of the invention, the display device may output a polarized image on a variety of areas. The method can be divided into method template of the phase plate and method of the active phase plate.

[217] Fig. 20 is an image presented to explain the way the pattern of the phase plate in accordance with an exemplary implementation option. According Fig. 20, as an example, provided that the polarization can be set variously, through polarization panel having a different axis of light for each section of the image displayed. This method is called by the template method of the phase plate, such as a polarizing panel includes a template of the phase plate 132.

[218] the Pattern of the phase plate 132 is attached to the panel 131 of the display of the display device. The pattern of the phase plate 132 includes the first templates, converted to strings with odd numbers in the array of pixels of the panel 131 of the display, and second templates, facing the rows with even numbers in the array of pixels of the panel 131 of the display. As mentioned above, in this case, the light axis of the first templates and the light axis of the second patterns are different from each other. For example, each of the first and second templates templates can zaderjyvat� front of the incident light and ¼ - ¼ wavelength, respectively. In this case, linearly polarized light is converted into polarized light in a circle in the other direction. That is, the first templates template of the phase plate 132 can convert the light image displayed in the row of the array of pixels with odd numbers, in light with left circular polarization, and the second templates template of the phase plate 132 can convert the light image displayed in the row of the pixel array with even numbers, in light with right circular polarization.

[219] In this case, the first polarizing filter device points may have the same polarization axis as that of the first templates template of the phase plate 132. In addition, the second polarizing filter device points may have the same polarization axis as that of the second templates template of the phase plate 132. That is, the first device points can transmit the light image with left circular polarization, while blocking light image with right circular polarization and the second device points can transmit the light image on the right circular polarization, while blocking light image with left circular polarization. Accordingly, different viewers can see images, polarized differently. In the case of 3D images, the left polarizing filter and right polarizing filter one device points �have different axes of polarization and can display the images for the left eye and the right eye, respectively.

[220] meanwhile, the pattern of the phase plate 132 may be configured to electrically controlled to change the direction of polarization. In the above-described exemplary embodiment of the, if you want to see the image with right circular polarization by the first device points and the image with left circular polarization by means of the second unit points, the line pattern display with an odd number and a string pattern indicating an even number of a display device can change with each other.

[221] to realize this, for example, the pattern of the phase plate 132 can be implemented in the form of a liquid cell. The orientation of the liquid cell is changed in accordance with the stimulating voltage, and the characteristics of polarized light differ depending on the modified orientation. Here, the characteristics of polarized light can be a phase or direction of polarized light. That is, when polarized light enters and specific stimulating voltage is applied to the liquid cell to its orientation, the wavelength of the incident light may be delayed. For example, the pattern of the phase plate 132, which includes a liquid cell that can change direction polarized in a circle of light by changing the phase of polarized in a circle of light in straw�e display with odd numbers, or may change direction polarized in a circle of light by changing the phase of polarized in a circle of light in the line display with an even number. Although the liquid cell is not limited to the technical nature, if it is implemented as twisted TN-cell and the applied voltage is equal to '0' (zero), the incident light and rotates the polarization direction can be changed 90 degrees by means of a twisting of the molecules of the liquid. That is, if the incident light is linearly polarized, the polarization direction is rotated 90 degrees, if the incident light is the light with left circular polarization, the polarization direction is changed in the direction of the light with right circular polarization and right circular light with polarization changes in the direction of light with left circular polarization.

[222] Fig. 21 illustrates a case where the contents are visible through the device of glasses having polarizing lens in accordance with the method of the template phase plate, in accordance with an exemplary variant of the invention.

[223] In the above-described exemplary embodiment of the polarization axis of the templates differ from each horizontal pixel line. However, any area of the template in the template phase plate does not necessarily have to be divided by a vertical line. That is, as shown in Fig. 21, the pattern of the phase plate may include a third templates, converted to strings with odd numbers for each vertically� line, and fourth templates, facing the rows with even numbers. Here, a polarizing filter one device 200-11 points may have the same polarization axis (horizontal direction), and the first templates template of the phase plate. In addition, a polarizing filter other device 200-12 points may have the same polarization axis (vertical direction), and second templates template of the phase plate. Each device shows the points content 1 and content 2 respectively.

[224] Fig. 22 illustrates the case when the content is viewed through the device of glasses having polarizing lens in accordance with the method of active phase plate, in accordance with an exemplary implementation option.

[225] meanwhile, similarly to the transformation templates template of the phase plate 132, the characteristics of polarized light in all polarization panel can be changed. In particular, as described above, the characteristics of polarized light are subject to change whenever you change the image frame, if the above method for providing multiple representations by the alternating display of image frames is implemented in the display device on the basis of the method of polarized light. To do this, the display device may further include a p�larization element 190. A polarizing element may further include a liquid layer for polarization image. The display device 100 controls the liquid layer for each horizontal line or a vertical line using a stimulating different voltage levels, and polarizes the image content that is output from the device 100 to display in a certain direction. That is, as illustrated in Fig.22, the polarization direction is changed by changing the characteristics of polarized light polarizing panel when displayed image frame.

[226] In Fig. 22, if it is displayed horizontally polarized performance 2 content, presentation 2 content can be viewed through the device 200-11 points, but not through the device 200-12 points. When the displayed content is 1, the display device 100 displays the display image by the vertical polarization image, and the viewer who wears the device 200-12 points, can watch content 1.

[227] essentially, if a lot of content is polarized differently for each frame before it is shown, the content may be provided to the viewer without any loss in resolution. However, in this case, the display device 100 should increase the frame rate of the device 100 to display and to provide a change in the polarization axis at the gates OCC�to so, the device points could correspond to the display device 100. In the case of the above-mentioned method of the pattern of the phase plate is not required to change the frame rate, and the user can view the image using the device points without paddles points, but the resolution may deteriorate.

Device configuration points

[228] Below will be explained the configuration and operation of the device of points based on the method of polarized light. Fig. 23 is a block diagram of the configuration of the device 200 points based on the method of polarized light in accordance with an exemplary implementation option. As shown in Fig. 23, the device 200' scores on the basis of the method of polarized light in accordance with various exemplary embodiments of the implement comprises a front polarizer 251, liquid cell 252, a rear polarizer 253, block 254 input (for example, input device) and the block management 255 (for example, the controller).

[229] As described above, the device 200' transmits the image points, if the image has the same light axis, and the image is polarized in the display device, and blocks the image, if the image intersects its axis at right angles. Accordingly, the user who wears the device 200' points, can view the image selectively.

[230] as an exemplary Varian�and implementation of device points on the basis of the method of polarized light shows a device 200' points having a fixed tool or mechanism of polarization. That is, the lens has a light axis, and only a polarized image that is compatible with a predefined axis of light that is transmitted through this lens. Such a device points can be used as the display device on the basis of the above-mentioned method of the pattern of the phase plate and the display device based on how many views by alternately displaying images. Each device 200' points does not require a separate operation synchronization with the display device, and thus, the device 200 points is extremely economical and has less flicker-effect (flicker effect).

[231] However, if the user wants to see a polarized image corresponding to the other axis of light that is different from a predefined axis of the light, the user must wear a device of points having different light axis, or replace a polarizing lens. The user can see a polarized image by simply replacing the polarizing lens installed in the device points and inserting a new polarized lens. However, depending on the polarization characteristics of the image, the user can manually every time to replace the lenses.

[232] Accordingly, in another prima�nom embodiment of the device of points may include a means or mechanism to modify the characteristics of polarized lenses. Below will be described the device of points having such a means or mechanism.

[233] In the above exemplary embodiment, the implementation described with reference to Fig. 23, the device points can transmit the image which is polarized and displayed on the display device 100, and to do this, can include a front polarizer 251, liquid cell 252, a rear polarizer unit 253 and 254 of the input.

[234] the Front polarizer 251 has light with polarization in the same direction as the image that is polarized and displayed on the display device 100, and transmits the image. For example, the display device 100 can display an image which is polarized in the horizontal direction, and in this case, the polarizer 251 transmits only the image that is polarized in the horizontal direction. However, if the device points has a polarizer 251, which transmits only polarized in the vertical direction of the image, the device points may not convey the image that is polarized in the horizontal direction. The front polarizer 251 other blocks surrounding light having different light axis, with the exception of the image, which in fact is polarized in the display device 100.

[235] the Liquid cell 252 is a component whose orientation is Myung�is in accordance with the stimulating voltage, and changes the characteristics of polarized light in accordance with the changed orientation. Characteristics of polarized light can relate to the phase or direction of polarized light. That is, when entering polarized light and the filing of a specific excitation voltage to the liquid cell to its orientation, the wavelength of the incident light may be delayed. For example, the liquid cell can be active phase plate, and the polarization direction of the linearly polarized image may change as per specific applied voltage (phase change), or the direction of the circular polarization can be changed by changing the phase of the circular polarization. The characteristics of polarization can be changed appropriately to transmit incident light (left or right) by opening the device points or to block incident light by means of locking device points. As an exemplary embodiment, if a voltage is applied, the linear light can be rotated 90 degrees (the difference of the phase change is equal to λ/2), and if a voltage is applied, the linear light can be transmitted, without affecting the incident light.

[236] Although the liquid cell is not limited to the technical nature, in an exemplary embodiment of the implementation, it is implemented as TN-barley�ICA with electrically controlled birefringence (ERUs) or as a TN cell with an optical compensated bend (OCB) in an exemplary embodiment of the implementation. If the liquid cell is implemented as a twisted TN-cell and the applied voltage is zero, the incident light and rotates the polarization direction can be changed 90 degrees by means of twist of the liquid molecules. That is, if the incident light is linearly polarized, the polarization direction is rotated 90 degrees, if the incident light is light with left circular polarization, the polarization direction is changed in the direction of the light with right circular polarization and right circular light with polarization changes in the direction of light with left circular polarization.

[237] the Rear polarizer 253 is a component that depolarized image that conveys the liquid cell, and transmits only the polarization element in the transverse direction in relation to the polarized light displayed by the display device. Accordingly, once the device points open, a polarized image of the display device must be in a state in which the image can pass through the rear polarizer 253, which is achieved through the manipulation of the liquid cell. On the other hand, if the closures of the points are closed, the liquid cell must be converted to a polarized image displayed by the display device, it is perpendicular to the polarization axis of the rear of the field�of'izator 253.

[238] Refer to the operation of your points. If the shutter is open, the image observer to the display device and polarized in the vertical direction, passes through the front polarizer 251, and liquid cell 252 transmits the image and makes the polarization direction is compatible with the polarization axis of the rear polarizer 253. Accordingly, the image reaches the human eye with the help of the device points. On the other hand, if the shutter is closed, the image observer to the display device and polarized in the vertical direction, passes through the front polarizer 251, and liquid cell 252 also allows the image to pass through itself. Accordingly, the direction of polarization cross at right angles, and thus, a polarized image does not pass through the device points and reaches the human eye.

[239] in Block 254 input is a component through which the user enters a control command for controlling a liquid cell 252 of the display device. That is, the user can change the direction of polarization of polarized lenses with the help of electricity, by manipulating the block 254 input. Block 254 input may include a button, a touch panel switch and so on, to change the direction of polarization of the polarized lenses. On�reamer, if the user who is watching content 2 use the device 200-11 points, push the switch button to change the direction of polarization of the polarized lenses, the device 200-11 points changes the polarization direction of the polarizing lens in vertical and, accordingly, the user can watch the content 1.

[240] the Unit 255 controls all operations of the device 200' points. In particular, the liquid cell 252 is controlled as described above, in accordance with the input unit 254 of the input.

[241] Here, the device 200-11, 200-12 points can change the polarization direction of the left eye lens and the lens of the right eye, respectively. If the directions of polarization of the left eye lens and the lens of the right eye become different from each other when changing the polarization direction of the left eye lens and the lens of the right eye, the device points can be used to view 3D content.

[242] In the case of the device for 3D display based on the method of polarized light, a lot of viewers watching the same content and, thus, no need for communication between the display device 100 and the device 200 points. However, if each of the many spectators watching different content, the device 200 points communicates with the display device 100. For example, the device 200-11 and 200-otkov can hear the audio corresponding to each content unit 160 of the interface device 100 display, and output the audio data through the audio output unit or can transmit a control command entered through block 254 input to the display device 100. To do this, the device 200-11 and 200-12 points may further include an interface unit (for example, an interface) that is connected to the display device 100 to communicate. Because the block device interface points has already been described above with reference to Fig. 6, an additional description will not be presented.

[243] In the above-described exemplary embodiment of the polarization direction of device points is changed to change the view content. However, instead of changing the direction of polarization of the polarized lenses in the device of points can be changed, the content displayed by the display device.

For example, in Fig. 20, if the user who is watching content 1 use the device 200-11 glasses that have polarized lenses in the horizontal direction, wants to see the content 2, by modifying the presentation of content, the display device 100 can display the content of 2 in the area where the displayed content is 1 when the command to change the perception of content input with the input unit (for example, input device�) in the device 300 remote control or on the device 200-11 points.

[244] meanwhile, if the content is viewed using the device points, you can have a mode for providing a plurality of contents and a mode for providing 3D content. If the device 200-11, 200-12 points can change the polarization direction for each lens of the left eye and the right eye, the display device 100 may display a message indicating that the user should change the polarization direction of one of the left eye lens and the lens of the right eye. The user who wears the device of points that can change the polarization direction by the manipulation unit 254 of the input.

[245] points If the device can not change the polarization direction of each of the lenses of the left eye and right eye, a message indicating that the user should change the device points may appear when you change the mode.

[246] Although the exemplary embodiments described above implementation relate to the display device 100, including a unit display 130, it is understood that other exemplary embodiments of the implementation that are not limited. For example, other exemplary embodiments of the implementation can be applied to the device for image processing, such as digital set-top box device with Autonomous control, audio/video receiver, optical media player, TV-d�tcic etc. In addition, it is understood that in exemplary embodiments, one or more blocks of the above-described devices 100, 200, 300 may include a processor or microprocessor executing a computer program stored on a computer readable medium.

[247] Although there have been shown and described several exemplary embodiments, specialists in the art it will be understood that these exemplary embodiments may be modified without going beyond the principles and essence of the inventive concept, the scope of which is defined in the appended claims and its equivalents.

1. A display device, comprising:
a display unit that displays multiple representations of the content using a variety of image frames;
the receiver of the remote control signal, which receives a control command from a remote control device to control the first representation of content from multiple views of the content; and
a controller which, if the received control command has no effect on another view content from multiple views of the content, and performs a control operation in accordance with the control command, and if the received control command affects a different view of the content of mno�society of representations of content controls to display the message, notifying about the acceptance of the management team, to another representation of the content,
moreover, if the received control command affects a different view of the content and if the signal receiver remote control receives a signal of consent from another presentation of content, the controller performs an operation corresponding to the accepted command.

2. The display device according to claim 1, further comprising:
a receiver that receives a lot of content; and
a signal processor, which comprises image frames by processing each of the received plurality of contents.

3. The display device according to claim 1, further comprising:
a storage device that stores information about operations management, classified as one of the feasible operations and operations with execution restriction in accordance with whether or not the corresponding operation control impact on the second view content from multiple views of content, different from the first presentation of content,
wherein the controller compares the received control command information management operations, stored in the memory device, and performs a control operation corresponding to the accepted operation command, in response to at�Yatom management team, appropriate, according to the comparison, feasible operation, and displays a message informing you of the adopted management team, in response to the received control command corresponding, according to the comparison operation with the restriction of execution.

4. The display device according to claim 3, in which:
the management team is classified as a feasible operation, contains at least one of commands for editing content to edit the content of a presentation of content, the team's volume control to adjust the volume of audio content, the commands display the on screen display (OSD) to display the OSD menu on the content and presentation control commands to adjust the image quality for quality adjustment of the image frame displayed in the content and
the management team is classified as a transaction with the restriction of the execution contains at least one of the operation control on-off power and control operations on the output characteristic of the display device.

5. The display device according to claim 3, in which:
in response to the received control command corresponding to the operation with the restriction of the execution, the controller performs a control operation corresponding to the accepted operation command, when the second unit points, agreed with the second �predstavlenie content accepted response signal agreeing with the adopted management team, and does not perform the control operation corresponding to the accepted operation command, when receiving the response signal, objecting to the accepted command is executed.

6. The display device according to claim 5, in which:
in response to the received control command corresponding to the operation with the restriction of the execution, the controller performs a control operation corresponding to the accepted operation command, if the second device points, agreed with the second representation of the content will not be accepted response signal in relation to the adopted control command within a predetermined time from the time when a message is displayed.

7. A method of controlling the imaging device, containing:
conclusion multiple views of the content using a variety of image frames;
receiving a control command to control at least a first representation of content from multiple views of the content; and
if the received control command has no effect on another view content from multiple views of the content, the operation control in accordance with the control command, and if the received control command affects a different view to�awning from multiple views of content control to display the message, notifying about the acceptance of the management team, to another representation of the content,
moreover, if the received control command affects a different view of the content and if the signal receiver remote control receives a signal of consent from a different view of content, referred to the performing includes performing the operation corresponding to the accepted command.

8. A method of controlling the imaging device according to claim 7, further comprising:
reception of a plurality of contents and
drafting of image frames by processing each of the received plurality of contents.

9. A method of controlling the imaging device according to claim 7, in which:
adopted management team is classified as one of feasible operations and operations with constraint implementation in line with the question of whether the management operation corresponding to the accepted operation command, the impact on the second view content from multiple views of content, different from the first content presentation; and
referred to the operation contains:
the operation control corresponding to the accepted operation command, in response to the received control command corresponding to a feasible operation, and
this message, notify�him about the acceptance of the management team, in response to the received control command corresponding to the operation with the restriction of execution.

10. A method of controlling the imaging device according to claim 9, further comprising:
in response to the received control command corresponding to the operation with the runtime limitation, the operation control corresponding to the accepted operation command, when the second unit points, agreed with the second representation of the content is made the response signal agreeing with the adopted management team; and
in response to the received control command corresponding to the operation with the runtime limitation, failure of the control operation corresponding to the accepted operation command, when receiving the response signal, objecting to the accepted command is executed.

11. A remote control device, which controls the imaging device that outputs multiple representations of the content, wherein the remote control device includes:
a sensor that detects the closest to the remote control device points to a vast array of devices points;
the block data input that receives a user's command;
a controller which, in response to receiving the user command, outputs a control command to control the presentation to�awning from multiple views of content displayed on the display device, synchronized with the closest device points, in accordance with the user command; and
an interface that transmits output a control command to the imaging device.

12. A remote control device according to claim 11 in which the sensor detects the distance between the plurality of devices of the glasses and the remote control device and detects the nearest unit of points by comparing recorded distances.

13. A remote control device according to claim 11, in which the sensor compares the intensity of reception of radio frequency (RF) signals received from multiple devices points, and detects the device of points, which transmits the RF signal with the highest received intensity, as the closest device points.

14. A remote control device according to claim 11, in which the derived control command comprises at least one of information on the submission of content, the nearest unit of the relevant points, and information about the characteristics of the nearest device points.

15. A method of controlling a remote control device, which controls the imaging device that outputs multiple representations of content that contains:
the closest to the detection device �stantsionnogo lens control device among the plurality of lens units; and
in response to receiving the user command, the output control signal corresponding to the accepted command of a user to control the presentation of content from multiple views of the content displayed on the display device corresponding to the nearest unit points, and transmitting the extracted control signal to the imaging device.



 

Same patents:

FIELD: physics, computer engineering.

SUBSTANCE: invention relates to sharing multiple displays and/or user interfaces to enhance interaction of mobile devices. Examples of methods may provide detection of a first touch or drag event, receiving a message indicating a second touch or drag event from a nearby device occurring during the first touch or drag event, creating a join event, and providing transmission of the join event to the nearby device. The method may also include updating a registry of nearby devices in response to receiving a message regarding a touch or drag event from a nearby device. The method may further include providing presentation of content on a display of a device and indication of content to be presented on a display of the nearby device, wherein the content to be presented on the display of the nearby device is related to the content on the display of the device.

EFFECT: enhanced user interface in a mobile device by joining displays of multiple devices for combined operation thereof.

19 cl, 11 dwg

FIELD: information technology.

SUBSTANCE: device comprises an application execution section which stores non-displayed data and position information of said non-displayed data in memory when processing data using a first display section, wherein the non-displayed data border with displayed data of the first display section, a three-dimensional information analysis section which analyses the three-dimensional position of a real object, which includes a first display section, a virtual object control section which receives non-displayed data input and position information of said non-displayed data, and three-dimensional position information of the first display section, generates a composite image formed by the real object, and displays said composite image on a second display section.

EFFECT: enabling simultaneous viewing of data located outside a display section.

6 cl, 14 dwg

FIELD: physics, computer engineering.

SUBSTANCE: invention relates to a method of converting input image data into output image data. Disclosed is a method of converting input image data (Vin) in a first dynamic range (LDR) into output image data (Vout) in a second dynamic range (HDR) which is greater than the first dynamic range (LDR). The output image data (Vout) are split into at least two signals, wherein the first signal (VRC) comprises region contrast data and the second signal (VD) comprises detail data. The dynamic range for the region contrast signal is stretched with a higher stretch factor than the dynamic range for the detail signal. The method comprises identification of bright parts of an image, and for bright part of the image, the dynamic range is stretched even more than for the region contrast signal.

EFFECT: high quality of image reproduction.

9 cl, 9 dwg

FIELD: physics, computer engineering.

SUBSTANCE: invention relates to a system, a software application and a method of displaying third-party media content in public places. The technical result is providing an arbitrary duration of displaying priority presentation conttent in addition to any content provided by a main presentation application. The main presentation application is configured to cause the display device to display main display content as a main presentation, and the priority presentation application is configured to cause the display device to display priority display content as a priority presentation, and to exclude the main presentation of the main presentation application from the display device for the entire duration of the priority presentation, and is further configured to be launched by a signal received from the main presentation application, such that the priority presentation application is launched through launch signal information which is included and encoded in at least one of the main presentation content and a content playlist.

EFFECT: technical result is achieved owing to a system for displaying media content which includes a display device and a display controller; the display controller is a computer storing a main presentation application and a priority presentation application which can operate concurrently on the CPU of the computer.

12 cl, 10 dwg

FIELD: physics, computer engineering.

SUBSTANCE: invention relates to a field associated with the Internet, particularly to a method and apparatus for creating a user interface. The apparatus for creating a user interface comprises the following modules: an acquisition module for acquiring layers to be drawn and styles thereof, wherein the layers comprise an image layer and a colour layer underlying the image layer; a layer creation module designed to extract attribute information of all layers, wherein the attribute information includes transparency; a user interface creation module for merging the drawn layers, wherein the layer creation module comprises: an extraction submodule for obtaining an image file selected by a user; and a drawing submodule for drawing the image layer according to the image file obtained by the extraction submodule, and drawing the colour layer according to the image file of the image layer; wherein the apparatus also includes a variation module for periodically varying transparency of the image layer.

EFFECT: high efficiency of controlling a user interface.

11 cl, 18 dwg

FIELD: physics.

SUBSTANCE: user indicates control positions and creates conditions for the onset of stimuli thereon at a different time. To issue instructions, the user focuses on the control position, waits for the stimulus and, upon seeing the stimulus, makes an eye gesture. User eye movement is detected and analysed and the eye gesture is detected and analysed. At the beginning of the eye gesture, a stimulus in response to which it was issued and the corresponding position are determined, and an instruction associated with said combination of eye gesture and control position is issued to a control device.

EFFECT: enabling detection of user instructions issued by looking without the need for precise determination of spatial coordinates of the look and providing a considerable angular distance between control positions, and without the need for the user to focus at given positions.

21 cl, 2 dwg

Screen display // 2519527

FIELD: physics, computer engineering.

SUBSTANCE: invention relates to computer engineering and specifically to a screen display for computing devices which control production processes of complex installations. The installation for extracting coal from the bottom of a mine includes devices for extracting coal from the bottom of a mine, which include a winning machine, a plurality of support units mounted along the bottom and a support control device. The support control device includes a ground-based control device, a computing device for the installation, control devices for the support units, a screen display for rendering instructions, functions, operating conditions, positions and/or functional conditions of the installation. The screen display comprises multiple independent and separate partial screen displays, each associated with a terminal control device which is independent of other control devices of partial screen displays.

EFFECT: facilitating simultaneous display of multiple images parallel each other with arbitrary change and arbitrary sequence next to each other and without mutual influence and overlapping.

3 cl, 2 dwg

FIELD: physics, computer engineering.

SUBSTANCE: invention relates to a display control apparatus, a display control method and a computer programme product and particularly to a display control apparatus, a method and a computer programme product suitable for use when controlling display in a display apparatus, which can be controlled by approaching said display apparatus. A graphical user interface control apparatus comprises a controller configured to cause display of an associated element, associated with the displayed element, on the display in response to reception of an indication to detect proximity of an object to the displayed element, wherein the displayed element is displayed on the periphery of the display, and configured to change the type of displaying a portion of the associated element situated near the object or in contact with the object as the object moves on the associated element.

EFFECT: enabling reliable selection of the required item among items displayed in a display apparatus, which can be controlled through approach thereto.

23 cl, 12 dwg

FIELD: physics, computer engineering.

SUBSTANCE: invention relates to computer engineering and specifically an image capturing device. The image capturing device has an image capturing means, a photographic preparation means for adjusting the predetermined photographic setting of photographing using the image capturing means, a photographic processing means for improving photographing using the image capturing means based on the photographic setting, a detection processing means, a control means for controlling the photographic preparation means. The method realises control of said device.

EFFECT: easier use owing to low probability of shaking the camera as a result of touching.

20 cl, 14 dwg

FIELD: measurement equipment.

SUBSTANCE: invention relates to equipment of optic-electronic measurement systems and devices of information input into calculation devices and systems. The device comprises optically coupled first and second emitters, "surface of shadow location", a television camera and a calculation device, besides, the emitters generate light beams with different spectral maxima γ1 and γ2, and the television camera has appropriate separate spectral channels for reception of these emissions, at the same time coordinates of half-shadows generated from a finger of a man operator located on the way of these light beams, are input into the calculation device, which by their values calculates its spatial position.

EFFECT: increased efficiency of a device.

2 cl, 4 dwg

FIELD: measurement equipment.

SUBSTANCE: group of inventions relates to the field of leak detection. The leak detection module is proposed, which comprises: multiple wires, comprising one or more collector points; a capacitor for supply of the module with energy in de-energised condition; multiple switches; a processor made as capable of detection of the condition start with disconnected power supply and initiation and control of the specified sequence of switching for the specified multitude of switches during the de-energised condition; and a group of registers made as capable to preserve data of leak detection collected in one or more collector points in process of the specified sequence of switching.

EFFECT: development of leak detection facilities using four-wire cables.

24 cl, 4 dwg

FIELD: oil and gas industry.

SUBSTANCE: group of inventions relates to control of oil production. The invention suggests oil production data support and control method in real time and automated system for its implementation, which contains n actuating mechanisms, n data processing and converting devices corresponding to each actuating mechanism, self-contained control unit, data visualisation unit, mobile communication unit and self-contained data acquisition and storage unit.

EFFECT: development of reliable oil production data support and control method in real time and automated system for its implementation, which ensures continuous monitoring with receipt of true information in real time at any set instant of time with potential timely detection of deviations from the preset operation modes of any actuating mechanism out of n actuating mechanisms coupled to the claimed automated system as well as potential selection of optimal operating modes for actuating mechanisms both at the site of their location and location of data processing and converting devices as well as at any geographic point where mobile communications are ensured for devices, which may be coupled according to the claimed invention as mobile communication units, data visualisation units, and potential control of actuating mechanisms operation.

3 cl, 1 dwg

FIELD: physics; control.

SUBSTANCE: invention relates to telemechanics and automated systems for measuring, monitoring, adjusting, diagnosing and controlling remote objects, and specifically to systems for corrosion monitoring of electrochemical protection of gas pipelines, particularly cathodic protection units. The telemechanical system for monitoring and controlling cathodic protection units of gas pipelines comprises cathodic protection units, a control station with an automated workstation for a controller and a communication channel between cathodic protection stations and the control station. The communication channel is set up by connecting an overhead power line to high-frequency chokes and coupling capacitors, connected to coupling filters which are provided with grounding blades and are connected to high-frequency communication units, one of which is installed at the control station and is linked to the automated workstation of the controller, and the other are installed in the cathodic protection units and are linked to monitoring and control units; furthermore, each anode grounding connection and each pipeline drainage point is connected to a measuring transducer which is linked to the monitoring and control unit.

EFFECT: high reliability of cathodic protection units of gas pipelines.

2 dwg

FIELD: physics, control.

SUBSTANCE: invention relates to automatics and may be used in development of control systems of aviation objects, items of rocket-space engineering and robotic complexes operating under extreme conditions (wide range of temperature variation from -60 to +125°C, mechanical impact in the form of strikes and wideband vibration) in ionising radiation fields. The proposed system comprises actuating elements of a control object, an angular speed sensor, an acceleration sensor, an information collection unit, satellite navigation equipment, an inertial navigation subsystem, control computing devices, a sensor of external impact, a blocking signal generator, a memory with authorized access and actuating elements, a power supply subsystem, an image processing subsystem, a control unit and an optical correction subsystem.

EFFECT: improved efficiency of control system operation, namely, preservation of operability in case of any single failure in system equipment, and also preservation of functioning and accuracy of control in case of parametric changes in components caused by ageing, change of environmental temperature and dose factors of ionising radiation.

24 cl, 24 dwg

FIELD: instrumentation.

SUBSTANCE: proposed system comprises intake-and-discharge sealed station equipped with two-way controlled orifice valve arranged at vessel bottom. It includes device for vacuum feed of samples to measuring device. Said device consists of interconnected intake commutator, flow measuring cell connected to vacuum-pressure control system of said intake-and-discharge vessel. Note here that measuring cell comprises bottom inlet-outlet of fluids and is located at top point of sample feed line to rule out the ingress of said products into the meter at breakage of the film and covered by protection film from above. Besides, this system comprises control, indication and data transfer unit including pneumoelectric and electric devices equipped with programmable logical controller and digital processing program. Note here that it incorporates extra intake-and-discharge station coupled with the first one to make the pump. Said intake-and-discharge stations are identical and consist of two-way orifice valves while top covers accommodate sample level pickups and vacuum and pressure feed valves. Union to feed material at rarefaction of two-way orifice valves of both stations are interconnected via T-bend and flexible hose and connected with top union of flow measuring cell while union to feed material under pressure are interconnected by T-bend with flexible hose to drain measured sample portion in accumulation tank. Accumulation tank comprises union at its top part to receive sample from primary sampling system, measured sample return line, air separator and flushing water feed valve. Its bottom comprises T-bend connected with controlled drain valve and flexible hose for connection with measuring cell bottom union. Note here that air separator is composed of diffuser provided with conical splitter.

EFFECT: higher accuracy of measurements, continuous sample mixing, sample feed at rarefaction.

1 dwg

FIELD: physics; control.

SUBSTANCE: invention relates to a system of situation-analytical centres of an organisational system. The system comprises a telecommunication network, a control centre, situation-analytical centres, control points of departments of the organisational system, two-way communication means, means of monitoring surveillance objects, which affect the state of operations of the organisational system, and enables automated generation of scenarios using computer systems of the control centre, situation-analytical centres and control points of departments of the organisational system, storage of data on the scenarios in a system for storing data for auditing operations of the organisational system, which is part of the control centre, transmission of data on the scenarios via equipment interfaces of the control centre, situation-analytical centres, control points of departments of the organisational system and over the telecommunication network to computer networks of the control centre, situation-analytical centres and control points of departments of the organisational system, to video systems and a computer for setting up the video system of the control centre and situation-analytical centres, to multimedia screens of the control centre, situation-analytical centres and control points of departments of the organisational system to make decisions based on the generated scenarios.

EFFECT: high efficiency of the decision-making process owing to automated generation of scenarios for solving problem situations.

21 cl, 1 tbl, 30 dwg

FIELD: physics; control.

SUBSTANCE: invention relates to a method of supporting operation of an organisational system. The method comprises steps of forming blocks of standardised data on the state of support objects and operation of the organisational system, critical and allowable performance indicators of the organisational system, control commands for setting support objects into standardised or allowable states depending on the actual situation, setting support objects into standardised states, determining the actual states of support objects, evaluating the actual performance of the organisational system, determining blocks of data on the control commands required in the actual situation, optionally setting the support objects into standardised or allowable states based on the effect thereof on the types of operation in subdivisions of the organisational system and operation of the organisational system as a whole.

EFFECT: high efficiency of controlling information support of operation of an organisational system through automated evaluation of performance indicators of the organisational system and automatic control of support objects of the organisational system based on said evaluation.

24 cl, 50 dwg

FIELD: electricity.

SUBSTANCE: invention relates to the field of electrical engineering and may be used in electric power systems. Smart electric power system intended for improvement of control for utility system includes sensors at different sections of the above utility system with use of data transfer technologies and computer technology such as auxiliary bus structures in order to modernise the electric power system so that it operates effectively and reliably and to support additional services for consumers. The smart electric power system can include a smart distributing device in the utility system (separate from the control centre smart tools) that consists of units generating data at different sections of the electric power system, analyse generated data and modify operation of the respective section automatically.

EFFECT: improved control of the power supply networks.

46 cl, 37 dwg

FIELD: instrument making.

SUBSTANCE: fuzzy adaptive position method of automatic control of objects with discrete executive devices is proposed, which is realised by means of a logic controller and consists in generation of control parameters according to fuzzy rules and feeding these control parameters to an object. Control parameters generation is divided into two levels, at the first of which with the help of fuzzy logic they localise (identify) the control range, where further adaptation will be carried out. Localisation of the control range is carried out by definition of the main (base) value of the control parameter of this range according to the formula: Uad1=Uo(1-β)+Ukβ, where Uad1 - adaptable control parameter, Uo and Uk - control parameters in two extreme (opposite) conditions B of the object, β - normalised equivalent of object condition (β=0 at Bo, β=1 at Bk, where Bo - initial condition of the object, Bk - final condition of the object), taken as the value of the parameter of the adaptive middle position at this range, and at the second level the value of the control parameter is defined with the help of the adaptive three-position control method.

EFFECT: simplicity of realisation, improved quality of control, higher reliability of functioning due to substantial reduction of number of rules and more efficient control.

2 cl, 5 dwg

FIELD: physics, communication.

SUBSTANCE: invention relates to remote control over rod pumps, displacement pump, variable-speed drive etc, for example, used for extraction of hydrocarbons and drainage for them to be optimised. Device and method uses independent network server computer integrated with pump controlled arranged at every well in oil field. Will controller controls downhole pump in situ, processes well and pump data, generates surface and well diagrams and transmits reports on extraction, recommendations on improvement of extraction and production statistics at remote locations in Internet. Said controller can make remote requests for output of aforesaid reports via email or Internet messages, for example, at default state.

EFFECT: better serviceability, lower hardware costs.

19 cl, 9 dwg

FIELD: tire industry.

SUBSTANCE: proposed plant contains great number of working units operating successively. Plant is furnished with central processor made for setting successive execution of great number of operations at working stations. Each working station contains at least one unit of indicated working units according to one or several set sequences of tire types. Plant includes also local processor connected with each working station and made for determining type corresponding to drum found in each of said working units. Local processor provides selection of definite procedure from preset group of procedures for each of said working units designed for type of tire corresponding to drum to be used in operation. Invention reduces to minimum downtimes for changing type of tire to be manufactured and makes it possible to manufacture lots of tires of different types without changing equipment producing tire semifinished products.

EFFECT: provision of automatic manufacturing of different type tires.

9 cl, 3 dwg

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