Presentation sections with user-defined properties |
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IPC classes for russian patent Presentation sections with user-defined properties (RU 2488157):
       
 Device for inputting command matrix signals / 2487393
Device, having n horizontal and m vertical switched buses, first and second memory units, includes a row galvanic decoupling unit, a column galvanic decoupling unit, first and second groups of diodes, a command matrix availability generator, a "Write" signal generator and a converting unit. Matrix commands are converted to the required code by a program.
 Liquid crystal display device / 2487380
Device has optical sensors (30) designed to determine intensity of received radiation, and having the function of an area sensor for determining the point of external input stimulus through each optical sensor (30) detecting an image on the surface of the panel. The device also has a temperature compensation sensor (50) designed for temperature correction of the optical sensors (30). The compensation sensor (50) has a blocking film for blocking radiation lying in a bottom layer, an optical sensor 30A designed to determine temperature of the environment in which the liquid crystal display device is located, lying on the blocking film which lies in the bottom layer, and a blocking film for blocking radiation lying in a top layer, which blocks ultraviolet, visible and infrared radiation and covers optical sensors for determining temperature.
 Device to create sensor surface / 2486575
Device to create a sensor surface comprises the first and second radiators, an array comprising N optical receivers, a computing device and N receiving light guides, the first end of which is optically connected with one of optical receivers, and the second end is arranged along the line located in one plane with optical centres of the first and second radiators and is optically coupled with them, at the same time the sensor surface of the device represents a plane formed by crossing of radiation beams from the first and second radiator with the second ends of N optical fibres, and the computing device performs alternate connection of one of two radiators, input of signals from each of N photodetectors serially with the first and second connected radiator and calculates coordinates of the crossing point with a finger of a sensor surface operator.
 System and method of controlling light / 2485573
Light control system has a light source (4) for illuminating a region (10), a pointing device (6) for projecting location information (11) onto the region (16), and a receiver (5) for detecting location information (11), the system being configured to determine the position of location information (11) on the region (10), and the controller being configured to control illumination of the region (10) depending on said location information (11).
 Method of optimising computer management / 2485572
Method of optimising computer management involves analysis of resources used by each program (processor): booting the central processing unit, the volume of used memory (including the page file), hard drive operation, and dividing processes into "system" and "user" processes, evaluating user activity in form of work on the keyboard, mouse, touchpad, with simultaneous real-time evaluation of the user emotional stress indicators: heart rate and/or breathing pattern and/or galvanic skin response, the method being characterised by that if user indicators on their selected parameter or set of parameters are in a state corresponding to rest, irrespective of user activity on the computer, process priority management is performed by the operating system by default; if user indicators on their selected parameter or set of parameters are in a state corresponding to stress, process priority management is performed by reallocating computer resources towards programs and processes with which the user is currently working.
 Wireless communication device and split touch sensitive user input surface / 2483344
Result is achieved by providing a split touch sensitive input surface having a pair of separate touch sensitive arrays, located on a common side, each adapted for detecting the relative position of a pointer device near the respective array.
 Display control device and control method therefor / 2481648
Device displays an image together with an added region without an image during display in the display region of a display means which should be used to display an image having an image format different from the format of the display region. When applying a scrolling operation at the issue of a scrolling display instruction for an image displayed in the display region, the device performs display scrolling in accordance with the scrolling operation. At the same time, the device adjusts the region without an image in order to reduce the width of that region in the scrolling direction during scrolling display as the number of applied scrolling operations increases.
 User interface for reading dialogues by e-mail / 2481622
Method for provision of a user interface, which displays messages as a part of a dialogue, includes the following: reception of a new message, determination of a dialogue associated with the received message, where messages form a dialogue corresponding to previously set connection with one other message within the dialogue. Further, in accordance with the method, a dialogue break is determined within the dialogue, and also a dialogue is presented, using the following set: an additional distance between parts of the message around the dialogue breaks, an extract from a parent message above a part of a message following the dialogue break, and a graphical element.
 Three-dimensional shadow mouse pointer / 2479012
System (100) for determining feedback on a three-dimensional location of a pointer in a three-dimensional region of image data, the system having: a display unit (110) for computing a view of the three-dimensional region for displaying on a display; a pointer unit (115) for computing a two-dimensional location of the pointer on the view of the three-dimensional region, based on a pointer location input; a location unit (120) for computing a three-dimensional location in the three-dimensional region, based on a two-dimensional location on the view of the three-dimensional region; and a shadow unit (125) for determining a set of two-dimensional locations for displaying a shadow on the view of the three-dimensional region, wherein the set of two-dimensional locations for displaying the shadow comprises the two-dimensional location of the pointer on the view of the three-dimensional region, and wherein a set of three-dimensional locations, computed based on the set of two-dimensional locations for displaying the shadow, is connected. Typically, the connected set of possible three-dimensional locations having the three-dimensional location of the pointer is included in a structure indicated by the pointer.
 Surface for constructing logic structures / 2479011
Method involves displaying a first logic surface component, having a construction surface, used to display logic structure data, receiving a construction surface selection, receiving logic structure data in the construction surface, displaying said data which represent construction of one or more logic structures.
 Atm and method for its operation (variants) / 2248044
Methods for inputting data into ATM include following steps: forming an input signal when function key or auxiliary keyboard key is pressed at ATM panel, at the same time data inputted into ATM are assigned to pressed key, conversion of input signal from key to input signal, matching coordinate data of point of a point on screen of ATM, previously matched with pressed key, redirection of coordinate data input signal into computer data flow, meant for data input from mouse. Method for data input may have additional steps: forming of signal by pressing key of auxiliary keyboard, conversion of input signal from auxiliary keyboard key to input signal, matching key on standard letter-digit keyboard, previously matched with pressed key; redirection of received input into data flow of computer, meant for inputting data from standard keyboard. ATMs have computer and at least one device for performing financial operations in response to data input in computer, performed in accordance to methods for inputting data into ATM. Devices for storing software have software, providing for control of ATM in accordance to methods for inputting data in ATM.
 Device for inputting image into personal computer / 2256210
Device has CPU, control block, receipt register, buffer memory block, address counter, first and second channel transmitters blocks, PC connection block, amplifier, pulse generator, control signals generator, second receipt register, second buffer memory block, first, second and third buffer registers, receipt-transmission register, strings counter, adder, first string counter and digital comparator.
 Navigation / 2265245
Objects are linked to multiple directions on basis of positions of these objects, ascension or descent for one level in hierarchy of such objects is performed, while a certain group of objects can be passed as a whole at first level, and shifting between its other elements or sub-group can take place at second level.
 Method for connecting semi-bridge indicator to personal computer / 2265878
Semi-bridge indicator is connected to computer through sound card, central processor unit of which is used for forming bearing alternating voltage, and two stereo output channels form alternating current bridge together with semi-bridge indicator, from diagonal line of which signal is injected into central processor unit of sound card.
 Device for making image input into computer / 2267150
Device has alphanumeric transformer, control unit and additionally introduced amplifier and transceiver register. Data input is carried out by sequentially reading each byte saved in the transceiver register.
 Method for selecting product by means of data transfer network / 2287176
Server system 100 controls selection of product through data transfer network 120, by means of a series of screens. Server system 100 processes user data from user input signals to determine whether user data are synchronized with at least one of a set of products. Server system 100 transfers the earliest one of screen signals, appropriate for such earliest one of screens in series, which has no synchronized data, if selected screen is next in the order of screens and if previous screens in order, prior to selected one, all have no synchronized data.
 Information input device / 2291476
Device contains commutator, storage device, two counters, synchronizer, three gates. Address inputs of commutator and storage device are connected to each other and to byte outputs of counter, which continuously changes its state influenced by clock signal. Each counter state corresponds to the number of external device and to information written in storage device, which defines this external device. Address digit count of storage device is greater than commutator address digit count by one. That is, each external device has an identifier of two words, which is passed to computer during current query cycle.
 Computer spherograph, combined computer control device based on it / 2292072
Device is equipped with a lever with controlling and controlled arms, hanging on a support with the capability of moving controlled arm inside a spatial angle of a fixed spherical surface. Buttons and scroll wheel are located on controlling arm. Controlled arm, as well as the scanned interior spherical surface, is located inside the device.
 I/o device / 2295748
I/o device can be used in devices for manual data input/output. Device has keyboard mounted on panel, radiation receiver/ source couples, two reserved channels for data processing, which channels have decoder, switches and optical module, control bus, data bus and microcontroller. Radiation receivers and radiation sources are placed in case of optical module.
 Data input method / 2300129
Technical effect is achieved by means of repeated execution of following: setting of beginning of counting of values of parameter value determining parameters, comparison of these values to sets of conditions of selection of spatial areas from a set of such areas, including at least condition of whether parameter values, corresponding to manipulator movement, belong to this spatial area, recording a series of input of spatial areas, comparison of this record to certain set of series of selection of spatial areas, inputting data from a set of data, connected to matching series.
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FIELD: information technologies. SUBSTANCE: user may configure a presentation so that it includes multiple sections. Each section includes zero or more slides of the electronic slide presentation. In addition to the fact that slides are associated with each section, each section is associated with one or more properties, having values, which may be defined by the presentation author. Since values of section properties are set by the user, these properties may, in certain versions of these methodologies embodiment, allow the presentation author to use sections by the methods, which are unable in presentation attachments, which simply use sections as facilities of reduced slide images grouping for navigation between slides in the interface of author development. EFFECT: expansion of functional capabilities of electronic presentation development. 20 cl, 9 dwg
Prior art Electronic presentations are used in different situations for the transmission of information. For example, a businessman may use electronic presentation slides for the transmission of information about business performance. In another example, the teacher may use an electronic presentation of slides for lesson study. Application presentation running on personal computers are used to create and view electronic presentations. A typical application of the presentation is the author interface that allows the user to edit the slides in the presentation. Copyright interface may include a base panel and navigation. The main panel contains the editable slide in the presentation. The navigation bar may include a sequence of thumbnail images ("thumbnails") of each slide in the presentation. A thumbnail image of the slide is a smaller version of the slide. The user presentation application may press (click) the thumbnail image of the slide to indicate the main panel copyright interface to display a slide for editing. Electronic presentation slides can include a large number of slides that can contain information about several topics. For example the EP, the physics teacher can use electronic presentation slides for lesson study, which includes slides on the resistance, slides on the capacity and slides about the upcoming exam. Summary of the invention In this section, in a simplified form provides a range of concepts, which further described below in the detailed description of embodiments. This summary is neither intended to identify key features or essential features of the claimed invention or to limit the scope of the claimed invention. In General, this disclosure describes techniques that use a user-defined property values sections electronic presentations. As described here, the user can configure the presentation so that it included a variety of topics. Each section includes zero or more slides, electronic presentations slides. In addition to the slides associated with each section, each section is associated with one or more properties that have values that can be defined by the author of the presentation. Since the values of the properties of the sections are defined by the user, these properties can, in some embodiments of these methods, let the author of the presentation to use the ways, not possible in applications presentation, just use the sections as a means of grouping of thumbnail images of slides for easy navigation through the slides in the author interface. As described below, the section properties may include, for example, the section title, author, section, set the data access control, which defines the rights of users to perform actions in relation to the topic, and other properties. Properties of sections can be used during authoring, presentation or during the presentation. The use of such property during the authoring presentations may include, for example, the ability to hide or show thumbnail images of the slides in the section by clicking on the section header, the ability to change the order of sections using the section headings, the ability to use the name of the section to print the slides in the section, the ability to create a hyperlink to the section of the presentation, the ability to map searchable keywords with partitions, and other uses. The use of such property at the time of presentation may, for example, include the ability to view the headers of the sections of the presentation during the presentation and go to the first with whom the IDE section. Brief description of drawings Figure 1 depicts an example computing device. Figure 2 depicts an example of an operation to execute instructions which application presentation can instruct the processor unit of the computing device. Figure 3 depicts an example graphical interface generated by the application of the presentation in order to create a presentation. Figure 4 depicts an example graphical interface generated by the application of the presentation to print the slides in the presentation. Figure 5 depicts an example graphical interface generated by the processing unit to select the sections to include in the presentation. 6 depicts an example graphical interface generated by the processing unit for presentation. 7 depicts an example graphical interface generated by the processing unit to determine the properties of the data access control section of the presentation. Fig depicts a sixth variant of the example graphical interface 26, formed by the processing unit 4 for sorting slides 5. Fig.9 depicts an example system in which multiple computing devices to simultaneously access the presentation file, been preserved and the data carrier, available over the network. Detailed description In General, this disclosure describes techniques that use a user-defined property values sections electronic presentations. In the following description describes various examples. It should be understood that these examples are given for purposes of explanation and not as implied or otherwise limit the scope of the invention. Figure 1 depicts an example computing device 2. Computing device 2 may be any of various types of physical computing devices. For example, computing device 2 may be a personal computer, a portable computer, a tablet computer, a server computer, a universal computing machine, mobile phone, network phone, set top box, a personal media player or any other type of computing device. In addition, computing device 2 may be implemented as two or more physically separate "blocks". For example, computing device 2 may be a cluster of two or more physical computing devices. In another example, computing device 2 may be a distributed computing system. As shown in the example of figure 1, computing device 2 includes the processing unit 4, which str is Aubin follow the instructions. The processing unit 4 is implemented as a set of integrated circuits, which includes at least one integrated circuit. In one of the examples of variants of the embodiment of the processing unit 4 is a Core2 processor produced by Intel Corporation, Santa Clara, California. In other embodiments, the embodiment as an example, the processing unit 4 is implemented as a set of integrated circuits, distributed across multiple physical devices. The example of figure 1 also depicts that the computing device 2 includes a communication line 6, which allows the processor unit 4, the contact carrier 8 data. Line 6 communication may be any of many different types of communication lines, including the control bus communication line HyperTransport interconnect Intel QuickPath Interconnect, bus high-speed graphics port, line, computer network (e.g., one or more communication lines, Ethernet, fiber-optic communication lines and so on), the line connection PCI or other type of communication lines. The carrier 8 is adapted to store instructions that are available for reading and execution of the processor unit 4. The carrier 8 may be any of a wide variety of different types of machine-readable data carriers. For example, the carrier 8 may be implemented as one or more blocks of the storage device with proizvolnym access one or more blocks of persistent storage devices, magnetic disks, optical disks, magnetic tapes, blocks, flash memory or other types of media data. It should be understood that the term "storage medium" refers to the set of one or more blocks of data carriers or one or more types of media data. For example, some data in the media 8 data can be physically stored on a magnetic tape, and some data in the media 8 data can be physically stored on a magnetic disk. In the example of figure 1, computing device 2 includes a communication line 10, which allows the processor unit 4 contact interface 12 of the input device and the interface 14 of the output devices. Line 10 may be many different types of communication lines, including the control bus communication line HyperTransport interconnect Intel QuickPath Interconnect, bus high-speed graphics port, line, computer network (e.g., one or more communication lines, Ethernet, fiber-optic communication lines and so on), the line connection PCI or other type of communication lines. The interface 10 of the input device enables the transfer from the input device 16. The interface 14 of the output device communicates with the device 18 o, which is adapted to output information in a real environment. The interface 12 and input devices and terveys 14 output devices can be implemented in a variety of ways. For example, the interface 12 of the input devices and/or interface 14 output devices can be implemented as interface card, Universal serial bus (USB)card serial bus, a network interface (such as Ethernet card, the WiFi adapter, the adapter WiMax etc) or another type of interface physical input devices. In some cases, the functionality of the interface 10 of the input devices and the functionality of the interface 12 output devices can be implemented on the same physical Board. The device 16 input may be any of a wide variety of different types of devices. For example, the device 16 input may be a mouse, trackball, touch screen, keyboard, keyboards field, or another type of input device. The device 18 can be any of a wide variety of different types of devices. For example, the device 18 can be a block of visual images, such as screen-based cathode-ray tube, the screen of the liquid crystal display (LCD), light-emitting diode (LED) matrix, plasma screen or other type of device that is able to display the information in a real environment. The processing unit 4 can provide information on the device 18 conclusion in different ways. For example, the processing unit 4 and the interface 14 of the output devices can be connected with sistemele computing device 2. In this example, digital videointerface cable, or another type of physical connection of the video cable, you may connect the interface 14 and output device device 18 output. In this example, the processing unit 4 may send instructions to the image interface 14 output devices, and the interface 14 of the output devices can send signals to the device 18 o to display the image. In another example, the processing unit 4 can provide information on the device 18 o, passing information over the network to a computing device that instructs the device 18 to display the image based on the transmitted information. Media 8 data stores the file 20 presentation, which is an electronic presentation. File 20 presentation includes at least one data set partition. Each set of data section in the file 20 presentation identifies the partition. A partition is a logical unit of electronic presentation, which has at least one property having a user-defined value, which is associated with zero or more consistent or inconsistent presentation slides. Each dataset section identifies a set of slides associated with the section, and a user-defined value of a property is the group, other than a set of slides included in the section. As discussed below, the property section can be many different properties, and set the data section may include several user-defined property values section. For example, the first set of section data may contain data, which directly represent the six slides in the first section, and may contain data that indicate that the name of the first section "Section 1." Further, in this example, the second set of section data in the file 20 presentations may contain data, which directly represent four of the slide, and may contain data that indicate that the name of the second section "Section 2." In this example, the first section may include slides 1, 3, 5, 6, 7, and 9, and the second section may include slides 2, 4, 8, and 10. File 20 presentation may include a wide variety of different types of data structures that embody the datasets section. For example, the file 20 presentation may include a data structure on the extensible markup language (XML) for each data set partition. In another example, the file 20 presentations may include patterns of binary data that represent each data set partition. In another example, the file 20 presentation may include a set of section data that identify the coziness of the first set of slides and identify the information, which set user-defined property value of the first section, through a set of links to the third set of section data contained in the second presentation file. In this example, the third set of data section identifies the first set of slides and identifies data that specify a user-defined value of a property of the first partition, through the contained data, which directly represent the first set of slides, and through the contained data, which directly represent the user-defined property value of the first presentation. In addition to the file 20 presentations, media 8 data stores the application 22 of the presentation. Annex 22 of the presentation may be similar in some respects to the application of the presentation, such as the program's graphical presentations Microsoft POWERPOINT®, sold by Microsoft Corporation, Redmond, Washington, software presentation slide KEYNOTE®sold by Apple Corporation, Cupertino, California, software presentation slides OpenOffice Impress, provided OpenOffice.org and presentation application slide GOOGLE APPS®, provided by Google, Inc., Mountain View, Calif. In one exemplary implementation, the application 22 of the presentation contains a set of instructions, executable by the processor unit 4. When the user 24 wants is to saintantoine with electronic presentation represented by file 20 of the presentation, the user 24 can use the device 16 is input to instruct the computing device 2 to start the execution application 22 of the presentation. For example, the user 24 may instruct the computing device 2 to start the execution application 22 presentation by using the mouse to select icons displayed on the device 18 o, which represents the application 22 of the presentation. In another example, the user 24 may instruct the computing device 2 to start the execution application 22 presentation by using the keyboard to select the icon representing the file 20 presentations. When the processing unit 4 starts to execute instructions of the application 22 of the presentation, the instructions instruct the processor unit 4 to access the file 20 presentations. After accessing the file 20 presentations, instructions, application 22 presentation instruct the processor unit 4 to form a graphical interface 26 in the carrier 8 data. When the processing unit 4 produces a graphical interface 26, the processing unit 4 uses the values of the sections of the presentation. Graphical interface 26, display device 18 output allows the user 24 inter activate with electronic presentation which includes the slides in each of the sections defined by the sets of section data included in the file 20 presentations. After the instructions the processor unit 4 to form a graphical interface 26, the instructions application 22 presentation instruct the processor unit 4 to display a graphic interface 26 on the device 18 and output. Figure 2 depicts a first exemplary operation, which instructions application 22 presentations can instruct the processor unit 4 computing device 2. When the processing unit 4 starts to execute instructions of the application 22 of the presentation, the instructions instruct the processor unit 4 to access the file 20 (step 40). In other words, the instructions instruct the processor unit 4 to extract the file 20 presentations partially or completely from the carrier 8 data. As described above, the file 20 presentation contains at least one data set partition. Each dataset section identifies a set of zero or more segments included in the section, and a user-defined property value section other than a set of slides included in the section. For example, the file 20 presentations may contain: (i) the first set of section data that define the first partition, and the first set of section data identifies the first set of slides and identificare the t data, which set user-defined property value of the first partition is different from the first set of slides, and (ii) a second set of section data that define the second section, and a second set of section data identifies a second set of slides and identifies data that specify a user-defined value of a property of the second section different from the second set of slides. After the instructions of the application 22 of the presentation prescribed by the processor unit 4 to access the file 20 presentations, instructions, application 22 presentation instruct the processor unit 4 to form a graphical interface 26 using at least one user-defined property value of one of the sections (step 42). Continuing the example in the previous paragraph, instructions, application 22 presentations can instruct the processor unit 4 to form a graphical interface 26 using the value property of the first partition and the property value of the second section. After the processing unit 4 generates a graphical interface 26, the instruction file 22 presentation will instruct the processor unit 4 to display a graphic interface 26 on the device 18 output (step 44). As mentioned above, the graphical interface 26 is adapted to provide the user 24 to vozmozhnostuvelichivat presentation, which includes slides the sections contained in the file 20 presentations. Accordingly, when the device 18 output displays a graphical interface 26, the instructions application 22 presentations provide the processor unit 4 is able to accept input associated with the property section in the presentation (step 46). For example, instructions of the application 22 of the presentation can provide the processor unit 4 is able to accept input in the form of mouse movements and mouse clicks. In response to the input instruction application 22 presentation instruct the processor unit 4 to perform an action, using the property section (step 48). Instructions application 22 presentations can instruct the processor unit 4 to form a graphical interface 26 a wide variety of ways, thus providing a large variety of possible ways in which the user 24 can interact with the presentation. In addition, since the instructions in the application 22 of the presentation can instruct the processor unit 4 to form a graphical interface 26 a wide variety of ways, the processing unit 4 can accept a large variety of inputs on the stage 46 and can perform a large variety of actions in response to these inputs at stage 48. Some of the potential methods of forming the GUI 26 to provide to the specific types of interaction described with reference to figure 3-8. In the first example, the file 20 presentation includes data sets of the partition that contain the user-defined property values of the header sections of the presentation. According to figure 3, instructions application 22 presentation instruct the processor unit 4 to form a graphical interface 26 so that the graphical user interface 26 includes base panel 70 and the navigation panel 72. The main panel contains the editable slide 76 in the presentation. The navigation panel 72 includes a sequence of thumbnail images 78A-78D (collectively, "thumbnail 78") slides in the presentation. In addition to the reduced images 78, navigation bar 72 includes property values 80A-80C header (collectively, "headers 80") sections in the presentation. Thumbnail images of the slides within the section shown below property value header section. For example, in the example in figure 3 reduced image 78A and 78B shown below header "Electrical Properties", indicating that the slides presented reduced images 78A and 78B are located within a section with the header property "Electrical Properties." Similarly, the reduced image 78C and 78D shown below header "Ohm's Law", indicating that the slides presented reduced images 78C 78D, within the section with the header properties "Ohm's Law". Illustrative interface figure 3 also depicts that the first section can be a subordinate partition of the second partition. When the first section is a subsidiary section of the second section, all of the slides in the first section are the slides in the second section, but all the slides in the second section are not necessarily the slides in the first section. In the example in section 3, with the header property "Ohm's Law", is the child under section having a header property "Electrical Properties." The fact that the section with the header property "Ohm's Law", is the child under section having a header property "Electrical Properties", demonstrated visually by means of indentation header "Ohm's Law" on the title "Electrical Properties" and indent thumbnail images of the slides in the section with the header property "Ohm's Law" relative to the slides in the section with the header property "Electrical Properties. Illustrative interface figure 3 also includes icons 82A and 82B hide (collectively, "icon 82 hide"). When the graphical interface 26 is displayed on the device 18 o, the user 24 can use the device 14 input to select one of the icons 82 hide. When the user 24 selects the icon 82A hide, the processing unit 4 receives the input of the hidden partition, which indicates that the user 24 wishes to hide thumbnail images of the slides in the section with the header property "Electrical Properties." Note that in the example in figure 3 slides in the section with the header property "Electrical Properties", include all the slides in the section with the header property "Ohm's Law", and all of the slides in the section having the title properties "Capacity". In response to the input of the hidden partition, the instructions application 22 presentation instruct the processor unit 4 to update the graphical interface 26 so that the GUI 26 did not include any thumbnail images of the slides in the section with the header property "Electrical Properties" (i.e., reduced images 78A, B, 78C and 78D). Instructions application 22 presentations can also instruct the processor unit 4 to update the graphical interface 26 so that the graphical interface 26 is not included headers are no sections that are children of the sections having a header property "Electrical Properties" (i.e., "Capacity" and "Ohm's Law"). Instructions application 22 presentation also instruct the processor unit 4 to display the updated graphical interface on the device 18 and output. Illustrative inter is as figure 3 also includes an icon 84 deployment. Instructions application 22 presentations can instruct the processor unit 4 to display the icon deploy the title of the section in which the reduced image of the slides in the section is hidden. When the user 24 selects the icon 84 deployment, the processing unit 4 receives the input of the deployment section, which indicates that the user 24 wishes to expand thumbnail images of the slides in the section with the header property "Capacity". In response to the input of the deployment section for instructions application 22 presentation instruct the processor unit 4 to update the graphical interface 26 so that the graphical user interface 26 includes thumbnail images of the slides in the section with the heading "Capacity". Instructions application 22 presentation then instruct the processor unit 4 to display the updated graphical interface on the device 18 and output. Illustrative interface figure 3 also includes the area 86 AutoUpdate within the slide 76. Region 86 AutoUpdate contains the property value of the header section, which belongs to the slide 76. In the example in figure 3, the slide 76 belongs to the section with the title "Ohm's Law". When the user 24 selects the value of this property changes the title of the section belongs to the slide 76, the processing unit 4 receives woodslane header, which indicates a new title for the section. In response to receiving input to change the title, instructions, application, presentation, instruct the processor unit 4 to update the value of the property the title to be displayed in region 86 auto-refresh. It should be understood that other areas of the auto-update can contain values of other properties of the sections. For example, the area of auto-update in the slide section can contain the name specified by the property "author" section. In this case, if the user 24 has chosen to change the value of the property "author" section, instructions application 22 presentation instruct the processor unit 4 automatically update the name contained in the field of automatic updates. Illustrative interface figure 3 also includes a link 88. During the presentation, the user 24 may select the link 88 to move to the first in order to slide under the presentation referenced by the link 88. In the example in figure 3 the choice of link 88 may prescribe the processor unit 4 to display the first slide in the section entitled "Capacity". The user 24 can use the approximate interface 3 to communicate with the presentation of additional ways. For example, the user 24 can use the device 14 enter to select the partition by selecting the header (for example, title 80C section in the navigation pane 72. When the user 24 of the selected one of the header 80, the processing unit 4 receives the input selection section, which indicates that the user 24 has chosen the section associated with the selected one of the header 80. In response to the input selection section, instructions application 22 presentation instruct the processor unit 4 to update the graphical interface 26 so that the thumbnail images of the slides in the selected section is visually different from the reduced images of the slides in unselected sections. For example, thumbnail images of the slides in the selected section can visually different from the thumbnail images of the slides in unselected sections thicker border around thumbnail images of the slides in the selected section. When the user selected section 24, the processing unit 4 can accept input copy command from the user 24 and may subsequently accept input commands insert from the user 24. In response to the input commands insert instructions application 22 presentations can instruct the processor unit 4 to copy the data presentations that define the selected section, in the location specified by entering the command insert. For example, when the command input insertion points to the location in the second presentation, the instructions when is ogene 22 presentations can instruct the processor unit 4 to copy a set of presentation data, which define the selected section to a location in the second presentation. In the second presentation includes the selected topic, including data that identifies the slides in the selected section, and the property values of the selected partition. Enter the copy command can be implemented in the form of pressing by the user 24 in the header section of the presentation, and enter the paste command can be carried out by the movement of the user 24 section header to the location and premises of the section header at the location where the section should be added. Figure 4 depicts a second exemplary variant of the graphical interface 26, formed by the processing unit 4 for printing the slides in the presentation. In the example in figure 4 graphical interface 26 is a print dialog box. Instructions application 22 presentations can instruct the processor unit 4 to display a graphic interface 26 in response to user input 24, which indicates that the user 24 wishes to print the slides in your presentation. As shown in the example in figure 4, the graphical user interface 26 includes a drop-down box 100 Printer that allows the user 24 to select the printer, you can print the slides in your presentation. In addition, as shown in the example in figure 4, the graphical user interface 26 includes fall is its field 102 "Sections of the press." The user 24 can interact with the drop-down box 102 "Sections of the press", to indicate that the user 24 wishes to print the slides in all sections of the presentation or the user 24 wishes to print the slides only in the selected section of the presentation. When the user 24 communicates with a dropdown field 102 "Sections of the print processing unit 4 can accept input selection section that specifies one or more sections as the selected partitions. In addition, as shown in the example in figure 4, the graphical user interface 26 includes a button 104 "OK". When the user 24 using the device 14 enter to select the button 104 "OK", the processing unit 4 instructs the printing device specified by drop-down field 100 "Printer"to print the slides in the selected sections. Figure 5 depicts a third exemplary variant of the graphical interface 26, formed by the processing unit 4, which allows the user 24 to select the sections to display when you view the presentation. As shown in the example in figure 5, a graphical interface 26 is a dialog window select the partition. Instructions application 22 presentations can instruct the processor unit 4 to display a graphic interface 26 in response to user input 24, which indicates that the user 24 wishes to choose the sections is resently, which will be displayed when you view the presentation. In the example in figure 5 graphical interface 26 includes a list of 110 property values of the header sections in the presentation. In addition, the graphical user interface 26 includes a flag button 112A-112C (collectively, "flags 112") next to each of the property values of the header sections in the presentation. Check one of the check boxes 112 next to the property value of the heading indicates that the property section specifies that the slides section should be included in the presentation. In the example in figure 5 there is a check mark in the check boxes 112A and 112B, indicating that the slides in the section titled "Electrical Properties" and slides in the section titled "Ohm's Law" should be included in the presentation and the slides in the section titled "Capacity" are not included in the presentation. The user 24 can use the device 14 enter to add or remove checkmarks in the check boxes 112. When the user 24 adds a tick in one of the check boxes 112, the processing unit 4 receives the input selection section, which indicates that the user 24 wants the slides in the section associated with one of the check boxes 112, were included in the presentation. In response to the input selection section, the processing unit 4 changes the value of the properties selection of gift the AI, to indicate that the slides section should be included in the presentation. Next, the processing unit 4 may receive an input that indicates that the user 24 wishes to submit a presentation. In response to this input instructions application 22 presentations can instruct the processor unit 4 to use the value property of the selected section to determine whether to display the slides of the selected partition. Subsequently, instructions application 22 presentations can instruct the processor unit 4 to generate a graphical user interface presentation that includes slides of the selected section, when it is determined that the value of the properties of the selected section indicates that the slides of the selected section must be shown during the presentation. Instructions application 22 of the presentation can then instruct the processor unit 4 to display a graphical user interface presentation on the device 18 output. Thus, the sections can be skipped in a transparent manner during the presentation. 6 depicts a fourth exemplary variant of the graphical interface 26, formed by the processing unit 4 presentation. As shown in example 6, a graphical interface 26 includes a slide 76 (figure 3). In addition, the graphical interface is 26 shows the pointer 130, managed user 24 using the input device 14. The user 24 can use the device 14 input to indicate that the user 24 wants to go to some other section of the presentation. For example, the user 24 can click the right mouse button of the input device 14. When the user 24 indicates that the user 24 wishes to move to another section of the presentation, the processing unit 4 updates the graphical interface 26 so that the graphical user interface 26 includes menu 132, which lists the values of the properties of the header sections of the presentation. The user 24 may then place the pointer 130 to indicate that the user 24 wants to jump to a particular section of the presentation. When the user 24 indicates that the user 24 wishes to move to a selected section of the presentation, the processing unit 4 receives the input selection section, which indicates that the user 24 wishes to the output device 18 displays the first slide in the selected section. In response to the input selection section, instructions application 22 presentations can instruct the processor unit 4 to update the graphical interface 26 so that the graphical user interface 26 includes a first image in the sequence of the slides in the selected section, and prescribe the processor unit 4 display is to press new graphical user interface on the device 18 and output. 7 depicts a fifth exemplary variant of the graphical interface 26, formed the processor unit 4 to set the properties of the data access control section of the presentation. In the example in Fig.7. a graphical user interface 26 allows the user 24 to select the access control data for the section with the title "Ohm's Law". More specifically, graphical user interface 26 includes a drop-down box 150 users, which allows the user 24 to select another user. For example, in the example of Fig.7, the user 24 may select a user by the name "Hillary", "John", "David" or “Trevor". In addition, the graphical user interface 26 includes a list of rights 152. In the example in Fig.7. the list of rights 152 includes the right to view the slides in the section titled "Ohm's Law" and the right to edit the slides in the section titled "Ohm's Law." In addition, the graphical user interface 26 includes a check box 154A and the box 154B. A check mark in the check box 154A indicates that the property section with the title "Ohm's Law" has a value that specifies that the user selected in the drop-down box 150 users, has the right to view the slides in the section titled "Ohm's Law." A check mark in the check box 154B indicates that the property section with the title "Ohm's Law" has a value that specifies that the user selected in the drop-down box 150 "uses the users", has the right to edit the slides in the section titled "Ohm's Law". The user 24 can override the values of these properties by clicking on the check box 154A and/or the box 154B. It should be noted that the values of these properties for a single user can have different sections of the presentation. For example, the value of the property of the first partition is the first set of data access control, which indicate that the user has the right to perform an action relative to the first section, and the property value of the second section is a second set of data access control, which indicate that the user does not have the right to perform this action relative to the second section. Subsequently, the processing unit 4 may receive a request from a user to perform an action (for example, to view or edit the slide) relative to the section in the presentation. In response to receiving a request from a user to perform an action with respect to section presentations, instructions, application 22 presentations can instruct the processor unit 4 to use these properties section to determine whether the user is authorized to perform this action on this topic. If the user has the right to perform this action with respect to this section, the instructions when is ogene 22 presentation instruct the processor unit 4 to perform this action. If the user does not have rights to perform this action on this section, instructions application 22 presentation instruct the processor unit 4 to reject the request to perform the action. Fig depicts a sixth exemplary variant of the graphical interface 26, formed the processor unit 4 to sort the slides. As shown in the example on Fig, graphical interface 26 includes a panel 170A, 170V, 170C and 170D header (collectively, the "panel 170"header). Panel 170 header include the values of the properties of the header sections in the presentation. In the example on Fig panel 170A header indicates that "Introduction" is the value of the caption property of the first section of the presentation, the panel 170B header indicates that the "Report of sales in the second quarter" is the value of the caption property of the second section of the presentation, the panel 170C header specifies that "the Prospects for sales in the third quarter" is the value of the caption property of the third section of the presentation, and the panel 170D header indicates that "the Prospects of spending in the third quarter" is the value of the caption property of the fourth section of the presentation. Panel 170 header also indicates how many slides is in each section of the presentation. Panel 170 titles include icons 172A, B, 172C and 172-Oh (collectively, "its the s 172"), which allow the user 24 to hide or show the thumbnail images of the slides. In the example on Fig graphical interface 26 includes a set of thumbnail images 174A lower panel 170A header that includes thumbnail images in the first section of the presentation. In addition, in the example Fig graphical interface 26 includes a set of thumbnail images 174B below the line 170C header that includes thumbnail images in the third section of the presentation. The user 24 can hide thumbnails 174A through choosing 172A and can hide thumbnails 174B by choosing 172C. The user 24 can expand the set of thumbnail images of the slides in the second section of the presentation by choosing 172B. Since the fourth section of the presentation does not include any slides, graphical interface 24 does not display any thumbnail below line 170D header. The user 24 can use this option graphical interface 24 in order to arrange the slides in your presentation into sections. For example, the user 24 can use the device 14 input to select one of the thumbnail images 174A. The user 24 can then drag the selected thumbnail image of the slide in terms of the ü graphical interface 26 under one of the panels 170 header. When the user 24 will drag a thumbnail image of the slide in the region of the graphical interface 26 under one of the panels 170 header, the slide is removed from the first section and will be added to the section of the presentation associated with the said panel header. For example, the user 24 drag the selected thumbnail image of the slide in the region of the graphical interface 26 under the panel 170D header, while the slide is removed from the first section and added in the fourth section. The user 24 can interact with the presentation of a number of ways by selecting panels 170 header. For example, by a selection panel 170 of title 24 user can change the property values of the header sections of the presentation. In another case, by selecting panels 170 header, the user 24 can add a set of keywords that help search engines identify a section within the presentation. In each of these cases, when the user 24 selects one of the panels 170 header, the processing unit 4 receives the input, and instructions application 22 presentation instruct the processor unit 4 to perform an action in response. Fig.9 depicts an illustrative system 190, in which multiple computing devices 192 and 194 simultaneously access the file 196 presentations, been preserved and media 198 data available via the network 200. The system 190 file 196 presentation may include a first set of section data that defines a first section and a second set of section data that defines the second section. Because the first set of section data and the second set of section data logically excellent within the file 196 presentation, the user computing device 192 can edit the slides in the first section of the presentation at the same time, when the user computing device 194 editing slides in the second section of the presentation. This may allow these users to work on the presentation of the joint method. It should be understood that embodiments of described herein may be implemented through hardware, software, programmable hardware (firmware, middleware, microcode, or any combinations thereof. When systems and/or methods implemented in software, programmable hardware, middleware or microcode, program code or code segments, they can be stored in a machine-readable data carrier, such as a storage component. The code segment may represent a procedure, function, program, routine, subroutine which, module, software package, class, or any combination of instructions, data structures, or program statements. The code segment can be associated with another code segment or a hardware circuit by sending and/or receiving information, data, arguments, parameters, or memory contents. Information, arguments, parameters, data, etc. can be received, sent or transmitted using any suitable means, including shared memory, message passing, token passing, network transmission, etc. In addition, it should be understood that computing device 2 may have additional features or functionality. For example, computing device 2 may also include additional data storage devices (removable and/or replaceable) such as, for example, magnetic disks, optical disks, or tape. The computer-readable storage media may include volatile and nonvolatile, removable and non-removable media, made by any method or technology for storage of information such as computer readable instructions, data structures, program modules or other data. For implementation in software, the techniques described herein may be implemented with modules (e.g., procedures, functions, and so on)that are done which are functions as described here. Software codes and instructions can be stored in a machine-readable storage media and executed by processors. The memory unit may be implemented within the processor or outwardly relative to the processor, and in this case he can be communicative connected with the processor via various means known from the prior art. These technologies can be implemented in several ways. For example, these technologies can be conceptualized as a way of organizing electronic slides presentation slides. The method contains the steps that access the computing device to the presentation file stored in a machine-readable data carrier, and the presentation file contains: (i) the first set of section data that defines the first section, and the first set of section data identifies the first set of slides and identifies data that specify a user-defined value of a property of the first partition, different from the first set of slides, and (ii) a second set of section data that defines the second section, and a second set of section data identifies a second set of slides and identifies data that specify a user-defined property value the second section different from the second set of slides. The method also includes forms is of the computing device, a graphical interface using the value property of the first partition and the property value of the second partition, and a graphical interface allows the user to interact with electronic presentation that includes slides in the first set of slides, and slides in the second set of slides. In addition, the method comprises a stage on which to display the graphical interface on the output device. In another example, the technology according to this disclosure can be implemented as a computing device comprising a processor unit that is adapted to execute instructions, the output device and the memory device. The storage device contains a presentation file stored in a machine-readable data carrier, and the presentation file contains: (i) the first set of section data that defines the first section, and the first set of section data identifies the first set of slides and identifies data that specify a user-defined value of a property of the first partition, different from the first set of slides, and (ii) a second set of section data that defines the second section, and a second set of section data identifies a second set of slides and identifies data that specify a user-defined value of a property of the second section different from the second set of slides. Casinocity storage medium also includes instructions, which, when performed by the processor unit, instruct the processor unit to access the presentation file; generate a graphical interface, using the value property of the first partition and the property value of the second partition, and a graphical interface allows the user to interact with electronic presentation that includes slides in the first set of slides, and slides in the second set of slides; and to display the graphical interface on the output device. In another example, the technology according to this disclosure can be implemented as machine-readable data carrier containing the presentation file stored in a machine-readable data carrier, and the presentation file contains: (i) the first set of section data that defines the first section, and the first set of section data identifies the first set of slides and identifies data that specify the title of the first section, and identifies data that specify a user-defined value of a property of the first partition, which is the first set of data access control, which specify that the user is authorized to perform an action relative to the first section, and (ii the second set of section data that defines the second section, and a second set of data partition identifitsiruemost slide set, identifies data that specify the title of the second section, and identifies data that specify a user-defined value of a property of the second section, which represents the second set of data access control, which specify that the user does not have rights to perform the action relative to the second section. The computer-readable storage medium also includes instructions that, when performed by the processor unit instruct the processor unit to access the presentation file. The instructions also instruct the processor unit to form a graphical interface, which displays the title of the first section and the title of the second section. In addition, the instructions instruct the processor unit to receive a request from a user to perform the mentioned actions relative to the first section. The instructions also instruct the processor unit, in response to receiving a request from a user to perform the mentioned actions relative to the first section, determine that the second set of data access control indicates that the user does not have rights to perform the mentioned actions relative to the second section; and to perform this action relative to the first section. In addition, the instructions instruct the processor unit to receive a request from the floor is the user to perform the mentioned actions relative to the second section. Moreover, the instructions instruct the processor unit, in response to receiving a request from a user to perform the mentioned actions relative to the second section, determine that the second set of data access control indicates that the user does not have rights to perform this action on a second partition and to reject the request to perform the mentioned actions relative to the second section. Although the invention has been described in language characteristic structural features and/or methodological acts, it should be understood that the scope of the invention defined in the appended claims is not necessarily limited to such specific features or actions described above. Rather, the specific features or actions described above are disclosed as illustrative forms of implementing the claims. 1. The way of organizing electronic slides of the presentation slide containing the steps are: 2. The method according to claim 1, wherein the first set of slides does not include any slides. 3. The method according to claim 1, in which the value of the property of the second section is the title of the second section; 4. The method according to claim 1, in which the value of the property of the first partition is the title of the first section, 5. The method according to claim 4, in which the first set of section data and a second set of section data form at the computing device a graphical interface to graphical user interface additionally includes a thumbnail image of the slide in the first section; 6. The method according to claim 4, in which when forming the graphical interface advanced form of computing device, a graphical interface to graphical user interface additionally includes a thumbnail image of the slide in the first section, and a thumbnail image of the slide in the second section; 7. The method according to claim 6, further comprising stages, which are: 8. The method according to claim 7, in which the location specified by entering the commands insert, is the second electronic presentation. 9. The method according to claim 1, in which the value of the property of the first partition is the first set of data access control, which specifies that the user is authorized to perform an action relative to the first section; 10. The method according to claim 9 in which the said action selected from the action group, which consists of a slide view and edit slides. 11. The method according to claim 1, in which the user is the first user; 12. The method according to claim 1, the soda is relevant stages, which 13. The method according to claim 1, wherein the presentation file is the first file of the presentation; 14. The method according to claim 1, wherein the user-defined value of a property of the first partition specifies whether the first set of slides to be shown during the presentation electronic presentation; 15. The method according to claim 1, wherein the first section is a subsidiary section of the second section. 16. The method according to claim 1, wherein the computing device comprises: 17. The computing device (2), containing: 18. The device according to 17, in which the value of the property of the first partition is the first set of data access control, which specifies that the user has the right to perform the action is otnositelno the first partition; 19. Machine-readable medium (8) data containing: 20. Machine-readable data carrier according to claim 19,
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