System of wireless communication, device of wireless communication, method of wireless communication and program

FIELD: information technologies.

SUBSTANCE: in wireless communication device there is the first unit of communication for contactless communication with other device of wireless communication and reception of set data from other device of wireless communication, the second unit of communication, to establish wireless connection with other device of wireless communication, control unit - to set wireless connection between the second unit of communication and other device of wireless communication with application of set data received by the first unit of communication, and unit of data processing, to save set data before wireless connection is broken, within a specified period of time.

EFFECT: simplified process of establishment of repeated connection between wireless devices.

7 cl, 15 dwg

 

The technical field to which the invention relates.

The present invention relates to a wireless communication system, wireless communication method, wireless communication and the program.

The level of technology

Recently, there was proposed a method of non-contact communication, which uses the terminal equipped with the contactless integrated circuit (1C, IP), and block read/write, which performs reading and writing data from and in a contactless chip that is installed in the terminal. In accordance with this method contactless communication when the terminal is located, is equipped with a contactless integrated circuit, and block read/write in close proximity to each other allows data transfer between devices.

In addition, also became widespread wireless technology, such as wireless local area network (LAN LAN), Bluetooth (registered trademark), etc. In accordance with these wireless technologies, information can be transferred and adopted between multiple wireless devices without connecting a variety of communication devices using wires.

On the other hand, to establish a wireless connection between each of the multiple wireless communications devices you need to enter the us is anouki, such as the address of the wireless network, the address information of the wireless communication devices-communication partner, etc. in each wireless communication device. If this is difficult for a user to enter data manually, as they are, and thus, a technology for simplifying the input operation data installation.

For example, in Patent document 1 is disclosed a method of processing information comprising the sharing setup information necessary for wireless connection between a mobile phone and a personal computer (PC, PC), through the use of contactless communication between a mobile phone and a personal computer, and establishing a wireless connection between a mobile phone and a personal computer-based data install shared in a contactless connection.

[Patent document 1] JP-A-2002-204239

The invention

[Problem to be solved by the invention]

However, in the conventional information processing, when the user wants to re-establish a wireless connection between the wireless communication device after disconnection of the wireless connection between the wireless communications devices, for example, as a result of interruption, the user must provide contactless communication between the corresponding device is Tami wireless communication by retrying the operation of accommodation in the immediate vicinity, consisting in placing the respective wireless communications devices in close proximity to each other, and distribution of data between the respective wireless communications devices. Thus, in the conventional method of processing information, the user is forced to perform the operation of placing in close proximity to each time you want to re-install the wireless connection between the respective wireless communications devices, and, thus, there is a problem consisting in inconvenience for the user.

Thus, the present invention has been developed taking into account the problems described above, and the purpose of the present invention is to provide a wireless communication system, wireless communication method for wireless communication, and a program which are novel and improved, and will just re-install the wireless connection between the wireless communications devices.

[Means of solving problems]

To solve the problems described above, in accordance with an aspect of the present invention provides a wireless communications system comprising a first wireless communication device and the second wireless device. More specifically, the first wireless communication device includes a unit without contact from the IDE, which transmits data necessary for the wireless connection between the first wireless device and the second wireless device, the second wireless communication device using the method of non-contact communication. In addition, the second wireless communication device includes a first communication unit that receives data transmitted from the first wireless device using the method of non-contact communication, the second communication unit, which is configured to establish a wireless connection with the first wireless device, a control unit that establishes wireless communication between the second communication unit and the first wireless communication device using the data install, adopted by the first communication unit, and a data processing unit in which data remain on the recording medium before the disconnection of the wireless connection, in which the control unit uses these settings stored on the recording media while re-establishing the wireless connection between the second communication unit and the first wireless device.

In addition, to solve the problems described above, in accordance with another aspect of the present invention, an apparatus for wireless communication, comprising first the POC communication which performs contactless communication with another wireless communication device and which receives the specified data from the other wireless communication devices, the second communication unit, which is configured to establish a wireless connection with another wireless communication device, a control unit which establishes a wireless connection between the second communication unit and the other wireless communication device, using the data of the setup required for wireless connection, adopted by the first communication unit, and a data processing unit in which data remain on the recording medium before the disconnection of the wireless connection, in which the control unit uses the data stored on the recording medium, during the re-establishment of the wireless connection between the second communication unit and the other wireless device.

When using this configuration, the data processing unit stores in the storage medium data, necessary for wireless connection between the wireless device and another wireless communication device, and when there is a need for re-connection after disconnection of the wireless connection between the wireless device and another wireless communication device, the control unit is re-establishes a wireless connection between the wireless device and another wireless communication device, using data stored on the recording media. Accordingly, in accordance with the wireless communication device, wireless communication and other wireless communication device can be automatically re-connected without requiring a user of the wireless device operations such as operation data installation and operation of accommodation in the immediate vicinity of the wireless device and another wireless device.

The wireless device and another wireless communication device may have information group, providing the ability to identify the group to which each belongs, and the data processing unit may set the retention period of the data installed on the recording media variables, depending on whether each other or not information of the group of wireless communication devices and information of the group other wireless communication devices. Here, the retention period of the data installed on the recording medium corresponds to the period during which it can be re-installed wireless connection between the wireless device and another wireless communication device using the data setup. Accordingly, in this configuration, the period to the who repeated a wireless connection can be established between the wireless device and another wireless communication device, using these settings, can be made variable depending on whether each other or not information of the group of wireless communication devices and information of the group other wireless communication devices.

The data processing unit may make the retention period for data on the recording medium is longer in the case where information of the group of wireless communication devices and information of the group other wireless communication devices correspond to each other, unlike the case when the information group of communication devices and information of the group other wireless communication devices differ from each other. With this configuration, when information of the group of wireless communication devices and information of the group other wireless communication devices correspond to each other, the period during which repeated the wireless connection can be established between the wireless device and another wireless communication device using the data of the installation can be made longer than when the information group of wireless communication devices and information of the group other wireless communication devices differ from each other.

In addition, the wireless communication device additionally includes a block of input power, the power which is served from asnago source, and the block end connection that disconnects the wireless connection between the second communication unit and the other wireless communication device, in which separation of the connection does not need to disconnect the wireless connection while the power is fed through the unit input power. In this configuration, the block end connection disconnects the wireless connection with the reduction of energy consumed during the wireless connection between the second communication unit and another device for wireless communication, the effective use of the battery. Accordingly, when power is supplied from an external source through the power of the input power, reduces the need for efficient use of the battery, and thus, block the end of the connection does not divide a wireless connection, and thus can be eliminated, the process is repeated a wireless connection.

In addition, to solve the problems described above, in accordance with another aspect of the present invention, the proposed program for the computer as the wireless device includes a first communication unit that performs contactless communication with another wireless communication device and which receives the specified data from another wireless device with the connection, a second communication unit that is configured to establish a wireless connection with another wireless communication device, a control unit which establishes a wireless connection between the second communication unit and the other wireless communication device, using the data of the setup required for wireless connection, take the first communication unit, and a data processing unit that stores data on the recording medium prior to the disconnection of the wireless connection, in which the control unit uses the data stored on the recording media, while re-establishing the wireless connection between the second communication unit and the other wireless device.

Such a program may, for example, to ensure that the hardware resources of the computer which includes a CPU, ROM, RAM or the like, the functions of the control unit, data processing unit and the like, as described above. That is, it is possible to operate the computer in which the program is used as the above-described wireless communication devices.

In addition, to solve the problems described above, in accordance with another aspect of the present invention, a method of wireless communication, comprising the steps of performing contactless communication with another wireless device SV is zi and receiving predetermined data from the other wireless communication devices, establishing a wireless connection with another wireless communication device using the data setup, save setup information on the recording medium before the disconnection of the wireless connection, disconnection of the wireless connection and re-establish the wireless connection with another wireless communication device using data stored on the recording media.

[Effect of the invention]

As explained above, in accordance with the wireless communication system, wireless communication method, wireless communication program in accordance with the present invention it is possible to simply re-install the wireless connection between the wireless communications devices.

Brief description of drawings

On figa shows an explanatory diagram representing an example of the overall configuration of a wireless communication system in accordance with a variant embodiment of the present invention.

On FIGU shows an explanatory diagram representing an example of the overall configuration of a wireless communication system in accordance with a variant embodiment of the present invention.

Figure 2 shows a functional block diagram showing the main configuration of a personal computer and a portable device in accordance with a variant embodiment of the present invention.

the and 3 shows a diagram of a sequence of operations, representing the processing flow of a method of wireless communication performed by the wireless communication system, in accordance with a variant embodiment of the present invention.

Figure 4 shows a block diagram representing a hardware configuration of the portable device, in accordance with the first variant embodiment of the present invention.

Figure 5 shows a functional block diagram representing a configuration of a personal computer and a portable device in accordance with this alternative embodiment.

Figure 6 shows an explanatory diagram representing a concrete example of installation data.

On figa shows an explanatory diagram representing a processing flow of a method of wireless communication performed by the portable device, in accordance with this alternative embodiment.

On FIGU shows an explanatory diagram representing a processing flow of a method of wireless communication performed by the portable device, in accordance with this alternative embodiment.

On figs shows an explanatory diagram representing a processing flow of a method of wireless communication performed by a portable device in accordance with this alternative embodiment.

On Fig shows the block diagram of the sequence of operations, representing the flow of processing of the way up the ne connection, running portable device, in accordance with this alternative embodiment.

Figure 9 shows a functional block diagram representing a configuration of a personal computer and a portable device in accordance with a second alternative embodiment of the present invention.

Figure 10 shows an explanatory diagram representing an example of data stored in the block storage device.

Figure 11 shows an explanatory diagram representing an example of a retention period for data in the accumulator.

On Fig shows the block diagram of the sequence of operations, representing the flow of processing methods for wireless communication performed by the portable device, in accordance with this alternative embodiment.

[Explanation of the non-reference items]

12 wireless base station

20 portable device

116, 216 block contactless communication

120, 220 block wireless

124, 224 processing unit easy installation

132, 232 of the control unit break

140, 240 application

150, 160, 250, 260 block drive

[Detailed description of the invention]

Below will be described in detail preferred embodiments of the present invention with reference to the attached drawings. In particular, in this description and in the drawings, the configuration elements having essentially Odincovo the functional configuration, marked with the same numbers of reference positions, and their repeated explanation is not provided.

Below will be described the best way of carrying out the invention illustrated in the order presented below.

(1) Overview of wireless communication systems in accordance with this alternative embodiment of the

(1-1) the Basic configuration of the wireless communication devices in accordance with this alternative embodiment of the

(1-2) Operation of the wireless communication system in accordance with the present variant embodiment of the

(2) explanation of wireless communication devices in accordance with the first variant embodiment of the present invention

(2-1) the Purpose of this variant of the incarnation

(2-2) Configuration of hardware of the wireless communication devices in accordance with this alternative embodiment of the

(2-3) Functional configuration of the wireless communication devices in accordance with this alternative embodiment of the

(2-4) a Method of wireless communication performed by the wireless communication device in accordance with the present variant embodiment of the

(3) explanation of wireless communication devices in accordance with a second alternative embodiment of the present invention

(3-1) the Purpose of this variant of the incarnation

(3-2) the Functional configuration of the wireless communication devices in accordance with this variant of voploscheni the

(3-3) a Method of wireless communication performed by the wireless communication device in accordance with the present variant embodiment of the

(4) Conclusion

(1) Overview of wireless communication systems in accordance with this alternative embodiment of the

First, with reference to figure 1 presents an overview of the wireless communication system 1 in accordance with this alternative embodiment. In accordance with the wireless communication system 1, the wireless connection can be simply installed between multiple wireless devices.

Figure 1 shows an explanatory diagram representing an example of the overall configuration of the wireless communication system 1 in accordance with this alternative embodiment. The wireless communication system 1 includes a personal computer (PC) 10, a wireless base station 12 and the portable device 20.

The personal computer 10 and the portable device 20 are wireless communication devices that embody the function of the contactless communication and the wireless function. As wireless functions provided by wireless local area network (LAN), Bluetooth (registered trademark), etc. in Addition, figa presents a situation in which the personal computer 10 is connected with the base station 12 and the wireless LAN.

At this time, when the portable the device 20 is installed in close proximity with the personal computer 10, the portable device 20 and the personal computer 10 performs contactless communication. Then, on the basis of contactless communication, the portable device 20 receives from the personal computer 10 installation data required for wireless connection with the personal computer 10.

Then, as shown in figv, on the basis of data received from the personal computer 10, the portable device 20 may implement a wireless connection with the personal computer 10 via the base station 12. Thus, in the wireless communication system 1, it becomes possible to eliminate to a user of the portable device 20 the need for manual entry into the portable device 20 data.

It should be noted that the personal computer 10 and the portable device 20 shown in figure 1 simply as examples of the wireless device and the wireless device may be a data processing unit, such as a home video processing device (a DVD recorder, VCR or the like), a mobile phone, the system for personal mobile phones (PHS, MTA, Japanese digital cellular), portable music playing device, a portable imaging device, personal digital assistants (PDA, PDA), home and the world the device, portable gaming device, a household appliance or the like.

In addition, figure 1 shows the case in which a wireless connection is established between the personal computer 10 and the portable device 20 via the base station 12. However, the present variant embodiment is not limited to this example, and the personal computer 10 and the portable device 20 can be connected directly using, for example, a special connection.

In addition, the above explained the case in which the portable device 20 is installed in close proximity to the personal computer 10 and the portable device 20 receives the data from the installation. However, when installing the portable device 20 in close proximity to the personal computer 10, the personal computer 10 can also get these settings and use them for wireless connection with the portable device 20.

(1-1) the Basic configuration of the wireless communication devices in accordance with this alternative embodiment of the

Next, with reference to figure 2, explain the basic configuration of the personal computer 10 and the portable device 20 as examples of wireless communication devices in accordance with this alternative embodiment.

Figure 2 shows a functional block diagram representing the key to the hence, adaptation of the personal computer 10 and the portable device 20 in accordance with this alternative embodiment. The personal computer 10 includes a block 116 contactless communication unit 120 of the wireless communication unit 124 processing easy installation unit 132 of the control interval and the application 140. In addition, the portable device 20 includes a block 216 contactless communication unit 220 of the wireless communication unit 224 processing easy installation, block 232 control break and the application 240.

Block 116 contactless communication is the interface contactless communication with the portable device 20 and may, in some cases, have the function of block read/write, which performs communication with the portable device 20 setup information, as well as unique data indicating the communication function of the personal computer 10 or the portable device 20. For example, the block 116 contactless communication can transmit radio waves, which propagate for a short distance of approximately 10 cm, can control block 216 contactless portable communication device 20, which is located within the coverage area of radio broadcasts, and may contact block 216 contactless portable communication device 20. This unit 116 contactless communication may actually include an antenna and a control unit that controls the communication using the antenna.

Block 120 wireless is an interface for wireless the Oh communication with the portable device 20. Thus, the block 120 for wireless communication may, after a connection unit 220 wireless portable device 20 based on the operation unit 124 processing easy installation, can send and receive arbitrary data to and from the portable device 20. This block 120 for wireless communication may be compatible with a wireless LAN, or may be compatible with the Bluetooth (registered trademark). In addition, the block 120 for wireless communication may include an antenna, an integrated circuit and a software tool that manages the integrated circuit, for transmitting and receiving various data to and from the antenna.

Block 124 processing easy installation performs processing for establishing a wireless connection between the block 120 wireless personal computer 10 and the block 220 wireless portable device 20. For example, in the case where the block 120 wireless communication is connected with the base station for wireless communications is provided by the transfer unit 116 contactless communication setup information, which includes ID, ID) of a base station, the network ID, or the like. Or wireless connection between the unit 120 of the wireless communication unit 220 wireless portable device 20 is set on the basis of data received via BL is to 116 contactless communication.

Block 132 control break has the function of block end connection that disconnects the wireless connection between the unit 120 of the wireless communication unit 220 wireless portable device 20. As to maintain a wireless connection between the personal computer 10 and the portable device 20 need food, if the wireless connection is maintained between the personal computer 10 and the portable device 20, even when the personal computer 10 and the portable device 20 does not actually perform data transmission, it can lead to excessive power consumption. Thus, when data is not actually performed between the personal computer 10 and the portable device 20 within a predetermined period of time, e.g. one hour, thirty minutes, or the like, the block 132 control break disconnects the wireless connection between the personal computer 10 and the portable device 20, and can reduce energy consumption power.

The application 140 is a software tool that is designed to achieve a specific purpose. For example, application 140 may be an editing application data, application data or application running the program.

Blo is 216 contactless communication is the interface contactless communication with the personal computer 10 and has the function of the first communication unit, which performs communication with a personal computer 10 data setup and also unique data indicating the communication function of the personal computer 10 or the portable device 20. For example, the control unit 216 contactless communication can be performed using radio waves transmitted from the block 116 contactless communication of the personal computer 10, and it can communicate with the block 116 contactless communication of the personal computer 10. This block 216 contactless communication may actually include an antenna, an integrated circuit and software that manages the integrated circuit, for transmitting and receiving various data to and from the antenna.

Block 220 wireless is an interface for wireless communication with the personal computer 10 and has the function of the second communication unit. Thus, the block 220 wireless may, after establishing a wireless connection with block 120 wireless PC 10 based on the operation unit 224 processing easy installation, can send and receive arbitrary data to and from personal computer 10. This unit 220 wireless communication may be compatible with a wireless LAN, or may be compatible with the Bluetooth (registered trademark). In addition, the block 220 wireless communication may include antennas is y, an integrated circuit and a software tool that manages the integrated circuit, for transmitting and receiving various data to and from the antenna.

Block 224 processing easy installation performs processing for establishing a wireless connection between the block 120 wireless personal computer 10 and the block 220 wireless portable device 20. For example, in the case where the block 120 wireless personal computer 10 is connected with the base station for wireless communication, data setup, which includes the ID of the base station, the network ID, or the like, take over the block 216 contactless communication, and a wireless connection between the block 120 wireless personal computer 10 and the block 220 wireless portable device 20 is installed based on the installation.

Block 232 control break has the function of block end connection that disconnects the wireless connection between the block 120 wireless personal computer 10 and the block 220 wireless portable device 20. As described above, because to maintain a wireless connection between the personal computer 10 and the portable device 20, the necessary energy supply, if the wireless connection support between personal computer 10 and the portable mouth what Euston 20, even when the personal computer 10 and the portable device 20 does not actually perform the data exchange can lead to excessive energy consumption power. Thus, the block 232 control interval may, for example, to calculate the time that has elapsed after the actual execution data transfer between the personal computer 10 and the portable device 20, and when the count value reaches the preset value, can disconnect the wireless connection between the personal computer 10 and the portable device 20. As a result, the block 232 control break can help reduce energy consumption power.

The application 240 is a software tool that is designed to achieve a specific purpose. For example, the application 240 may be an editing application data, application data or application program execution. Data exchange between the application 240 and the application 140 of the personal computer 10 is performed, for example, through the block 120 wireless and block 220 wireless connection.

(1-2) Operation of the wireless communication system in accordance with the present variant embodiment of the

Next, with reference to figure 3, illustrated flow until, until you have a wireless connection in the wireless communication system 1 in the accordance with the present variant embodiment between personal computer 10 and the portable device 20.

Figure 3 shows the sequence diagram that represents the processing flow of a method of wireless communication that is performed in the wireless communication system 1, in accordance with this alternative embodiment. Initially, when the block 120 wireless personal computer 10 establishes a wireless connection with the base station 12 (S3 04), these plants enter in block 116 contactless communication through the block 124 processing easy installation (S308). Then, when the portable device 20 is installed in close proximity to a personal computer 10 (S312), the block 116 contactless communication of the personal computer 10 transmits data in block 216 contactless portable communication device 20 (SS316).

Then block 224 processing easy installation displays data taken by the block 216 contactless portable communication device 20 in block 220 wireless (S320), and performs processing of the wireless connection, using these settings, between block 220 wireless portable device 20 and the block 120 wireless personal computer 10 (S324). It should be noted that the processing of the wireless connection includes, for example, mutual authentication processing between the portable device 20 and the personal computer 10.

Then, when the personal computer 10 and the port of the active device 20 establishes a wireless connection, arbitrary data transmit and receive between the block 120 wireless personal computer 10 and the block 220 wireless portable device 20 (S328, S332).

Thus, the wireless communication system 1 is effective when the wireless connection between the personal computer 10 and the portable device 20 can be implemented without requiring a user of the personal computer 10 or the portable device 20 input operation data installation.

(2) explanation of wireless communication devices in accordance with this alternative embodiment of the

Next explained in detail the purpose, specific configuration, etc. of the personal computer 10 and the portable device 20, as examples of wireless communication devices in accordance with this alternative embodiment.

(2-1) the Purpose of this variant of the incarnation

As described above, the user of the portable device 20 can establish a wireless connection between the portable device 20 and communication device-party communication by installing the portable device 20 and communication device-a communication partner in close proximity to each other. Thus, the user of the portable device 20 may implement a wireless connection between the portable device 20 and the device SV is zi - participant communication without performing the input operation data installation.

However, a wireless connection between the portable device 20 and communication device - party communication may be disconnected for various reasons. For example, the block 232 control break disconnects the wireless connection when the mobile device 20 and the communication device participating in a link not perform the actual data exchange within a specified time. Or the user of the portable device 20 can disconnect the wireless connection intentionally. When there is a need to re-install the wireless connection after disconnection of the wireless connection, so the user of the portable device 20 must again place the portable device 20 at a position close proximity to the device connection party connection (installation operation in close proximity). When the user is forced to perform this operation placed in close proximity to each repeat of the wireless connection, the problem arises, namely that the operation becomes cumbersome for the user.

Accordingly, the portable device 20 according to the first variant embodiment of the present invention should be designed taking into account the described visionstatement. In accordance with the portable device 20, in accordance with the present variant embodiment, the repeated wireless connection between the portable device 20 and communication device - party communication can be simply installed. Below are explained the configuration and the operation of such a portable device 20.

(2-2) Configuration of hardware of the wireless communication devices in accordance with this alternative embodiment of the

Figure 4 shows a block diagram representing a hardware configuration of the portable device 20 in accordance with this alternative embodiment. The portable device 20 includes a Central processing unit (CPU, CPU) 201, a persistent storage device (ROM, RAM) 202, random access memory (RAM, RAM) 203, a main bus 204, a bridge 205, an external bus 206, an interface 207, an input device 208, an output device 210, the device 211 drive (HDD, HDD, drive, hard disk drive, the actuator 212 and the device 215 connection.

The CPU 201 performs the function of the device processing and control device, and controls the overall operation of the portable device 20 according to various programs. In addition, the CPU 201 may be a microprocessor. In the ROM 202 of the recorded program, the calculation parameters and the like, intended for use in the project for the CPU 201. In the RAM 203 temporarily contains programs designed for use by the CPU 201 when they are executed, the settings changed accordingly during the execution of the programs, etc. They are mutually connected to the main bus 204, the bus of the CPU or the like.

The main bus 204 is connected to an external bus 206, such as bus interconnects/peripheral component interface (PCI, IPC) or the like, across the bridge 205. It should be noted that it is not necessary to configure the main bus 204, the bridge 205 and the external bus 206 separately, and their functions can be embodied in a single bus.

The input device 208 is made on the basis of means of the user input information, such as a mouse, keyboard, touch panel, button, microphone, switch, lever or the like, for example, in the form of circuit control input, which generates the input signal based on user input and outputs the signal to the CPU 201 and the like, the User of the portable device 20 can input various data to the portable device 20 and may enter instructions for the processing operation of the portable device 20, performing the operation with the input device 208.

The output device 210 is designed as a display device, such as device display on the cathode-ray tube (CRT, CRT), a liquid crystal device di the display (LCD, LCD), a lamp or the like, and the audio output device, such as a loudspeaker, a headphone, or the like. The output device 210 outputs, for example, the played content. In particular, the display device displays as text and images of the various information such as reproduced video data, etc. on the other hand, the audio output device converts reproduced audio data, etc. into sound and outputs it.

The device 211 - drive is a device designed to store data, which is performed as an example of the block-drive portable device 20 in accordance with the present variant embodiment, and may include a recording medium, the recording medium where the data is stored on the recording medium, a reading device that reads data from the recording media, the removal device that removes the data stored on the recording media, etc. Device 211 to the drive performed, for example, based on the hard drive of a magnetic disk (HDD). The device 211 to the drive drives a hard disk and stores programs used for execution of the CPU 201 and various data. In addition, data, unique data, etc. stored in the device 211 to the drive.

The drive 212 is a block of read/write for the nose is the user account and integrated in the portable device 20 or installed externally to the portable device 20. The drive 212 reads information stored on the prescribed removable media 24 records, such as magnetic disk, optical disk, magnetooptical disk, a semiconductor storage device or the like, and outputs them to the RAM 203.

The device 215 communication is a communication interface that is made on the basis of the communication device or the like for connection, for example, with a network of 12 data. In addition, the device 215 may be a communication device compatible with a wireless local area network (LAN), a communication device compatible with a wireless USB (upsh, universal serial bus)device wired communication that performs communication by wire, the device is compatible with contactless communication, or a combination of many of the above-described communication devices. The device 215 connection can send and receive arbitrary data to the base station 12 and out, or other wireless communication devices. It should be noted that the hardware configuration of the personal computer 10 can be made so that it was essentially the same as that of the portable device 20, and their explanation will not be given here.

(2-3) Functional configuration of the wireless communication devices in accordance with this alternative embodiment of the

Figure 5 shows a flowchart, representing the configuration of the personal computer 10 and the portable device 20, as examples of wireless communications devices in accordance with this alternative embodiment. The personal computer 10 includes a block 116 contactless communication unit 120 of the wireless communication unit 124 processing easy installation unit 132 of the control interval, the application 140, the block 150 to the drive unit 134 input power, and the portable device 20 includes a block 216 contactless communication unit 220 of the wireless communication unit 224 processing easy installation, block 232 control break, the application 240, the block 250 drive and block 254 input power. Many parts of the configurations of the personal computer 10 and the portable device 20 are duplicates of items explained with reference to figure 2, and, therefore, parts which are different from the objects explained with reference to figure 2, will mainly be explained below.

Block 224 processing easy installation portable device 20 has the function control unit which establishes a wireless connection between the block 220 wireless connection and a personal computer 10 on the basis of data received from the personal computer 10 through the block 216 contactless communication, and the function of a data processing unit that stores data received from a person who inogo computer 10 through the block 216 contactless communication unit 250 to the drive.

Thus, the block 224 processing easy installation saves setup data received from the personal computer 10 through the block 216 contactless communication unit 250 to the drive before disconnecting the wireless connection between the block 220 wireless connection and a personal computer 10, for example, the block 232 control break. Then, when it becomes necessary to re-establish the wireless connection between the block 220 wireless connection and a personal computer 10, re wireless connection between the block 220 wireless connection and a personal computer 10 sets on the basis of data stored in block 250 flash drive. It should be noted that the need to re wireless connection occurs when, for example, a request from the application 240.

Block 250 drive performs the function of recording media, which reads the data stored by block 224 processing easy installation. Block 250 drive can represent, for example, non-volatile storage device, such for electrically erasable programmable permanent memory (EEPROM, EEPROM), erasable programmable permanent memory (EPROM, EEPROM) or the like, a magnetic disk such as a hard disk, round magnetic disk or volume is similar, an optical disk such as a CD-ROM, recordable (CD-R), CD rewritable (CD-RW), digital versatile disk recordable (DVD-R), digital versatile disk rewritable (DVD-RW)dual-layer digital versatile disc recordable (DVD+R), dual-layer digital versatile disc rewritable (DVD+RW), random access memory device based on a digital versatile disk (DVD-RAM), a Blu-ray discâ„¢ recordable (BD-R), Blu-ray discâ„¢ rewritable (BD-RE) or the like, a magneto-optical (MO) disk, or the like.

These settings are as described above, the data required for wireless connection between the personal computer 10 and the portable device 20. Below, with reference to Fig.6, will be described a specific example of such data.

Figure 6 shows an explanatory diagram representing a concrete example of installation data. As shown in Fig.6, these settings include the information necessary for wireless connection, such as connection technology for wireless connection, the connection type. The service set identifier (SSID IDNS), authentication type, encryption key, etc.

In addition, figure 6 shows data in which the connection technology is with the fight "Wi-Fi" (Wireless precision"), the connection type is an "infrastructure mode", IDNS is a "SSID1", the authentication type is a "WPA" (Protected access Wi-Fi), and the encryption key is a"*********".

It should be noted that figure 6 shows the case in which the connection technology is a "Wi-Fi". However, the technology connection may be a Bluetooth (registered trademark)", and, in the case where the connection technology is a Bluetooth (registered trademark)", the address information of the Bluetooth (registered trademark) may be included instead IDNS in these settings. In addition, when the connection type is a "special mode", the network address or the like can be included in the installation data.

Here, returning to the explanation of the configuration of the portable device 20 with reference to figure 5, block 254 input power plays the role of receiving the supplied power from an external source and supplying power to each configuration of the portable device 20. When the food is served in the portable device 20 from an external source through the block 254 input power to block 232 control break, it becomes possible not to disconnect the wireless connection between the portable device 20 and the personal computer 10. When using this configuration, nl is to 232 control break disconnects the wireless connection in order to reduce energy consumption during wireless connection between the portable device 20 and the personal computer 10 and for effective use a battery (not shown). Accordingly, when power is supplied from an external source through the block 254 input power, there is no particular need to ensure the effective use of the battery, and thus, the block 232 control not break disconnects the wireless connection and re-processing of the wireless connection can be excluded.

Before this place was described configuration of the portable device 20 in accordance with this alternative embodiment. Each configuration block 150 to the drive unit 134 input power of the personal computer 10 can be performed essentially the same as each configuration unit 250 of the drive unit 254 of the input power of the portable device 20, and thus their explanation is omitted.

(2-4) a Method of wireless communication performed by the wireless communication device in accordance with the present variant embodiment of the

Next, a processing flow of a method of wireless communication performed by the portable device 20 as an example of wireless communication devices in accordance with the present variant embodiment, illustrated with reference to Fig.7 and 8.

7 shows an explanatory diagram representing a processing flow of a method of wireless communication performed by the portable device 20 in accordance with this alternative embodiment. UNECA is e, as shown in figa, block 216 contactless portable communication device 20 receives data from the block 116 contactless communication of the personal computer 10, the wireless connection is set between the block 220 wireless portable device 20 and the block 120 wireless PC 10 based on the data setup and data setup keep in block 250 flash drive. Thus, in the state shown in figa, because the wireless connection is established between block 220 wireless portable device 20 and the block 120 wireless personal computer 10, arbitrary data can be transmitted and received between the application 240 of the portable device 20 and the application 140 of the personal computer 10.

When, for example, the actual connection is not performed within a predetermined period of time in a state in which a wireless connection is established between the block 220 wireless portable device 20 and the block 120 wireless personal computer 10, the wireless connection between the block 220 wireless portable device 20 and the block 120 wireless personal computer 10 to be separated, as shown in Fig.7 Century, However, these settings are contained in block 250 flash drive.

Here it is assumed that b is Spravochnoe connection through the block 220 wireless communication becomes necessary in the state, when the wireless connection between the block 220 wireless portable device 20 and the block 120 wireless personal computer 10 to be separated, and setup data stored in the block 250 flash drive. In this case, for example, block 220 wireless receives transmitted data from the application 240, and transmits the request to a wireless connection in block 224 processing easy installation. Then block 224 processing easy installation reads the settings from block 250 to the drive, and establishes a wireless connection between the block 220 wireless portable device 20 and the block 120 wireless PC 10 based on the read data.

On Fig shows the block diagram of the sequence of operations, representing the flow of processing methods for wireless communication performed by the portable device 20 in accordance with this alternative embodiment. First portable device 20 receives data from the contactless communication with the personal computer 10 (S404). Then block 224 processing easy installation installs the wireless connection between the block 220 wireless portable device 20 and the block 120 wireless PC-based data (S408). Then block 224 processing simple set and stores the data in block 250 - drive (S412).

Then block 232 control break determines whether the actual data transfer between the block 220 wireless portable device 20 and the block 120 wireless personal computer 10 within a predetermined period of time (S416). When the actual data transfer is not performed between the block 220 wireless portable device 20 and the block 120 wireless personal computer 10 within a predetermined period of time, the block 232 control break disconnects the wireless connection between the block 220 wireless portable device 20 and the block 120 wireless personal computer 10 (S420).

Then, when the need arises to re wireless connection, as a result, for example, receiving the data transfer request from the application 240 (S424), the block 224 processing easy installation installs the wireless connection between the block 220 wireless portable device 20 and the block 120 wireless personal computer 10 on the basis of data stored in block 250 drive (S428).

As described above, when using the portable device 20 according to the first variant embodiment of the present invention, the block 224 processing easy installation saves in block 250 to the drive data of the mouth of the hall, required for wireless connection between the portable device 20 and the personal computer 10, and when there is a need for re-connection after disconnection of the wireless connection between the portable device 20 and the personal computer 10, re-restore the wireless connection between the portable device 20 and the personal computer 10, using data stored in block 250 flash drive. Accordingly, in accordance with the portable device 20, the portable device 20 and the personal computer 10 can be automatically re-connected without having to enter the user-portable device 20 operations such as operation data installation and operation of accommodation in the immediate vicinity of the portable device 20 with the personal computer 10.

(3) explanation of wireless communication devices in accordance with a second alternative embodiment of the present invention

Next explained the purpose of a particular configuration, etc. of the portable device 20, as an example of wireless communication devices in accordance with a second embodiment of the incarnation.

(3-1) the Purpose of this variant of the incarnation

As described above, the portable device 20 according to the first variant embodiment, the who is you can re-restore the wireless connection simply on the basis of data of the installation, stored in block 250 flash drive, without having to perform a user-portable device 20 of any special operations. On the other hand, for portable device 20 according to the first variant embodiment of the retention period data setup in block 250 the drive is not listed in any particular way.

As a result, the portable device 20 according to the first variant embodiment can automatically re-install the wireless connection between the portable device 20 and the personal computer 10, regardless of whether or not the personal computer 10, which is a communication device participating in a link to the portable device 20, the user of the portable device 20 or not.

However, if the owner of the portable device 20 and the owner of the PC 10 are different from each other, a problem arises, namely that the owner of the portable device 20 may take another wireless connection between the portable device 20 and the personal computer 10 without the owner's approval of the personal computer 10. That is, there are occasions when using the portable device 20 according to the first variant embodiment, when the security of each wireless device is ligature and confidentiality of user data, each wireless communication device is insufficient.

Accordingly, the portable device 20 in accordance with the second variant of the embodiment should be created with consideration of the circumstances described above. In accordance with the portable device 20, in accordance with a second alternative embodiment of the present invention, the security communication devices, representing a participant's connection to the portable device 20 and the privacy communication device - a communication partner can be improved. Below are explained the portable device 20 in accordance with this alternative embodiment.

(3-2) the Functional configuration of the wireless communication devices in accordance with this alternative embodiment of the

Figure 9 shows a functional block diagram representing a configuration of the personal computer 10 and the portable device 20 in accordance with this alternative embodiment. The personal computer 10 includes a block 116 contactless communication unit 120 of the wireless communication unit 124 processing easy installation unit 132 of the control interval, the application 140 and the block 160 drive and portable device 20 includes a block 216 contactless communication unit 220 of the wireless communication unit 224 processing easy installation, block 232 control break, the application 240 and block 260 drive. Many parts of the configuration is the second personal computer 10 and the portable device 20 are duplicates of items explained with reference to figure 2, and, therefore, will mainly be described parts that differ from the objects explained with reference to figure 2.

Each wireless communication device, such as a personal computer 10, the portable device 20 and the like, in accordance with this variant embodiment has the group ID, as an example of the information group, refers to a group that owns the device itself. With respect to the group ID, the same group ID set for the wireless one owner.

Block 224 processing easy installation gets the group ID of the personal computer 10, which is a communication device participating in a link from the personal computer 10 through the block 216 contactless communication or block 220 wireless communication, and stores it in the block 260 flash drive. This group ID is stored in the block 260 - memory in Association with data of the installation, as shown, for example, figure 10.

Figure 10 shows an explanatory diagram representing an example of data that must be stored in block 260 flash drive. As shown in figure 10, block 224 processing easy installation saves in block 260 - drive, in Association with each other device connection party connection, for example, ID uniquely assigned to the communication device - a communication partner, the data installation is La communication devices - user group ID of the communication device - a communication partner, and time saving setup information.

In addition, the block 224 processing easy installation makes the retention period for data in block 260 - drive variable, as shown in figure 11, for example, depending on whether each other or not group ID of the communication device - a communication partner and group ID of the portable device 20.

Figure 11 shows an explanatory diagram representing an example of a data retention period of installation in block 260 flash drive. As shown in figure 11, block 224 processing easy installation can make the retention period of the data units for communication device - a communication partner, group ID, which is the same as the portable device 20, is equal to one month, and the retention period of the data units for communication device - a communication partner, group ID, which is different from the portable device 20, is equal to, for example, one hour. Thus, the block 224 processing easy installation can be removed from block 260 drive data units for communication device - a communication partner, group ID, which coincides with the portable device 20, after the lapse of one month from the time saving and data units for communication device - a communication partner, group ID, which is different from the portable device 20, after t the th, as will be one hour from the time of saving.

When this case occurs, when the same owner has devices that have the same group ID. In addition, the retention period for data in block 260 the drive corresponds to the period during which it can be re-installed wireless connection between the portable device 20 and communication device - party communication, using data from the installation. Accordingly, as described above, the period during which it can be re-installed wireless communication device - party communication, group ID, which is the same as that of the portable device 20, by using the data of the installation, can be made longer than the period during which repeated the wireless connection can be established with a communication device - party communication, group ID, which is different from the portable device 20, using these settings. As a result, re wireless communication device - party communication, group ID, which is different from the portable device 20 based on the data installation is limited, and thus, it is possible to improve the security of communication device - a communication partner, storing sensitive user data communication devices - part is nick communication, etc. It should be noted that the block 224 processing easy installation can also disable the wireless connection with the device connection party connection with a different group ID.

In addition, in the above description has explained the case where the save data is stored in the block 260 - drive in Association with the data setup and manage, whether or not it should contain these settings as the passage of time, since time is saved. However, it is also possible to save the time of separation when the disconnection of the wireless connection in block 260 - drive, in Association with the data setup and manage, whether to contain data or not as time elapses from the time of separation. In addition, the block 160 drive of the personal computer 10 can be performed essentially the same as block 260 - drive portable device 20, and thus, its detailed explanation is not provided here.

(3-3) a Method of wireless communication, written to run on the wireless device, in accordance with the present variant embodiment of the

Next, with reference to Fig illustrated by way of wireless communication performed by the portable device 20 as an example of wireless communication devices in accordance with this alternative embodiment.

On IG shows the block diagram of the sequence of operations, representing the processing flow of a method of wireless communication performed by the portable device 20 in accordance with this alternative embodiment. First, the portable device 20 receives data from the contactless communication with the personal computer 10 (S504). Then block 224 processing easy installation installs the wireless connection between the block 220 wireless portable device 20 and the block 120 wireless personal computer 10 on the basis of the setup information (S508). In addition, the block 224 processing easy installation saves these settings in block 260 - drive (S512).

Then block 232 control break determines whether the actual exchange of data between the block 220 wireless portable device 20 and the block 120 wireless personal computer 10 within a predetermined period of time (S516). When the actual communication is not performed between the block 220 wireless portable device 20 and the block 120 wireless personal computer 10 within a predetermined period of time, the block 232 control break disconnects the wireless connection between the block 220 wireless portable device 20 and the block 120 wireless personal computer 10 (S520).

Then block 224 processing simple mouth the unit determines whether the retention period for data in block 260 - drive or not (S524). When determining that the retention period for data in block 260 - the drive has failed and, for example, there is an instruction to transfer data wirelessly from the application 240 (S528), the block 224 processing easy installation installs the wireless connection between the personal computer 10 and the portable device 20 on the basis of data contained in the block 260-drive (S532).

Then, when determining that the retention period for data in block 260 - the drive has failed and, for example, there is no instruction for data transmission in a wireless application 240 (S528), the processing returns to step S524. In addition, when in step S524 determines that the retention period for data in block 260 the drive passed, block 224 processing easy installation removes the corresponding data stored in the block 260 - drive (S536).

(4) Conclusion

As described above, since the portable device 20 according to the first variant embodiment of the present invention receives data from the contactless communication, the portable device 20 and the personal computer 10 can be automatically re-connected without the need for floor is a user of the portable device 20 such operations, as the input operation data installation and operation of accommodation in the immediate vicinity of the portable device 20 with the personal computer 10.

Then, the portable device 20 in accordance with a second alternative embodiment of the present invention makes the retention period for data in block 260-drive variable, depending on the relationship between the group ID of the communication device - a communication partner and group ID of the device, and thus, can be improved safety communication device - a communication partner, maintaining the confidentiality of user data communication device - a communication partner, etc.

It should be noted that although the preferred variants of the embodiment of the present invention have been described with reference to the attached drawings, it is understood that the present invention is not limited to such examples. It is obvious that various modifications and changes can be carried out by specialists in the art within the scope of the claims, and it should be understood that they, naturally, are within the scope of the claims.

For example, in the above-described embodiments, the embodiment explained a case when the wireless connection between the personal computer 10 and the portable device 20 is installed in a state where the personal computer 10 connecting the t with the base station 12. However, the present invention is not limited to this example. For example, a wireless connection with the portable device 20 may be installed based on the installation, which takes the personal computer 10 of the portable device 20 when placing the portable device 20 in close proximity to the personal computer 10, while the portable device 20 and the base station is connected, and the adjustment data from the portable device 20 transmits to the personal computer 10 using a contactless connection.

Each phase is designed to run portable device 20 in this description, do not necessarily have to be performed chronologically in the order presented in the flowchart of the sequence of operations, or the sequence of operations and processing performed in parallel or individually (e.g. parallel processing or object processing) may also be included in it.

In addition, can also be developed a computer program that enables the operation of such hardware as the CPU 201, ROM 202, RAM 203, etc. built in the personal computer 10 and the portable device 20, as each of the configurations described above, the personal computer 10 and the portable device 20. To the ome, also included is a recording medium on which is stored a computer program.

1. Wireless communication, comprising:
the first communication unit capable of performing contactless communication with another wireless communication device and receiving the specified data from the other wireless communication devices;
the second communication unit, configured to establish wireless communication with another wireless communication device;
the control unit is designed to establish a wireless connection between the second communication unit and the other wireless communication device, using the data of the setup required for wireless connection, take the first communication unit; and
the data processing unit, designed to save the data on the recording medium before the disconnection of the wireless connection, in which
the control unit uses the data stored on the recording media, while re-establishing the wireless connection between the second communication unit and the other wireless communication device,
the device and another wireless communication have information group, providing the opportunity to identify the group to which belongs each of them, and
the data processing unit sets the retention period data setup nanoscale record variable depending on, whether with each other or not information of the group the device and information of the group other wireless communication devices.

2. The wireless communication device according to claim 1, in which
the data processing unit sets the retention period for data on the recording medium large in the case where information of the group of wireless communication devices and information of the group other wireless communication devices correspond to each other, unlike the case when the information group of wireless communication devices and information of the group other communication devices differ from each other.

3. Wireless communication, comprising:
the first communication unit capable of performing contactless communication with another wireless communication device and receiving the specified data from the other wireless communication devices;
the second communication unit, configured to establish wireless communication with another wireless communication device;
the control unit is designed to establish a wireless connection between the second communication unit and the other wireless communication device, using the data of the setup required for wireless connection, take the first communication unit;
the data processing unit, designed to save the data on the recording medium p is ed disconnection of the wireless connection;
unit input power, the power which is supplied from an external source; and
block end a communication intended for disconnection of the wireless connection between the second communication unit and the other wireless communication device, in which
the control unit uses the data stored on the recording media while re-establishing the wireless connection between the second communication unit and the other wireless communication device, and the block end connections are not disconnects the wireless connection while the power is fed through the unit input power.

4. Machine-readable recording medium containing a program for performing computer functions:
a first communication unit for performing contactless communication with another wireless communication device and receiving predetermined data from the other wireless communication devices;
the second communication unit, configured to establish a wireless connection with another wireless communication device;
control unit, designed to establish a wireless connection between the second communication unit and the other wireless communication device, using the data of the setup required for wireless connection, take the first communication unit; and
the data processing unit, intended for the protection of installation data on the recording medium before the disconnection of the wireless connection, in which
the control unit uses the data stored on the recording media, while re-establishing the wireless connection between the second communication unit and the other wireless communication device,
the device and another wireless device has information group, providing the opportunity to identify the group to which each belongs, and;
the data processing unit makes the retention period for data on the recording media variables depending on whether each other or not information of the group the device and information of the group other wireless communication devices.

5. Machine-readable recording medium containing a program for performing computer functions:
the first communication unit designed for performing contactless communication with another wireless communication device and receiving the specified data from the other wireless communication devices;
the second communication unit, configured to establish a wireless connection with another wireless communication device;
the control unit is designed to establish a wireless connection between the second communication unit and the other wireless communication device, using the data of the setup required for wireless soy is inane, take the first communication unit;
the data processing unit, designed to save the data on the recording medium before it is disconnected wireless connection;
unit input power, the power which is supplied from an external source; and a block end a communication intended for disconnection of the wireless connection between the second communication unit and the other wireless communication device, in which
the control unit uses the data stored on the recording media, while re-establishing the wireless connection between the second communication unit and the other wireless communication device, and
block end connection does not divide a wireless connection while power is being supplied through the unit input power.

6. A method of wireless communication, containing the following steps:
perform contactless communication with another wireless communication and receive the specified data from the other wireless communication devices;
establish a wireless connection with another wireless communication device, using the data of the installation;
save these settings on the recording medium prior to the disconnection of the wireless connection;
disconnect the wireless connection;
set re wireless connection with another wireless device the Oh communication using data stored on the recording medium; and
set the retention period for data on the recording media variables, depending on whether each other or not information of the group the device and information of the group other wireless communication devices.

7. A method of wireless communication, containing the following steps:
perform contactless communication with another wireless communication and receive the specified data from the other wireless communication devices;
establish a wireless connection with another wireless communication device, using the data of the installation;
save these settings on the recording medium before it is disconnected wireless connection;
disconnect the wireless connection; and
set re wireless connection with another wireless communication device using data stored on the recording medium, in which
wireless connection is not disconnected, while power is being supplied from an external source.



 

Same patents:

FIELD: information technologies.

SUBSTANCE: decentralised mode is configured for the first mobile station (MS), operating in decentralised network according to broadband wireless standard; detection of communication in decentralised mode, having simplified protocol of data transfer of broadband wireless standard; realisation of communication with the second MS using data transfer in decentralised mode, at the same time configuration includes configuration of parametres of decentralised mode, including working mode, besides, when working mode represents one of MS mode, mode of service MS (SMS) and automatic mode.

EFFECT: realisation of data transfer method in decentralised mode with small radius of action.

27 cl, 12 dwg

FIELD: radio engineering.

SUBSTANCE: basic station comprises facilities to determine capacity of transfer of mobile station on the basis of quality of reception of pilot channel in uplink; facilities of information transfer relative to certain capacity to mobile station; and facilities to receive control channel, transmitted by mobile station in compliance with received information. Accordingly, regardless of history of transfer capacity maintenance in preceding continuous time interval, for the purpose to control capacity, mobile station every time in process of packet transfer receives instruction of capacity establishment from basic station.

EFFECT: control of transfer capacity of common control channel properly so that transfer of common control channel with permanent quality.

17 cl, 18 dwg

FIELD: information technologies.

SUBSTANCE: in jointly used control channel of downlink the resources are distributed by means of distribution table, which is divided into the first section of constant length and at least one second section of variable length. Constant length and circuit of modulation and coding (MCS) of the first section are known in advance. The second variable length and circuit of MCS of the second section may be set in the first section. Noise immunity may be different for various second sections of one and the same table of distribution, or even inside a separate second section, in order to take into account various distance of subscribers from unit of network that performs distribution. Subscribers may be identified in the first section (for instance, constant number of subscribers) and/or in the second section (or additionally assigned subscribers, or all assigned subscribers, if the first section does not identify subscribers).

EFFECT: reliable acceptability of service information volume of jointly used control channel for common throughput capacity of downlink.

26 cl, 11 dwg

FIELD: physics, communications.

SUBSTANCE: invention relates to communication engineering. Disclosed is a method of determining the geographical location of a cellular communication device. The method involves determination of the effective area of the first and second cells of a cellular network and determination of the change of control area on which the cellular communication device is located at the moment in time when control over it shifts from the first to the second cell, according to which determination of the change of control area and effective area of the first and second cells is carried out based on relative position and alignment of antennae of the first and second cells.

EFFECT: high accuracy of locating a communication device.

160 cl, 14 dwg

FIELD: physics, communications.

SUBSTANCE: invention relates to mobile communication engineering. Disclosed is a method of transmitting and receiving a multimedia broadcast/multicast service over first and second one-way channels configured for this service. Control information of the first and second one-way channels is transmitted to a mobile terminal over a control downlink, where the control information of the second one-way channel is based on control information of the first one-way channel. The type of radio channel (point-point, point-multiple points) which should be used for the first and/or second one-way channels is determined. Control information for tuning the radio channel is transmitted through the corresponding control channel (MCCH or DCCH). Data of the first one-way channel and second one-way channel are transmitted through at least one multimedia broadcast/multicast service traffic channel (MTCH, DTCH).

EFFECT: more efficient reception of service information by a mobile terminal.

21 cl, 5 dwg

FIELD: information technology.

SUBSTANCE: method includes receiving information on location zone, establishing conformity between information on the location zone and information on the neighbouring cell to determine whether the cell belongs to a prohibited location zone, and preventing selection of the cell if it belongs to the prohibited location zone.

EFFECT: high transmission capacity and high mobility in situations when a wireless communication device can reselect or replace a cell with location zones in which the device has no access rights.

28 cl, 7 dwg, 2 tbl

FIELD: information technology.

SUBSTANCE: method includes receiving information on location zone, establishing conformity between information on the location zone and information on the neighbouring cell to determine whether the cell belongs to a prohibited location zone, and preventing selection of the cell if it belongs to the prohibited location zone.

EFFECT: high transmission capacity and high mobility in situations when a wireless communication device can reselect or replace a cell with location zones in which the device has no access rights.

28 cl, 7 dwg, 2 tbl

FIELD: information technology.

SUBSTANCE: method includes receiving information on location zone, establishing conformity between information on the location zone and information on the neighbouring cell to determine whether the cell belongs to a prohibited location zone, and preventing selection of the cell if it belongs to the prohibited location zone.

EFFECT: high transmission capacity and high mobility in situations when a wireless communication device can reselect or replace a cell with location zones in which the device has no access rights.

28 cl, 7 dwg, 2 tbl

FIELD: information technology.

SUBSTANCE: invention discloses a system for providing terminal mobility by using at least two different protocols for providing mobility, in which the gateway for providing mobility and the terminal share a common mobile communication session. Said common mobile communication session can be updated through any of the said different protocols for providing mobility, and during registration, each protocol for providing mobility provides the terminal with information relating to all other protocols for providing mobility. The invention also discloses the corresponding gateway, terminal and method.

EFFECT: combination of numerous technologies for providing mobility and possibility of maintaining integrity of sessions under these different technologies for providing mobility.

56 cl, 9 dwg

FIELD: information technology.

SUBSTANCE: method involves determining one or more periods of activity of a wireless communication subsystem, determining one or more periods of inactivity based on one or more periods of activity; synchronising operation of the RFID subsystem with one or more periods of inactivity; and launching operation of the RFID subsystem in accordance with one or more periods of inactivity to provide essentially parallel operation of the wireless communication subsystem and the RFID subsystem.

EFFECT: broader functionalities owing to possibility of coordinated sharing of the RFID subsystem and the wireless communication subsystem.

44 cl, 20 dwg

FIELD: physics; communications.

SUBSTANCE: description is given of a method and device for switching wireless terminal channels. For this, several communication channels with different physical characteristics are supported in the cell of the base station. Each wireless terminal controls several channels and evaluates several channels at the same time, such that, there can be fast switching between channels. Information on the quality of the channel is sent from each wireless terminal to the base station. The wireless terminal or base station selects the channel, based on the evaluated quality of the channel. By supporting several channels and through periodical changes in channels in different implementation alternatives, the time taken before the wireless terminal finds good or suitable channel conditions is minimised, even if the wireless terminal changes position. Several antennae are used at the base station for simultaneous support of several channels, for example, through control of the directional pattern of the antennae.

EFFECT: reduced delays before wireless terminal finds suitable channel conditions.

66 cl, 26 dwg

FIELD: physics; communications.

SUBSTANCE: during different set conditions providing source of sound for company service information as substitutive audio signal for call return, receiver can determine whether source of sound for service information for subscriber or set time interval is provided for. Present invention provides for a method and device for obtaining substitutive repeating audio signal for call return based on choice or successively in accordance with a preset condition.

EFFECT: provision for several substitutive audio signals for call return.

26 cl, 6 dwg

FIELD: physics; communications.

SUBSTANCE: method consists of the following stages: reception of request for channel access from user terminal. Reception of the user terminal can be one of several active user terminals. The transmission cycle duration is determined as a result of reception of a request for channel access. The arrival time of data to the cycle is determined for the user terminal. The arrival time of data to the user terminal is set, so as to designate the channel for the user terminal, starting from the time of arrival of data.

EFFECT: reduced probability of collisions during transfer of data from different users.

31 cl, 8 dwg

FIELD: information technologies.

SUBSTANCE: method for assignment of band channel with adaptive modulation and coding (AMC) to subscriber stations (SS) is realised in wireless communication system, which separates full range of frequencies into multiple subcarrier bands, every of which represents set from previously specified quantity of subranges, every of which represents set of previously specified quantity of adjacent subcarriers. Method comprises the following stages: necessity in use of band channel with AMC is detected; quality of reception is measured in frequency bands; list of frequency bands with high quality of reception is formed; request is sent for assignment of band channel with AMC as well as foresaid list to base station (BS); response is received to mentioned request from BS; in compliance with response, changeover is done in SS in condition of use of band channel with AMC.

EFFECT: creation of flexible system that provides possibility for subscriber stations with proper condition of channel to realise high-speed communication with high throughput.

61 cl, 7 dwg, 3 tbl

FIELD: information technologies.

SUBSTANCE: service center (SZ) for transmission of information content should not know or define number of person who initiates loading, and sole connection (TKV) of communication from communication device (TKG) to service center (SZ) does not require making another communication contact, at that information content is requested in the first communication session (SI1) with the first notice (SN1) about service from service center (SZ), and is delivered from service center (SZ) in the second communication session (SI2) with at least one notice (SN2) about service.

EFFECT: reduction of power inputs and use of hardware resources.

18 cl, 5 dwg

FIELD: information technologies.

SUBSTANCE: system comprises subsystem of all-channel signaling processing, data base subsystem, services processing subsystem and operational maintenance subsystem, at that all subsystems are connected to communication network and accordingly realise information exchange; at that all-channel signaling processing subsystem performs function of OKC-7 processing; data base subsystem is used for storage of user data; services processing subsystem comprises one or more modules for processing of home location register services; operational maintenance subsystem comprises operational maintenance server, services acceptance terminal and close-range terminal of operational maintenance.

EFFECT: provision of possibility to service user of several types of networks via system of home location register.

5 cl, 2 dwg

FIELD: information technologies.

SUBSTANCE: in one version of realisation access network may assign group identifier (group ID) to every of pilot-signals associated with sector, for instance, on the basis of pilot-signals coverage areas, and transmit pilot-signals with appropriate group ID. PN shift may be used as group ID. Access terminal may group accepted pilot-signals in one or more pilot-signals group according to their group ID, and select representative pilot-signals from every group of pilot-signals for transmission of message about pilot-signal level. Access terminal may also use grouping of pilot-signals for efficient control of sets.

EFFECT: provision of efficient and reliable communication systems with multiple carriers.

32 cl, 13 dwg

FIELD: information technologies.

SUBSTANCE: wireless communication network comprises different base stations and subscriber stations. Every base station provides services of broadcasting content transfer to subscriber stations via communication channels of one of the following types: 1) common channel used by multiple subscriber stations, 2) individual channels, every of which is separated for use by separate subscriber station. In response to one or several preset changes of condition, i.e. change of number of subscriber stations that request the program, change of transmission power level used by base station, or in case of other change of network condition, communication channel type used for provisioning of broadcasting content to one or several subscriber stations is switched over.

EFFECT: delivery of broadcasting content with use of errors and individual channels combination, depending on whatever is more preferable in available circumstances.

5 cl, 28 dwg

FIELD: information technologies.

SUBSTANCE: one version of realisation comprises base station, which controls channel of speed indicator, decodes speed indicator channel with application of likelihood maximum decoder and determines availability of packet in speed indicator channel by comparison of probability to threshold, and analyses frame validity in packet-oriented channel on the basis of availability and content of packets accepted in speed indicator channel.

EFFECT: possibility to identify packets in speed indicator channel, high probability of good and bad frames identification in speed indicator channel and corresponding nonperiodical data transfer channel.

43 cl, 5 dwg

FIELD: information technologies.

SUBSTANCE: method and device are provided for provisioning of one or more communication services of point-point set type, such as multimedia service of broadcasting/multicasting (MBMS), to one or more mobile terminals, or subscriber devices (AA). When one or more mobile terminals are moved to new zone of mobile communication system controlled by other network component, after connection to service, information is transmitted between network elements by method.

EFFECT: facilitation of continuous service reception by mobile terminals that moved, preserving network resources and increasing efficiency of mobile communication system.

95 cl, 10 dwg

Up!