JP2008177650A - Radio communication system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a radio communication system achieving high-quality data transmission by correctly obtaining the position information of a receiver information processing terminal, and controlling the optimum radio wave transmission power and the radio waver emission direction from an antenna. <P>SOLUTION: The information processing terminal as an image transmitter uses a three-point method to detect and calculate the position of another information processing terminal, and stores position information as a result of calculation in a position detection information storing area 27a. When an image transmission request is made from an information processing terminal on an image receiver side, a transmission quality control section 28 calculates a transmission quality index such as a bit error rate or a packet error rate of the transmitted training data, and calculates transmission conditions optimum to communication from the calculated transmission quality index and the position information stored in the position detection information storing area 27a, and stores the result in a transmission condition storing section 29. In transmitting video information, a data transmitting radio section 14b is controlled so as to satisfy transmission conditions of the transmission condition storing section 29. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a stable data transmission technique using wireless communication, and more particularly to a technique effective for optimal data communication control between terminals in a wireless LAN (Local Area Network).

  In recent years, the penetration rate of wireless LANs centering on information processing devices such as personal computers has increased, and in the future, to digital consumer devices such as digital TVs and DVD (Digital Versatile Disc) / HDD (Hard Disc Drive) recorders. Is expected to spread.

  The wireless LAN technology installed in digital consumer devices requires in-home transmission of AV (Audio Visual) streams such as digital audio and high-definition video.

  In particular, in video transmission, since the transmission quality greatly affects television viewing (terrestrial digital broadcasting, Internet broadcasting, Video on Demand, etc.), it is indispensable to perform high-quality transmission without errors.

  In order to realize high-quality transmission, for example, avoiding radio wave interference is a major issue. In order to avoid this radio wave interference, it is necessary to optimally control the transmission direction of radio waves from the transmitting terminal to the receiving terminal, the radio wave intensity, and the like.

  According to the study of the present inventor, as a technique for optimally controlling the transmission direction of radio waves, the radio wave intensity, etc., the wireless LAN (IEEE 802.11) is used, and the radio wave reception state by three or more units by the so-called three-point method. It is possible to predict the position of the opposite terminal.

As a technique for realizing high-quality transmission in this type of wireless LAN, for example, a wireless communication device that transmits and receives data detects the presence of other AP devices around its own station, acquires direction information thereof, and detects it. In some cases, the maximum transmission capacity of the entire network system is increased by performing communication processing by assigning different inter-AP communication control units to other AP devices existing in the specified direction (see Patent Document 1).
JP 2005-323219 A

  However, the present inventors have found that the data transmission technology in the wireless LAN as described above has the following problems.

  That is, when the position of the terminal is predicted using the three-point method, there may be various obstacles such as walls depending on the installation position of the terminal, and a large error (for example, several meters or more) in the position accuracy may occur. In some cases, it is difficult to optimally control the transmission direction of radio waves, the radio wave intensity, and the like in a home environment.

  The object of the present invention is to significantly improve the tolerance of radio wave interference by accurately grasping the location information of each information processing terminal on the receiving side and controlling the optimal radio wave transmission power and the radio wave transmission direction from the antenna. And providing a technique capable of performing high-quality data transmission.

  The above and other objects and novel features of the present invention will be apparent from the description of this specification and the accompanying drawings.

  Of the inventions disclosed in the present application, the outline of typical ones will be briefly described as follows.

  The present invention is a wireless communication system that transmits and receives data between arbitrary information processing terminals by wireless communication, and the information processing terminal communicates with a data transmission wireless unit that transmits and receives data. A wireless communication control unit is provided that detects the position of the terminal and controls the intensity of the radio wave and the transmission direction based on the position information detected when transmitting the data, thereby optimizing the communication quality.

  Moreover, the outline | summary of the other invention of this application is shown briefly.

  According to the present invention, the wireless communication control unit detects data based on a terminal position detection unit that detects a position of another information processing terminal to communicate with, and position information of the other information processing terminal detected by the terminal position detection unit. And a communication control unit that controls the transmission condition to be optimal.

  In the present invention, the communication control unit stores a location information storage unit that stores location information detected by the terminal location detection unit, a transmission quality indicator calculation unit that transmits training data and calculates a transmission quality indicator, The communication quality calculation unit includes a communication condition calculation unit that calculates an optimal transmission condition for communication from the transmission quality index calculated by the transmission quality index calculation unit and the position information stored in the position information storage unit.

  Further, according to the present invention, the transmission quality index calculated by the transmission quality index calculation unit includes a bit error rate and a packet error rate during data transmission.

  In the present invention, the transmission condition calculated by the communication condition calculation unit includes a directivity adjustment value and a transmission power value at the time of data transmission.

  Furthermore, the present invention uses a UWB (Ultra Wide Band) communication method when the terminal position detection unit detects the position of another information processing terminal with which the terminal communicates.

  In the present invention, each of the data transmission radio unit and the position detection radio unit includes an independent antenna.

  Among the inventions disclosed in the present application, effects obtained by typical ones will be briefly described as follows.

  (1) When performing data transmission, it is possible to optimally set the intensity and angle of radio wave transmission according to the position of the information processing terminal, and data can be transmitted stably.

  (2) Further, according to the above (1), it is possible to reduce radio wave leakage and avoid radio wave interference with other wireless transmission systems.

  (3) Furthermore, since the radio wave intensity can be optimized according to the distance and the shielding object, power saving of the wireless transmission system can be realized.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. Note that components having the same function are denoted by the same reference symbols throughout the drawings for describing the embodiment, and the repetitive description thereof will be omitted.

  1 is an explanatory diagram showing a configuration example of a wireless transmission system according to an embodiment of the present invention, FIG. 2 is a block diagram showing a configuration example in an AV server provided in the wireless transmission system of FIG. FIG. 4 is a block diagram showing a configuration example of an information processing terminal that receives video information in the wireless transmission system of FIG. 1, and FIG. 4 is a configuration example of a wireless data transmission / position detection unit provided in the information processing terminal of FIG. FIG. 5 is an explanatory diagram showing a memory configuration example of an information processing terminal on the video transmission side in the wireless transmission system of FIG. 1, and FIG. 6 is an information processing on the video reception side in the wireless transmission system of FIG. FIG. 7 is an explanatory diagram showing an example of the memory configuration of the terminal, and FIG. 7 is an example of the position detection of the information processing terminal on the video transmission side in the wireless transmission system of FIG. To the flowchart, FIG. 8 is a flowchart showing an example of the position detection, and video transmission processing of the information processing terminal of the video receiving side in a wireless transmission system of FIG.

  In the present embodiment, the wireless transmission system 1 is a system that uses a transmission path using radio waves, and includes, for example, a home network configured using a wireless LAN (IEEE 802.11) technology.

  As shown in FIG. 1, a wireless transmission system 1 that is a wireless communication system includes an AV server 2, a video camera 3, a digital camera 4, a mobile information terminal 5 exemplified by a mobile phone, a personal computer 6, a printer 7, and It is composed of a plurality of information processing terminals such as a television 8. These information processing terminals communicate with each other by wireless data transmission.

  In the wireless transmission system 1, not only data transmission centered on the personal computer 6 but also AV stream transmission such as video and audio centering on the AV server 2 is performed in parallel with data communication.

  The AV server 2 can receive BS (Broadcasting Satellite) / CS (Communication Satellite), terrestrial waves, CATV (Community Antenna TeleVision), and connect to the Internet.

  FIG. 2 is a block diagram showing a configuration example in the AV server 2.

  The AV server 2 includes, for example, a set top box 2a and a storage 2b such as a DVD / HDD, and the storage 2b is connected to the set top box 2a.

  The set top box 2a includes tuners 9 and 10, an AV conversion unit 11, a video / audio codec 12, a demultiplexer 13, and a wireless data transmission / position detection unit 14.

  As a source of video content in the AV server 2 serving as a video transmission side terminal, for example, terrestrial waves received by the tuner 9, analog video information such as BS and composite signals, digital broadcasts received by a plurality of tuners 10, respectively, etc. There are video information and digital storage content stored in the storage 2b in advance.

  The wireless data transmission / position detection unit 14 functioning as a wireless communication control unit includes a control unit 14a, a data transmission wireless unit 14b, and a position detection wireless unit 14c. The control unit 14a performs control such as data transmission processing in the data transmission radio unit 14b and processing for detecting the position of another information processing terminal based on position detection data transmitted and received by the position detection radio unit 14c.

  An antenna ANT1 is connected to the data transmission radio unit 14b. The data transmission radio unit 14b transmits and receives data such as video via the antenna ANT1, for example, using IEEE802.11 defined as a standard specification of a wireless LAN by IEEE (Institut of Electronics and Electronics Engineers).

  An antenna ANT2 is connected to the position detection radio unit 14c. The position detection radio unit 14c serving as a terminal position detection unit detects the position of the information processing terminal using the UWB technology, for example, via the antenna ANT2.

  Each of these antennas ANT1 and ANT2 is configured by one or a plurality (diversity, MIMO (Multiple Input Multiple Output, etc.)).

  In the case where analog content is transmitted wirelessly in the AV server 2, the AV converter 11 performs processing for preventing image degradation, processing for separating audio / video, and the like, and then sends the processed signal to the video / audio codec 12. An arbitrary digital compression process (for example, MPEG (Moving Picture Experts Group) 2, H.264, and content protection process) is performed. Subsequently, the digitally compressed data is output to the wireless data transmission / position detection unit 14 and the video is output wirelessly.

  Further, when transmitting data received by digital broadcasting, transmission video information is taken out through the demultiplexer 13 for selecting necessary channel information because predetermined video compression processing has already been applied. Thereafter, the data is input to the wireless data transmission / position detection unit 14 and the video is output wirelessly.

  Further, when digital storage information is transmitted, since it is normally stored in a compressed state, this information is subjected to processing such as content protection, and then input to the wireless data transmission / position detection unit 14. Video is output wirelessly.

  2 shows the configuration when the AV server 2 functions as a video transmission side terminal, the video transmission side terminal may be other than the AV server 2, for example, portable information that can be a video transmission side terminal. It is assumed that the terminal 5 and the personal computer 6 have the same configuration.

  FIG. 3 is a block diagram showing a configuration example of a video receiving side information terminal on the video receiving side such as the television 8.

  As illustrated, the television 8 includes a video / audio codec 15, an AV conversion unit 16, a high-detail image processing unit 17, a wireless data transmission / position detection unit 18, and a monitor 19.

  The video information received by the wireless data transmission / position detection unit 18 functioning as a wireless communication control unit is converted from a wireless packet to a video packet by the wireless data transmission / position detection unit 18 and decrypted for content protection. Is called. Thereafter, the video / audio codec 15 performs a decoding process.

  At this time, if the current data is analog quality, the composite signal is output through the AV converter 16 and the video is output to the television 8. In addition, when the current data is digital high quality, a high definition signal (such as a High Definition Multimedia Interface (HDMI) signal) is output through the high definition image processing unit 17 and a video is output to the television 8.

  The wireless data transmission / position detection unit 18 has the same configuration as the wireless data transmission / position detection unit 14 in FIG. 2, and includes a control unit 18a, a data transmission wireless unit 18b, a position detection wireless unit 18c, and an antenna. It consists of ANT3 and ANT4.

  FIG. 4 is a block diagram illustrating a configuration example of the wireless data transmission / position detection unit 14 (, 18).

  In the wireless data transmission / position detection unit 14 (, 18), the control unit 14a includes a host interface 20, a video data interface 21, a host command / data processing unit 22, a wireless protocol control unit 23, a carrier sense control unit 24, a video / The data transmission control unit 25, position detection control unit 26, memory 27, transmission quality (QoS) control unit 28, and transmission condition storage unit 29 are configured.

  The host interface 20 is connected to the AV conversion unit 11 and is an interface that performs data / command communication with the AV conversion unit 11. The video data interface 21 is an interface to which the storage 2b is connected and exchanges video data from the storage 2b.

  A host interface 20, a video data interface 21, and a wireless protocol control unit 23 are connected to the host command / data processing unit 22. The host command / data processing unit 22 controls transmission request processing, reception request processing, channel change request processing, and the like based on data / commands from the host interface 20.

  The wireless protocol control unit 23 controls the entire wireless connection based on the control information of the host command / data processing unit 22. A carrier sense control unit 24, a video / data transmission control unit 25, a position detection control unit 26, a memory 27, a transmission quality control unit 28, and a transmission condition storage unit 29 are connected to the wireless protocol control unit 23, respectively.

  The carrier sense control unit 24 searches for a connection destination communication terminal as a control target of the radio protocol control unit 23, and controls the data transmission radio unit 14b and the position detection radio unit 14c. Usually, terminals for data transmission are subjected to carrier sense, identification of whether or not communication is possible, connection destination identification by normal communication, and connection destination identification by a position detection radio unit. The carrier sense control unit 24 is connected to the data transmission radio unit 14b and the position detection radio unit 14c.

  The video / data transmission control unit 25 performs communication control for transmitting video and data. The video / data transmission control unit 25 is connected to a position detection radio unit 14c. The position detection control unit 26 serving as a terminal position detection unit searches for connection destination position information. The position detection control unit 26 is connected to a position detection radio unit 14c.

  The memory 27 includes a position detection information storage area 27a, a transmission quality information storage area 27b, and a video transmission / position detection program storage area 27c. The position detection information storage area 27a is a storage area for storing the position detection information detected by the position detection control unit 26. The position detection information includes, for example, a distance to the connection destination terminal, an angle, and a height difference.

  The transmission quality information storage area 27b stores transmission quality information, which will be described later, calculated by the transmission quality control unit 28 in a database. The video transmission / position detection program storage area 27c is an area for storing a program, control software, data, work area, and the like necessary for video transmission and position detection.

  5 and 6 are explanatory diagrams showing examples of the memory configuration of each information processing terminal memory 27. FIG.

  FIG. 5 is a diagram illustrating a memory configuration of the memory 27 provided in the information processing terminal that performs video transmission.

  In this case, the position detection information storage area 27a is an area for storing position information of an information processing terminal on the video receiving side, and the transmission quality information storage area 27b is an area for storing transmission quality information in a database. Become.

  The video transmission / position detection program storage area 27c includes a video transmission program used for video transmission of the data transmission wireless unit 14b, a position detection program for detecting the position of the information processing terminal on the video reception side, a shared buffer area, The video transmission program work area is used as a work area when the video transmission program is executed, and the position detection program work area is used when the position detection program is executed.

  FIG. 6 is a diagram illustrating a memory configuration of the memory 27 provided in the information processing terminal that performs video reception.

  In this case, the memory configurations of the transmission quality information storage area 27b and the video transmission / position detection program storage area 27c are the same as those in FIG. 5, except that the position detection information storage area 27a has information processing on the video transmission side. This is an area for storing the position information of the terminal and the position information of the information processing terminal on the video receiving side.

  In the memory 27 of the information processing terminal that performs video reception, not only the position information of the information processing terminal on the video transmission side but also the position information of the information processing terminal on the video reception side is stored by the information processing terminal. This is because it is assumed to operate as an information processing terminal on the side.

  In FIG. 4, a transmission quality control unit 28 that functions as a communication control unit and functions as a transmission quality index calculation unit and a communication condition calculation unit optimizes transmission quality based on position detection information. A video / data transmission control unit 25, a position detection control unit 26, a memory 27, and a transmission condition storage unit 29 are connected to the transmission quality control unit 28, respectively.

  The transmission condition storage unit 29 stores the optimal transmission conditions for each connection partner accompanying the position detection information calculated by the transmission quality control unit 28. The transmission conditions stored in the transmission condition storage unit 29 include, for example, a directivity adjustment value and a transmission power value.

  Next, the operation of the wireless data transmission / position detection unit 14 (, 18) in the present embodiment will be described.

  First, the transmission quality control unit 28 of the control unit 14a searches for position information (distance to the other party, direction) of the connection destination using the position detection radio unit 14c, and based on the information, the antenna directivity, and Adjust transmit power.

  Subsequently, the training data is actually transmitted using the video / data transmission control unit 25, and a transmission quality index such as a bit error rate and a packet error rate at that time is made into a database. Based on the initial position information, the transmission conditions are changed several times and training trials are performed to detect optimal communication conditions.

  Then, the obtained optimum condition is stored in the position detection information storage area 27a of the memory 27 together with the position detection information. These pieces of information are always updated via the position detection radio unit 14c.

  Further, when communication is performed based on position information, there may be a case where there is an obstacle between the partner connection station and transmission quality cannot be ensured well. In this case, based on the transmission quality information stored in the transmission quality information storage area 27b, the transmission quality information is notified to the system side via the host interface to notify the user.

  FIG. 7 is a flowchart showing a processing example of position detection and video transmission by the wireless data transmission / position detection unit 14 in the information transmission terminal on the video transmission side.

  First, when the information processing terminal on the video transmission side is turned on (step S101), initial setting of the information processing terminal is performed. Thereafter, the position detection program is activated to identify the information processing terminal on the video receiving side (step S102), and the position detection radio unit 14c enters the carrier sense state (step S103). At this time, the video transmission radio unit 14b similarly enters the normal carrier sense state, and performs carrier sense of other video transmission terminals.

  Subsequently, the position detection radio unit 14c transmits a position detection request, searches for the presence / absence of another information processing terminal (step S104), and if there is no other information processing terminal, the carrier sense state which is the process of step S103. To maintain.

  In the process of step S104, if there is another information processing terminal, an information processing terminal capable of communication is specified (step S105). Subsequently, the position detection control unit 26 selects any two information processing terminals from a plurality of information processing terminals capable of communication, and receives clock synchronization information and data communication information (at the time of carrier sense) obtained by the position detection program. Position detection calculation based on the so-called three-point method (step S106), and the detected position information of each information processing terminal is stored in the position detection information in the memory 27. Store in the area 27a (step S107).

  Thereafter, the position detection information transmitted from each information processing terminal on the receiving side is stored in the position detection information storage area 27a of the memory 27 (step S108). As the position information in the process of step S108, information obtained by the process of step S207 in FIG. 8 to be described later is transmitted from each information processing terminal on the receiving side.

  When there are three or more information processing terminals that can communicate (step S109), two information processing terminals including one selected in the process of step S106 and any one newly selected are selected, and the same The position is detected by the processing, and the detected information is stored in the position detection information storage area 27a (step S110).

  The processing of these steps S109 and S110 is repeated to detect the positions of all information processing terminals on the video receiving side, and the detected information is stored in the position detection information storage area 27a (step S111).

  Subsequently, when a video transmission request is generated from the information processing terminal on the video receiving side (step S112), the position detection control unit 26 specifies the corresponding information processing terminal on the video receiving side. Thereafter, the transmission quality control unit 28 actually transmits the training data using the video / data transmission control unit 25, calculates a transmission quality index such as a bit error rate and a packet error rate at that time (step S113), The data is stored in the transmission quality information storage area 27b of the memory 27.

  Subsequently, the transmission quality control unit 28 calculates a transmission condition optimal for communication from the calculated transmission quality index and the position information stored in the position detection information storage area 27a (step S114), and the result is transmitted to the transmission condition. Store in the storage unit 29.

  Then, transmission of video information is started (step S115). At this time, the wireless protocol control unit 23 controls the data transmission wireless unit 14b via the video / data transmission control unit 25 so that the transmission conditions stored in the transmission condition storage unit 29 are satisfied.

  In addition, since the information processing terminal on the video receiving side may move around in the home, the location information is constantly monitored until the video transmission is completed, and the information processing terminal on the video receiving side moves. Each time, position detection and calculation are performed to update the position information in the position detection information storage area 27a in the memory 27 of the information transmission terminal on the video transmission side (step S116).

  When the video transmission ends (step S117), the position detection control unit 26 searches whether there is a receiving side information processing terminal whose position is not detected (step S118), and the information processing terminal whose position is not detected If there is, the process from step S110 is executed.

  If there is no information processing terminal whose position is not detected in the process of step S118, the process from step S112 is executed.

  FIG. 8 is a flowchart showing a processing example of position detection and video transmission by the wireless data transmission / position detection unit 14 in the information processing terminal on the video receiving side.

  First, the video receiving side information processing terminal is turned on (step S201), and when the initial setting is completed, the position detection program stored in the video transmission / position detection program storage area 27c of the memory 27 is activated (step S202). ), The position detecting radio unit 14c enters the carrier sense state, and enters the beacon sending state notifying that radio wave transmission is possible (step S203).

  Until the position detection request is transmitted from the video transmission side information processing terminal, the carrier sense and the beacon transmission state are maintained (step S204). When there is a request (step S205), the position detection control unit 26 The position detection calculation is executed between the information processing terminal and the other video receiving side information processing terminal (step S206).

  Then, the position information of the video transmission side information processing terminal viewed from the video reception side information processing terminal and the position information of other video reception side information processing terminals other than the own station are stored in the position detection information storage area 27a of the memory 27. (Step S207). The position detection information obtained by the process of step S207 is transmitted to the video transmission side information processing terminal.

  Subsequently, when a video reception start request is generated from the video receiving side information processing terminal (step S208), the position detection control unit 26 reads the position information of the corresponding video transmitting side information processing terminal from the memory 27, and Based on the transmission quality information corresponding to the position information read from the memory 27, the radio wave transmission direction and the radio wave intensity corresponding to the distance are set (step S209), and the radio link is established (step S210).

  Thereafter, the wireless protocol control unit 23 issues a video information transmission start command to the video transmission side information processing terminal, and video reception is started (step S211). In addition, since the information processing terminal on the video receiving side may move in the home, etc., the position information is constantly monitored with the information processing terminal on the video transmitting side until the video reception ends, and the video receiving terminal moves. If so, position detection and calculation are performed each time, and the position information in the memory area of the video receiving terminal is updated (step S212).

  Then, the processes in steps S211 and S212 are performed until the video reception is completed (step S213). When the video reception is completed (step S213), the processes from step S203 are performed.

  Thus, according to the present embodiment, it is possible to optimally set the intensity and angle of radio wave transmission according to the position of the information processing terminal on the video transmission side and the information processing terminals on the plurality of video reception sides. Thus, video and other data can be stably communicated.

  In addition, since the transmission direction of radio waves and the radio wave intensity can be optimized, it is possible to reduce radio wave leakage and avoid radio wave interference with other wireless transmission systems.

  Further, since the radio wave intensity is optimized according to the distance and the shielding object, power saving of the wireless transmission system 1 can be realized.

  As mentioned above, the invention made by the present inventor has been specifically described based on the embodiment. However, the present invention is not limited to the embodiment, and various modifications can be made without departing from the scope of the invention. Needless to say.

  The present invention is suitable for optimal radio transmission power and data transmission direction control technology at the time of data transmission by the wireless LAN.

It is explanatory drawing which shows the structural example of the wireless transmission system by one embodiment of this invention. FIG. 2 is a block diagram illustrating a configuration example of an AV server provided in the wireless transmission system of FIG. 1. FIG. 2 is a block diagram illustrating a configuration example of an information processing terminal that receives video information in the wireless transmission system of FIG. 1. FIG. 2 is a block diagram illustrating a configuration example of a wireless data transmission / position detection unit provided in the information processing terminal of FIG. 1. FIG. 2 is an explanatory diagram showing a memory configuration example of an information processing terminal on the video transmission side in the wireless transmission system of FIG. 1. FIG. 2 is an explanatory diagram showing a memory configuration example of an information processing terminal on the video reception side in the wireless transmission system of FIG. 1. 3 is a flowchart illustrating an example of position detection and video transmission processing of an information processing terminal on the video transmission side in the wireless transmission system of FIG. 1. 2 is a flowchart illustrating an example of position detection and video transmission processing of an information processing terminal on the video reception side in the wireless transmission system of FIG. 1.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Wireless transmission system 2 AV server 2a Set top box 2b Storage 3 Video camera 4 Digital camera 5 Personal digital assistant 6 Personal computer 7 Printer 8 Television 9, 10 Tuner 11 AV converter 12 Video / audio codec 13 Demultiplexer 14 Wireless data transmission / Position detection unit 14a control unit 14b wireless unit for data transmission 14c wireless unit for position detection 15 video / audio codec 16 AV conversion unit 17 high-detail image processing unit 18 wireless data transmission / position detection unit 18a control unit 18b wireless for data transmission Unit 18c position detection radio unit 19 monitor 20 host interface 21 video data interface 22 host command / data processing unit 23 wireless protocol control unit 24 carrier sense control unit 25 video / data transmission control unit 26 position Out control unit 27 memory 27a position detection information storage area 27b transmits quality information storage area 27c video transmission / position detection program storage area 28 transmission quality control section 29 transmits condition storage unit ANT1 antenna ANT2 antenna ANT3 antenna ANT4 antenna

Claims (7)

A wireless communication system that transmits and receives data between any information processing terminals by wireless communication,
The information processing terminal
A data transmission radio unit for transmitting and receiving data; and
A wireless communication control unit that detects the position of another information processing terminal that communicates and controls the intensity and transmission direction of radio waves based on position information detected when data is transmitted to optimize communication quality A wireless communication system characterized by the above. The wireless communication system according to claim 1, wherein
The wireless communication control unit
A terminal position detection unit that detects the position of another information processing terminal that communicates;
Wireless communication comprising: a communication control unit that controls the transmission conditions when transmitting data to be optimal based on position information of the other information processing terminal detected by the terminal position detection unit system. The wireless communication system according to claim 2, wherein
The communication control unit
A location information storage unit that stores location information detected by the terminal location detection unit;
A transmission quality index calculation unit for transmitting the training data and calculating the transmission quality index;
A wireless communication system comprising: a communication condition calculation unit that calculates an optimal transmission condition for communication from the transmission quality index calculated by the transmission quality index calculation unit and the position information stored in the position information storage unit system. The wireless communication system according to claim 3,
The transmission quality index calculated by the transmission quality index calculation unit is:
A wireless communication system comprising a bit error rate and a packet error rate during data transmission. In the radio | wireless communications system of any one of Claims 2-4,
The transmission condition calculated by the communication condition calculation unit is:
A wireless communication system comprising a directivity adjustment value and a transmission power value at the time of data transmission. In the radio | wireless communications system of any one of Claims 2-5,
The terminal position detector
A wireless communication system using a UWB communication method when detecting the position of another information processing terminal to communicate. The radio communication system according to any one of claims 2 to 6,
The wireless communication system, wherein the data transmission wireless unit and the position detection wireless unit each include an independent antenna.

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