JPH07336370A - Communication controller and communication controlling method - Google Patents

Abstract

PURPOSE:To enable the communication between information equipments only if information equipments are brought by transmitting and receiving communication terminal discrimination information and defining the communicable communication terminals discriminated based on received communication terminal discrimination information as the same group. CONSTITUTION:The communication terminal discrimination information generation part 11 of a communication control part 102 generates communication terminal discrimination information and periodically transmits the information from an antenna 31 via a radio transmission/reception part 103. The communicable terminal discrimination part 14 of the radio transmission/reception part 103 discriminates communicable communication terminals by the communication terminal discrimination information which is received by an antenna 31 and is transmitted from other communication terminal. A group setting part 13 sets the discriminated communicable communication terminals as the same group and a destination header part 12 performs communication with the only other communication terminals within the set same group. Therefore, only if communication terminals approach with each other, communication becomes possible, and a logical communication link with a desired opposite party can be extremely easily set anywhere.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a communication control device and a communication control method for information communication equipment.

[0002]

2. Description of the Related Art As a method for realizing mutual communication between a large number of terminals having a communication function, it is general to install an exchange control station for controlling connection.

For example, a mobile phone is provided with a large number of base stations covering a certain area, and subscribers communicate with each other through the base stations. In order to make a communication connection in response to a communication connection request from a user, it is necessary to know in advance what the communication terminal of the other party to which the base station connects.

That is, the terminal needs to be pre-registered and cannot be connected to an unspecified number of parties. In addition, since it is necessary to install a base station in each fixed area, its application is limited to large-scale communication services such as car phone billing.

TCP / TCP is a method for relatively easily realizing mutual communication between a large number of terminals without being charged.
There is a wireless LAN using the IP protocol.

This wireless LAN is several 100 kHz-10.
When having a bandwidth of MHz and wishing to perform communication, packet signals are transmitted in burst after confirming that there is no radio wave. A communication terminal within the reach of a radio wave takes in the signal when the identification number addressed to itself is given from the received signal.

In other words, in this method, the communication terminal which performs transmission needs to know in advance the identification number of the communication terminal of the receiving party. In addition, many wireless LANs also use simple base stations, and communication terminals can freely move only within the range in which the radio waves from the base stations can reach, making communication connections with an unspecified number of other parties at any place. It is not possible.

Further, the information equipment having a built-in CPU (Central Processing Unit) is becoming more personalized and downsized like a personal computer and a personal portable information equipment.

When transmitting the contents of the text created by these portable information devices and personal computers to other people,
It is common to print on paper and hand it over.

However, once the information is printed on paper and transmitted, the recipient needs to manually re-input the entire text from the keyboard in order to reuse the content in his or her own information device. Could not be reused.

In particular, when the content transmitted on paper is a complicated picture, it is practically impossible to reuse it.

Therefore, the portable information equipment has been mainly used so far as an aid for personal work.

Further, as a result of the progress in personalization of personal portable information devices as described above, in order to enable not only these devices to be used alone but also to receive data from other information devices, communication is performed. Those with added functions came to be invented. These are mainly intended to enable data transfer between a host computer connected to a wired LAN installed in a company or the like and a portable information device.

That is, by connecting the personal information terminal to the mobile phone, the personal computer is connected to the host computer via the public telephone line so that the electronic mail addressed to the user can be read at any place outside. In this case, the use place of the portable information device is not limited, but the connectable partner is limited to a known partner capable of connecting from the public network such as one's own host computer.

On the other hand, in the situation where many people have portable information devices, a function capable of transferring electronically created information is required between them.

In addition, the procedure for communication connection between these portable information devices is required to be as simple as possible without any procedure, and it is desirable that communication connection can be made with an unspecified number of parties.

For example, when a salesperson holds a portable information device in which sales information is stored and explains sales promotion to a customer, even the name of the customer is often unknown. In most cases, there is no way to know in advance the device identification number of the portable information device owned by the customer.

There is a demand for a technique capable of easily setting communication with such portable information devices owned by a large number of unspecified parties. Further, the information handled therein is not limited to text, and it is desirable that various multimedia information such as screen information corresponding to bitmaps and band-compressed moving images can be handled. Further, the number of people who exchange information at the same time is not limited to one person, and it is desirable that information can be exchanged with a plurality of people at the same time.

As a portable information device having a communication function, a method is known in which infrared rays can be used for mutual communication, but this method can be performed only between two portable information devices, and It is necessary to install the transmitter of one mobile information device and the receiver of the other mobile information device so as to face each other. Further, if there is a shield between portable information devices that are a little distant from each other, communication cannot be performed, making it extremely difficult to use. Furthermore, the information transmission speed that can be transmitted is low, and in practice, the information that can be transmitted is limited to text documents and the like.

[0020]

As described above, in order to perform communication between conventional portable information devices, it is necessary to register the device identification number of the communication partner in advance, so that the connectable partner is limited. There are problems such as limited use place, relatively complicated connection procedure, low information transmission speed and inability to handle various media, and inability to exchange information between multiple people at the same time. there were.

The present invention has been made in view of this point,
An object of the present invention is to provide a communication control device and a communication control method that enable communication between a plurality of portable information devices simply by bringing the portable information device at an arbitrary place.

[0022]

A communication control device of the present invention includes a communication terminal identification information transmitting means for transmitting communication terminal identification information for identifying its own communication terminal, and a communication terminal identification from another communication terminal. Communication terminal identification information receiving means for receiving information, communicable terminal identifying means for identifying a communicable communication terminal based on the communication terminal identification information received by the communication terminal identification information receiving means, and this communicable terminal identifying means Group setting means for setting one or a plurality of communication terminals, which are communicable with each other, identified by the above, as the same group, and information is transmitted to the communication terminals within the same group set by this group setting means. And information transmission means.

[0023]

[Operation] The communication control device having the above configuration will be described.

The communication terminal identification information transmitting means transmits communication terminal identification information for identifying its own communication terminal. That is, the identification information unique to its own communication terminal is transmitted, for example, periodically.

The communication terminal identification information receiving means receives communication terminal identification information from another communication terminal.

The communicable terminal identifying means identifies a communicable communication terminal based on the communication terminal identification information received by the communication terminal identification information receiving means. For example, when the information devices are located apart from each other, the above communication terminal identification information is not received, and when the information devices are close to each other, the communication device identification information is received and it is determined that communication is possible.

The group setting means sets one or a plurality of communication terminals among the communicable communication terminals identified by the communicable terminal identifying means as the same group. As a result, it is possible to prevent a communication connection from being made to a partner who is near but does not want to communicate, contrary to the intention of the user. In addition, even when there are two or more groups nearby, communication can be performed in an independent form. In addition,
Whether or not they are in the same group is displayed after displaying the identification information of the communication terminal or any information accompanying it, such as the user name of the information device, on its own information device after it is determined that communication is possible. It can be set by the user selecting from the communication terminal information.

The information transmitting means transmits information to the communication terminals within the same group set by the group setting means.

[0029]

【Example】

(First Embodiment) A communication control device 100 according to a first embodiment of the present invention will be described below with reference to the drawings. The communication control device 100 is intended for use in a portable information device.

FIG. 1 is a block diagram of the communication control device 100. The communication control device 100 includes a user information processing unit 10
1, a communication control unit 102, and a wireless transmission / reception unit 103.

The user information processing section 101 is a section for executing a so-called application, and the communication control section 102.
Is a part that performs communication control, and is the wireless transmission / reception unit 103.
Is a unit that performs various processes for wirelessly transmitting and receiving various control information generated by the communication control unit 102 and transmission information generated by the user information processing unit 101.

The transmission / reception state of the communication control device 100 will be described below.

The communication terminal identification information generator 11 periodically generates its own communication terminal identification signal. This communication terminal identification signal is sent to the control channel modulator 21.

The transmitting user information is the user information processing unit 10.
1 is input to the destination header generation unit 12. Group designation information designating a group to which the transmission user information is transmitted is simultaneously input from the user information processing unit 101 to the group setting unit 13.

The group setting section 13 outputs the identification information of the partner communication terminal belonging to the group to the destination header generation section 12 based on the received group designation information.

The destination header generation unit 12 adds the identification information of the partner communication terminal to the transmission user information as a destination header,
It is output to the information channel modulator 22.

The information channel for transmitting the information signal and the control channel for transmitting the control signal are separated by, for example, frequency division. Then, the information channel modulator 22 and the control channel modulator 21 perform modulation according to each channel.

The signals output from the information channel modulation section 22 and the control channel modulation section 21 are multiplexed by the multiplexing circuit 23, frequency-converted into a high frequency by the frequency multiplication section 24, and amplified to an appropriate power by the power amplifier 25. After being
It is transmitted from the antenna 31 via the demultiplexer 30 in a broadcast manner.

On the other hand, various information signals received from the antenna 31 from other stations are converted from the high frequency to the base band band by the down-converting unit 26 via the demultiplexer 30 and then separated by the separation circuit 27. , And is guided to the control channel demodulation unit 28 and the information channel demodulation unit 29, and demodulated into reception control information and reception user information, respectively.

With respect to the received user information signal output from the information channel demodulation unit 29, the destination header added to the user information is inspected by the destination header identification unit 17, and whether or not the received user information is addressed to its own station. Are identified. When addressed to its own station, the received user information is received by the user information processing unit 10
Output to 1 and discard if not addressed to its own station.

As described above, the communication terminal identification number of the own station is transmitted and the user information is transmitted / received between the communication terminals having the group setting.

Group setting is performed as follows.

As described above, the communication terminal identification information generator 1
The communication terminal identification signal generated from No. 1 is periodically transmitted from the antenna 31 via the wireless transmission / reception unit 103.

On the other hand, the communication terminal identification information transmitted from another communication terminal is converted into a baseband signal via the antenna 31, the demultiplexer 30, and the reduction unit 26. afterwards,
The control circuit signal is separated by the separation circuit 27 and is guided to the control channel demodulation unit 28.

From the control channel demodulation unit 28, the communication terminal identification information obtained by performing the predetermined demodulation is output to the communicable terminal identification unit 14.

The communicable terminal identifying unit 14 can communicate with this communication terminal when the received control information includes the communication terminal identifying information and this signal is repeatedly received within a certain period of time. It is determined that there is, and the communication terminal identification information is output to the comparison circuit 16 and the communicable terminal storage unit 15.

The comparison circuit 16 includes a communicable terminal identifying unit 14
The communication terminal identification information stored in the communicable terminal storage unit 15 is compared with the signal input from the communication terminal, and a control signal is output to the communicable terminal storage unit 15 according to the comparison result.
If the comparison results match, the communicable terminal storage unit 1
Since it is not necessary to rewrite the contents of 5, the control signal is not output from the comparison circuit 16 to the communicable terminal storage unit 15. On the other hand, when the comparison result does not match, the control signal is output so as to update the content of the communicable terminal storage unit 15.

As described above, when the portable information device equipped with the communication control device 100 comes close to and the radio waves transmitted to each other are received with the electric field strength above a certain level,
The communication terminal identification information transmitted periodically is received, and the communication terminal identification information is newly added to the communicable terminal storage unit 15.

The contents of the communicable terminal storage unit 15 are also guided to the user information processing unit 101 and the group setting unit 13.

The user information processing unit 101 selects one or a plurality of partners with whom communication is desired from the communicable terminals indicated by the communicable terminal storage unit 15, and sends a setting command signal to the group setting unit 13. Output.

The group setting unit 13 creates and holds a correspondence table between the communication terminal identification information indicated by the communicable terminal storage unit 15 and the group to be set according to the setting command signal.

In this way, a logical communication link is established between the communication terminals belonging to the group. Note that, here, the logical communication link is a communication terminal that can communicate with each other, and the communication terminals that want to communicate are set to one group, and the communication terminals in this group are set to the user. Refers to connecting to a state in which communication is possible without any special operation or processing.

A plurality of groups may be set, or a certain communicable terminal may be registered in a plurality of groups.

For example, in the communicable terminal storage unit 15, A1,
When the identification information of the five communication terminals A2, A3, A4, A5 is stored, the user information processing unit 101
Can register A1, A2, A3 as a group B1 and A1, A4 as a group B2. When the user information processing unit 101 transmits data, as described above, the transmission user information is output to the destination header generation unit 12, and the group B1 or B2 indicating the transmission partner is output to the group setting unit 13. The user information is broadcasted only to the portable information devices belonging to the group. It should be noted that the method of transmitting the broadcast will be described later.

After the portable information device equipped with the communication control device 100 comes close and the communication terminal identification information is stored in the communicable terminal storage unit 15, the radio waves that can be mutually received by moving away from each other are generated again. When the electric field strength is below a certain level,
The communication terminal identification information that has been regularly received is no longer received. The control operation in this case will be described.

The communicable terminal identification unit 14 has a function of identifying the communication terminal identification information from the received control information, and the communication terminal identification information stored in the communicable terminal storage unit 15 has a constant frequency. It also determines whether it is pending and received.

For example, if no communication terminal identification information is received for a certain period of time, it is determined that the portable information device cannot communicate, and the communication terminal identification information is output to the communicable terminal storage unit 15, The communication terminal identification information is removed from the communicable terminal storage unit 15.

Since the user information processing unit 101 receives the communication terminal identification information stored in the communicable terminal storage unit 15, it can detect that communication is no longer possible.

As described above, the portable information device equipped with the communication control device 100 has the following effects.

The portable information devices can communicate with each other only by coming close to each other, and a logical communication link can be established with a desired partner anywhere. Further, the set communication link automatically disappears when the portable information device goes away and communication becomes impossible.

Since the mobile information devices can set a communication link with a desired other party only by bringing them close to each other, it is not necessary to set the address number of the other party in advance, and the communication link can be easily set with the first meeting person.

Since broadcast communication can be performed with a plurality of communication terminals,
Provides simultaneous connection service with multiple terminals.

The electric field strength of the radio wave is 6 at a distance near the antenna.
Although it is attenuated by the power of three and the distance is slightly attenuated by the cube of the distance, the communication control device 100 according to the present invention only needs to operate when approaching, and thus high-speed data transmission is possible.

For example, the current wireless LAN has a radius of 200 m.
Although it covers a certain area, the present invention has a radius of 10 to 2
The objective can be achieved sufficiently with 0 m. When transmitting with the same power, comparing with a radius of 20 m, according to the present invention, (200/2
0) ** 3 = Although it can be transmitted at a transmission rate of 1000 times, it can be received with almost the same bit error rate. On the contrary, when transmitting at the same transmission rate, the transmission power can be reduced by 30 dB, so that the battery can be downsized.

Radio wave interference with other systems can be significantly reduced.

As described above, according to the present invention, it is possible to provide a communication service that can obtain various special effects.

In implementing the present invention, various functions can be added.

In the communication control device 100, the communication terminal within the range of the radio wave is identified as a communicable terminal. When the reach of radio waves increases, the transmission throughput decreases because the wireless communication medium is shared with other groups.

FIG. 3 shows an example of use of a portable information device equipped with this communication control device 100.

Communication terminals C1, C2, C are included in the group D1.
3 belongs, and the communication terminals C4 and C5 belong to the group D2. Although completely different communication links are set for the groups D1 and D2, if the groups D1 and D2 are within a range where radio waves can reach each other, the five wireless communication media share the same wireless communication medium. On the other hand, if the groups D1 and D2 are out of reach of each other, radio communication media can be dedicated to each group.

Next, the procedure for transmitting data in a broadcast manner will be described in more detail.

In wired communication, even if the same contents are transmitted, it is necessary to transmit a plurality of times in order to transmit them to a plurality of parties. For example, although some facsimile machines have a broadcast function, even in this case, data is not transmitted in a broadcast manner on the transmission path, but is sequentially transmitted to a plurality of parties. Nothing more than. That is,
In order to transmit to N places, it is necessary to transmit N times.
In wireless communication, since radio waves arrive in a broadcast manner, the number of transmissions can be reduced by devising a destination header added to the transmission signal.

In FIG. 3, the terminal C is included in the group D1.
1, C2, C3 belong. At this time, the group setting unit 13 of the terminal C1 is set to group C2 and C3.

Similarly, in the group setting section 13 of the terminal C2, the setting of grouping C1 and C3 is performed again.
The group setting unit 13 of No. 3 is set to have C1 and C2 as a group.

Data transmission between the terminals C1, C2 and C3 is performed as follows. FIG. 4 shows a transmission data format.

A packet header indicating the beginning of the packet is added to the beginning of the packet. There are various methods of identifying the packet header, but a special bit pattern is assigned to the packet header, and when the same pattern appears in a portion other than the packet header, an extra dummy bit is inserted into the HDLC procedure recommended by CCITT. Is known.

The packet header is followed by a control signal part and an information bit part, and finally C for error detection.
The RC bit is attached.

The control signal section is further divided into a packet length instruction section, a destination header length instruction section, and a single or a plurality of destination headers. The packet length indicator indicates the total length of this packet. The destination header length instruction section indicates the number of parties to which this packet is broadcasted, and this signal allows the receiving terminal to recognize the boundary between the destination header and the information bit section. Communication terminal identification information of the transmission partner is written in the destination header part.

In the group D1 of FIG. 3, when the terminal C1 transmits, the destination header generation unit 12 follows the packet header, according to the instruction from the group setting unit 13.
A control signal section and CRC are added. Since the destination header generation unit 12 broadcasts to two stations, 2 is written in the destination header length instruction unit and the terminal C
2 and the communication terminal identification information of the terminal C3 are written in the destination headers.

Next, the operation of the destination header identifying section 17 of the terminal C2 or C3 will be described in detail. Destination header identification unit 17
When detecting the packet header from the received signal, reads the signal of the packet length instruction unit and the signal of the destination header length instruction unit that follow.

Next, the signal of the destination header section identified by the destination header length instruction section is compared with the own station terminal identification number,
When the destination header section includes the terminal identification number of the own station, the received signal of the length indicated by the packet length instruction section is taken out. Next, a reception error check by CRC is performed, and the reception signal is output to the user information processing unit together with the determination result.

The CRC determines whether or not there is an error contained in the received signal. When an error is detected, the data can be transmitted and received with high reliability by requesting the retransmission of the data. It may be omitted if the degree is not required.

Thus, only by sending one packet from the terminal C1, the data is transmitted to the plurality of terminals C2 and C3 in a broadcast manner.

In the above example, the terminal identification information of each terminal is used as the destination header signal when transmitting data in a broadcast manner. However, after the group D1 is set, the terminal C
A group number may be appropriately set and shared between 1, C2 and C3, and the destination header generation unit 12 may write this group number in the destination header. In this case, the destination header length instruction part of FIG. 4 can be omitted. Further, in this case, the destination header identifying unit 17 identifies and detects the group number.

In any case, by adding terminal identification numbers or group identification numbers of a plurality of parties as destination headers to the transmission data, it is possible to broadcast a signal to a plurality of parties by one transmission, and the wireless line Can be effectively used, and as a result, data can be transmitted smoothly and a user-friendly service can be provided. This effect is particularly remarkable when the data to be transmitted is a large-capacity signal such as an image signal.

By the way, once the group is set and the logical communication link is set, it is desirable to reduce the transmission power as much as possible within the range where communication with the communication terminals belonging to the group is possible.

Further, when the communication terminal in a call moves a little and it becomes difficult for the radio wave to reach, the communication power can be prevented from being cut off by slightly increasing the transmission power.

(Second Embodiment) FIG. 2 is a block diagram of a communication control device 200 of the second embodiment to which these functions are added.

In this embodiment, the power amplifier 25 of the embodiment of FIG. 1 is replaced with a variable amplifier 41, and a line quality monitoring unit 42 is added.

Similar to the embodiment of FIG. 1, when the communicable terminal identifying unit 14 detects the same communication terminal identifying signal within a certain time and identifies it as a new communicable terminal, the identification information is used as the communicable terminal. It is input to the storage unit 15 and the comparison circuit 16,
As a result, the contents of the communicable terminal storage unit 15 are updated.

At this time, the comparison circuit 16 to the variable amplifier 4
1, the power control signal is output to reduce the transmission power. Every time the line quality monitoring unit 42 receives the communication terminal identification information from the communicable terminal identification unit 14, the line quality monitoring unit 42 evaluates the line quality by calculating the number of error bits included in the information and the like. The line quality information is returned to the communication terminal via the control channel modulator 21.

On the other hand, the partner terminal returns line quality information regarding the line from the own station to the partner terminal.

Since the line quality information for the own station received by the line quality monitoring unit 42 via the control channel demodulation unit 28 and the communicable terminal identifying unit 14 represents the line quality from the own station to the other station. If the line quality is below a certain level, a control signal is output to the variable amplifier 41 to slightly increase the transmission power to improve the line quality from the own station to the partner station.

In this way, when a newly communicable terminal is detected, the transmission power is gradually reduced, the line quality is mutually monitored, and the result is fed back to the transmitting station. , Constant line quality is maintained.

That is, the transmission power is reduced within a range in which the line quality does not fall below a certain value. Further, even when the line quality is deteriorated during a call, the line quality is monitored, so that the transmission power is increased and the line quality is recovered.

The line quality can be checked as follows.

Since the control information is generally required to have high reliability, it is transmitted after being subjected to error correction coding and then added with a CRC bit for error detection.

After the error correction is performed on the received raw data, the presence or absence of an error is checked by the CRC check. Here, if the line quality is slightly deteriorated, bit errors that occur on the transmission path increase.

However, if no error is detected in the CRC check after error correction, all the errors that have occurred in the transmission path have been corrected.

In this case, by comparing the received raw signal with the error-corrected signal, the error generated on the transmission path is detected, and the line quality information can be obtained by observing the number of errors. it can.

In the embodiments shown in FIGS. 1 and 2, the communication terminal identification information for identifying the communicable partner is periodically transmitted, but the present invention is not limited to this.

For example, the communication terminal identification information may be set to be transmitted in response to a signal requesting the transmission of the communication terminal identification information.

In this case, first, a communication terminal desiring a communication connection issues a transmission request signal of communication terminal identification information,
All communication terminals that have received this signal transmit their own communication terminal identification information. As described above, the transmission procedure or the transmission time of the communication terminal identification information is not particularly limited, and each communication terminal recognizes the communication terminal identification information of its own station at some time in order to mutually recognize the other party with which communication is possible. Just send it.

Group setting is performed by a signal from the user information processing unit 101. In order to enable simple group setting, for example, it is desirable that a list of terminals in a communicable state is displayed on the display, and the user can select from the list.

By the way, generally, the communication terminal identification information is a unique binary numeral different from each other, and its meaning cannot be easily identified for the user.

Therefore, it is convenient to add additional information that can be rewritten from the user information processing section to the communication terminal identifier at any time. Various types of information such as text information and image information can be used as the additional information.

That is, the additional information is added to the communication terminal identification information generated from the communication terminal identification information generating section 11 and the identification information of the receivable terminal transmitted from the communicable terminal storage section 15 to the user information processing section 101. Then, the user information processing unit 101 displays the added additional information on the display according to the form of the information.

In this way, the user can set a logical communication link with the desired partner by selecting the user name displayed on the display, the user's facial photograph, the trademark, etc. Group setting with and becomes easy.

In the present embodiment, the control channel and the information channel of the radio transmitter / receiver 103 have been described as being frequency-separated, but the radio transmitter / receiver 103 is not particularly limited to this system. For example, the wireless transceiver 1
03 is widely used in wireless LAN CSMA / CA
As a method, a wireless communication medium may be shared among a plurality of communication terminals.

The wireless transmission / reception unit 103 can be replaced with a cable. In this case, the portable information device including the communication control device 100 according to the present invention becomes a terminal that can communicate by being connected by wire. Although it is less convenient than the case where the wireless transmission / reception unit 103 is provided, the basic communication function is guaranteed as in the case of wireless.

(Third Embodiment) In the third embodiment of the present invention, communication terminals exchange messages of the format shown in FIG. The message includes the destination address and source address,
Data length is given. The destination address is an array of one or more terminal addresses or a group identifier assigned to a plurality of terminals.

When each communication terminal receives a message from another terminal, it reads the sender address and stores it in the communicable terminal identifying unit together with the reception time. When the message having the same source address is received again, the reception time is updated.

When a certain time has elapsed from the reception time stored in the communicable terminal identifying unit, the address of the communication terminal is deleted from the communicable terminal identifying unit.

However, when there is no data to be transmitted, even if communication is possible, it will be deleted from the communication terminal identifying unit, so the address is deleted in the communicable terminal identifying unit. The data is not included during the set time interval shorter than the time interval set to 0, and the message with the data length set to 0 is broadcast.

The communication terminal receiving the message in which the data length is set to 0 reads only the source address,
The reception time of the communicable terminal identifying unit is updated, and the message is discarded.

A block diagram of the communication terminal 300 of this embodiment shown in FIG. 6 is shown.

The destination header processing unit 302 receives the user data from the user information processing unit 304, generates a destination header according to the information set in the group setting unit 306, and adds it to the user data to generate a transmission message. . The timer 308 is set at the same time when the transmission message is generated. If the timer 308 is not set again within the fixed time, the timer 308 notifies the destination header processing unit 302 of the timeout.

In the destination header processing section 302, the timer 30
When a time-out is notified from 8, a transmission message for broadcasting having a data length of 0 is generated.

The transmission message generated by the destination header processing unit 302 is modulated by the modulation unit 310, multiplied by the multiplication unit 312 to the transmission frequency, amplified by the power amplifier 316, and then transmitted from the antenna 314.

On the other hand, the received message received from the antenna 314 passes through the demultiplexer 318, is reduced to a baseband signal by the reduction unit 320, is demodulated by the demodulation unit 322, and then is input to the destination header identification unit 324.

The destination header identifying section 324 extracts the source address from the received message and identifies the terminal with which communication is currently possible.

The information about the communicable terminal identified by the destination header processing unit 302 is input to the comparison circuit 326 and compared with the communicable terminal stored in the communicable terminal identifying unit 328.

When the comparison circuit 326 detects a mismatch, the communicable terminal identifying unit 328 updates the stored information of the communicable terminal based on the identification result of the destination header identifying unit 324, and the user information processing unit 304. Notify the change.

The destination header identifying section 324 checks whether or not the destination of the received message includes the own terminal. If the message is addressed to the own terminal, the user data is extracted from the received message, and the user information processing section 304
Output to. At this time, even if the received message is broadcast, if the data length is 0, it is not output to the user information processing unit 304 and the message itself is discarded.

In the present embodiment, communication is performed using radio waves, but it is also possible to use light emitting elements such as LEDs and light receiving elements such as photodiodes, and to use optical communication means such as infrared rays. . Even in that case, the terminal identifying means and the like can be realized with exactly the same configuration. This also applies to other embodiments of the present invention.

In the above embodiment, the message generated by the destination header processing unit 302 when the timer notifies the time-out is broadcast, but even if a dedicated address which is not assigned to any terminal or group is used. Obviously, a similar function can be realized.

In the present embodiment, unlike the first embodiment, the communicable terminal is identified by using the message for transmitting the user data, but only one message has a plurality of roles. And have substantially the same configuration, and have the same effect.

(Fourth Embodiment) A fourth embodiment of the present invention will be described.

The communication terminal performs communication using N frequency-divided control channels and one data channel as shown in FIG. The control channels are assigned numbers 1 to N.

The communication terminal informs other terminals of its own existence using the control channel and exchanges data with each other using the data channel.

When the communication terminal is turned on or reset, the communication terminal selects an unused control channel and continues to send a signal to the selected control channel.

When another communication terminal detects that a signal has been sent out to a control channel which has not been used until then, it determines that a new communication terminal is ready for communication. On the contrary, when the signal of the control channel used until then is no longer detected, it is determined that the communication with the communication terminal which has transmitted the signal to the control channel has become impossible.

A configuration example of the communication terminal 400 is shown in FIG.

Communication terminal 400 has control channel modulator / demodulator 40 for each of the control channel and the data channel.
2 and a data channel modulator / demodulator 404, and an antenna 4
The signal received by 06 is separated for each channel by distribution section 408 and sent to each modulation / demodulation section.

The control channel modulator / demodulator 402 monitors the control channel. The signal of each control channel is determined by the determination unit 4
Input to 10.

When one of the terminals uses the control channel, a signal having a predetermined cycle is transmitted to the control channel. Therefore, the determination section 410 uses the signal received from each channel. Select no control channel. Send a signal to the selected control channel. The signal to be sent is a signal sequence with a fixed time period, and differs for each terminal. The received signal sequence is stored in the memory 412 for each control channel.

The judging unit 410 constantly compares the signal series stored in the memory 412 with the received signal series, and judges whether the same terminal as before is using the control channel.

The user information processing section 414 executes the user program. When communicating with another terminal, the group setting unit 416 is requested to set a group. When the group is created, the transmission data is transferred to the frame generation unit 418 by designating the group.

The frame generation section 418 refers to the group information stored in the group setting section 416 and creates a data frame for transmitting data to the designated group. In the data frame, the group identifier of the destination, the identifier of the source terminal, and the like are recorded by the user information processing unit 4.
It is added to the data passed from 14. The generated data frame is modulated by the data channel modulator / demodulator 404 and then transmitted from the antenna 406.

The communication terminal 400 searches for a free control channel at the time of initialization.

If there is no unused control channel, communication cannot be started.

When there are a plurality of unused control channels, various selection criteria can be applied, such as using the control channel having the smallest channel number or randomly selecting it.

When it is decided to use the control channel i, the signal sequence is transmitted to the control channel i.

The signal sequence is defined as a sequence of 0s and 1s of cycle X with a predetermined clock, and the same sequence is repeated every X hours. One cycle has Y 1's and X's
-Define to include Y 0s. This signal sequence is
It is used by the determination unit 410 to detect whether or not the terminal using the control channel has changed in the middle of each control channel, so that the probability of different or the same value for each terminal is sufficiently small. There is a need. Therefore, it is necessary to determine it by using a method such as assigning a unique value in advance, randomly selecting from a sufficiently large number, selecting a value different from the already used signal sequence, or the like.

When a plurality of terminals are initialized almost at the same time, there is a possibility that they will try to use the same control channel. Therefore, the control channel used by itself is monitored and the other terminals also use the same control channel. When it is detected that it is being used, the transmission of the signal sequence is stopped, and after waiting for a time stochastically determined according to a predetermined probability distribution, for example, an exponential distribution, an idle control channel is selected again. Also, depending on the positional relationship of the communication terminal 400, it may not be possible to receive signals from other terminals.

For example, as shown in FIG. 9, the communication terminal A can communicate with the communication terminals B and C, but the distance between the communication terminal B and the communication terminal C is longer than the reach of radio waves. If the communication terminal B and the communication terminal C try to use the same control channel, they cannot mutually know that the other communication terminal is using the control channel. However, since a radio wave transmitted by any communication terminal can be received, a problem occurs.

If communication terminal A does not exist, communication terminal B
When there is only the communication terminal C and, naturally, no problem occurs.

Therefore, the communication terminal A can check the bit pattern and if the number of 1's included in the cycle X is different from Y, it can be known that a plurality of terminals are using this control channel. .

As described above, when it is detected that a plurality of communication terminals are using the control channel on a certain control channel i, the detected communication terminals continue to output 1 for at least the period X.

Explaining the case of FIG. 9 as an example, the communication terminal B
And the communication terminal C try to use the same control channel i, the communication terminal A detects that a collision has occurred on the control channel i and sends out 1 so that the communication terminal B and the communication terminal C use the control channel i. It can be detected that a collision has occurred at i.

When it is detected that a collision has occurred, another free control channel is searched for, after waiting a random time, the use of the control channel is restarted.

By using such a mechanism, when there is a communication terminal capable of communication with the surroundings, the control channel and the communication terminal capable of communication are associated with each other on a one-to-one basis. Further, by storing the pattern of the signal sequence transmitted to each control channel in the memory 412, even if the communication terminal using a certain control channel changes in the middle for some reason, that change will occur. Can be detected.

In this embodiment, the communication terminal has a one-to-one correspondence between the control channel and the terminal instead of directly transmitting its own identification code, and the identification code is substituted by the control channel. It has the same effect except that it changes each time the communication terminal is initialized.

[0154]

According to the communication control device of the present invention, communication can be performed only by bringing communication terminals close to each other, and a logical communication link can be established with a desired partner anywhere.

Also, the setting of the communication link is extremely simple, there is no need to set the address number of the other party in advance, and there is an advantage that the communication link can be easily set even with the first person to meet.

Further, since data can be transmitted / received to / from a plurality of communication terminals in a broadcast manner, it is possible to perform cooperative work (CSCW) of information devices having a communication function.

Further, since the communication link can be set only by bringing the communication terminals close to each other, when wireless is used, the radio wave transmission distance can be reduced to reduce radio wave interference, and multimedia information can be transmitted at high speed. Transmission can be realized.

[Brief description of drawings]

FIG. 1 is a block diagram of a communication control device according to a first embodiment of the present invention.

FIG. 2 is a block diagram of a communication control device according to a second embodiment of the present invention.

FIG. 3 is a schematic view showing a use situation of the present invention.

FIG. 4 is a communication data format in the case of broadcast transmission.

FIG. 5 is a diagram of a message according to a third embodiment of this invention.

FIG. 6 is a frequency division diagram of the communication terminal according to the fourth exemplary embodiment of the present invention.

FIG. 7 is a block diagram of a communication terminal according to a fourth embodiment of the present invention.

FIG. 8 is a communication data format in the case of transmitting by broadcast.

FIG. 9 is a schematic view showing three communication terminals.

[Explanation of symbols]

 Reference Signs List 101 user information processing unit 102 communication control unit 103 wireless transmission / reception unit 11 communication terminal identification number generation unit 12 destination header generation unit 13 group setting unit 14 communicable terminal identification unit 15 communicable terminal storage unit 16 comparison circuit 17 destination header identification unit 21 Control channel modulation unit 22 Information channel modulation unit 23 Multiplexing circuit 24 Multiplication circuit 25 Power amplifier 26 Reduction unit 27 Separation circuit 28 Control channel demodulation unit 29 Information channel demodulation unit 30 Demultiplexer 31 Antenna 41 Variable amplifier 42 Channel quality monitoring unit

Front page continued (72) Inventor Masako Sato 1-30, Oyodo Naka, Kita-ku, Osaka City, Osaka Prefecture Umeda Sky Building Tower West Co., Ltd. Toshiba Kansai Branch Office (72) Inventor, Akihiko Sugikawa Kita-ku, Osaka City, Osaka Prefecture 1-30 Oedonaka Umeda Sky Building Tower West Co., Ltd. Toshiba Kansai Branch (72) Inventor Teruhiko Ukita 1-13 Omedonaka Kita-ku, Osaka City Osaka Prefecture Umeda Sky Building Tower West Co., Ltd. Toshiba Kansai Branch Office (72) Inventor Kazuaki Iwamura 1-30 Oyodochu, Kita-ku, Osaka-shi, Osaka Umeda Sky Building Tower West Stock Company Toshiba Kansai Branch Office

Claims (9)

[Claims] 1. A communication terminal identification information transmitting means for transmitting communication terminal identification information for identifying its own communication terminal, and a communication terminal identification information receiving means for receiving communication terminal identification information from another communication terminal. A communicable terminal identifying means for identifying a communicable communication terminal based on the communication terminal identifying information received by the communication terminal identifying information receiving means, and a communicable communication terminal identified by the communicable terminal identifying means. It has a group setting means for setting one or a plurality of communication terminals as the same group, and an information transmitting means for transmitting information to the communication terminals in the same group set by the group setting means. Communication control device. 2. The information transmitting means transmits the same information only to at least some of the communication terminals in the same group set by the group setting means. Communication control device. 3. A communicable terminal storage means for storing communication terminal identification information of a communicable communication terminal, communication terminal identification information of a communicable communication terminal stored in the communicable terminal storage means, and the communicable terminal. When the comparing means for comparing the communication terminal identification information of the communicable communication terminal identified by the terminal identifying means and the two communication terminal identification information compared by the comparing means do not match, the communicable terminal storage means stores the information. 2. The communication control according to claim 1, further comprising update instruction means for updating the stored communication terminal identification information to the communication terminal identification information of the communicable communication terminal identified by the communicable terminal identifying means. apparatus. 4. The communication control apparatus according to claim 1, wherein the information transmitting unit broadcasts information to other communication terminals in the same group. 5. The communication terminal identification information transmission means adds additional information to its own communication terminal identification information and transmits the communication terminal identification information, and the communication terminal identification information reception means includes communication terminal identification information from another communication terminal. 2. The communication control apparatus according to claim 1, wherein the added additional information is received and the received additional information is displayed. 6. A communication terminal identifying information transmitting means and a wireless communication means for transmitting the information transmitting means by wireless communication, or an optical communication means for performing optical communication. The communication control device described. 7. The transmission power varying means for varying the strength of the transmission power of the wireless communication means or the optical communication means, and the communicable terminal identifying means after the transmission power is changed by the transmission power varying means. Communication terminal that can communicate,
A range in which the communication terminals are not less than the communication terminals stored in the communicable terminal storage unit before the transmission power is changed, or a communication terminal set as the same group is communicable by the communication terminal identification unit after the transmission power is changed 7. The communication control device according to claim 6, further comprising transmission power reduction means for controlling the transmission power varying means so as to reduce the intensity of the transmission power within a range that is continuously identified as. 8. Communication is possible between the wireless communication means or the transmission power varying means for varying the transmission power intensity of the optical communication means, and the communicable communication terminal identified by the communicable terminal identifying means. When the number of communication terminals stored in the terminal storage unit is less than the number of communication terminals, or when at least one communication terminal set as the same group is no longer identified by the communicable terminal identification unit, the transmission power is increased. 7. The communication control device according to claim 6, further comprising transmission power increasing means for controlling the transmission power varying means so as to increase the transmission power. 9. Communication capable of transmitting communication terminal identification information for identifying its own communication terminal, receiving communication terminal identification information from another communication terminal, and performing communication based on the received communication terminal identification information. It is characterized by identifying terminals, setting one or more communication terminals among the identified communication terminals as the same group, and transmitting information to the communication terminals in the same set group. Communication control method.