JP2007295135A - Radio communication apparatus, repeater, and radio communication system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a radio communication apparatus, repeater, and radio communication system, enabling designating an arbitrary repeater, and calling the radio communication apparatus in the range thereof. <P>SOLUTION: The radio communication system includes a plurality of repeaters connected through a network, and the radio communication apparatus performing communication via the above repeaters. The radio communication apparatus includes a repeater designation means for setting a repeater identification code, designated to call the radio communication apparatus, into a calling initiation signal for initiating calling the radio communication apparatus; and a calling order means for transmitting, to the repeater designated by the above repeater designation means, the calling initiation signal including the code for identifying the repeater concerned. On receiving the calling initiation signal of radio communication apparatus including the code for identifying the repeater, the repeater includes a simultaneous calling means for calling the radio communication apparatus. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a wireless communication device, a repeater, and a wireless communication system. More specifically, the present invention relates to a calling procedure for wireless communication in which wireless communication devices communicate with each other via a repeater.

  Wireless communication includes a method of performing communication between wireless communication devices via a so-called repeater. The wireless communication devices communicate with each other by changing the frequency or the time slot between the uplink of transmission from the wireless communication device to the repeater and the downlink of transmission from the repeater to the wireless communication device at the same time.

  When a wireless communication device that performs communication via a repeater calls another wireless communication device, the wireless communication device transmits a call activation signal to the repeater. Individual call to call by specifying an arbitrary wireless communication device as a call activation signal, group call to call by specifying a group of multiple wireless communication devices, and simultaneous call to call all wireless communication devices in the wireless communication system Can do.

  A plurality of repeaters are connected by a network to form a single wireless communication system, and a communication area of the wireless communication system can be configured from a cover area of the plurality of repeaters. For example, in Patent Document 1, line control is performed in a low-power radiotelephone system including a plurality of fixed radio stations that are connected to a main control unit by wire and distributed and mobile radio stations in the service area. A technique for shortening the line connection time between the main controller and an arbitrary mobile radio station is described.

  In the technique of Patent Document 1, a plurality of fixed wireless stations arranged in a distributed manner are grouped so that zones do not overlap with each other, and a wireless channel corresponding to the group number is set. When connecting a line from the main control unit to the mobile radio station, when making a call using a radio channel corresponding to the group number in units of groups, and requesting a line connection from the mobile radio station to the main control unit The wireless channel is designated and all the fixed stations are simultaneously called, and in either case, the call is made sequentially in units of groups when there is no response or timeout.

Patent Document 2 describes a technique for a simultaneous simultaneous call radio system in which calls are sent simultaneously from an arbitrary place to a plurality of other places and simultaneously received. In the technology of Patent Document 2, in a system in which voice is communicated between a plurality of sites distributed and arranged on a steel tower, the ground part, and the like at the time of transmission line construction, a portable radio is arranged at each site, and each portable radio Transmit at different transmission frequencies, and each portable radio receives all transmission frequencies other than its own transmission frequency.
JP-A-7-170558 JP-A-8-116305

  In a wireless communication system, there is a case where it is desired to communicate with all wireless communication devices in a certain communication area, in addition to performing communication by designating a wireless communication device. For example, an emergency call at the time of a disaster, communication when used for a command command system, and the like.

  However, as described above, in a wireless communication system in which wireless communication devices communicate with each other via so-called repeaters, individual calls, group calls, and simultaneous calls can be made to any wireless communication device, but repeaters (call areas) The wireless communication device in the range cannot be called by specifying.

  An object of the present invention is to provide a wireless communication device, a repeater, and a wireless communication system that can designate an arbitrary repeater and call a wireless communication device in that range.

In order to achieve the above object, a wireless communication apparatus according to the first aspect of the present invention provides:
A wireless communication device that communicates with another wireless communication device via a repeater,
The call start signal for starting a call of the wireless communication device, a repeater designation means for setting the identification code of the specified repeater to call wireless communication device,
Call instruction means for transmitting the call activation signal including a code for identifying the repeater to the repeater designated by the repeater designation means;
It is characterized by providing.

  Further, the repeater designating means includes repeater group designating means for designating a group of repeaters including a plurality of predetermined repeaters.

The repeater according to the second aspect of the present invention is:
A repeater that relays communication between two or more wireless communication devices,
When a wireless communication device call activation signal including a code for identifying the repeater is received, simultaneous call means for calling the wireless communication device,
It is characterized by providing.

  The code for identifying the repeater may be an identification code for a group of repeaters including the repeater.

A wireless communication system according to a third aspect of the present invention is:
A wireless communication system including a plurality of repeaters connected via a network and a wireless communication device that performs communication via the repeaters,
The wireless communication device
The call start signal for starting a call of the wireless communication device, a repeater designation means for setting the identification code of the specified repeater to call wireless communication device,
A call command means for transmitting a call activation signal including a code for identifying the repeater to the repeater designated by the repeater designation means;
With
The repeater is
When a wireless communication device call activation signal including a code for identifying the repeater is received, simultaneous calling means for calling the wireless communication device,
Comprising
It is characterized by that.

  Further, the code for identifying the repeater is an identification code for a group of repeaters including the repeater.

  According to the wireless communication device of the present invention, an arbitrary repeater can be designated to call a wireless communication device in that range. For example, when a repeater is installed on each floor of a building, a call can be made for each floor.

  An embodiment of a wireless communication apparatus and a wireless communication system according to the present invention will be described with reference to the drawings. FIG. 1 shows a configuration example of a wireless communication system according to an embodiment of the present invention.

  For example, the wireless communication system 30 includes a plurality of repeaters 2A, 2B, 2C, and 2D connected to a network N as shown in FIG. The wireless communication system 30 includes a plurality of wireless communication devices 1A, 1B, 1C, 1D, 1E, and 1F. A server S is connected to the network N.

  The network N is, for example, a LAN (Local Area Network). The network N may be a circuit switching network, a packet switching network, the Internet, or a private line network. Further, the network N is not limited to a wired line, and may be a wireless communication network such as a wireless LAN.

  In the wireless communication system 30, communication between the wireless communication apparatuses 1 is performed via the repeater 2. For example, the wireless communication devices 1A and 1B in FIG. 1 communicate via the repeater 2A. In the wireless communication system 30, communication between the wireless communication apparatuses 1 belonging to different communication ranges (repeater areas) of the repeater 2 is performed via the network N. For example, the wireless communication devices 1A and 1D communicate via the repeater 2A, the network N, and the repeater 2C.

  Wireless communication devices (hereinafter abbreviated as slave units) 1A to 1F communicate with repeaters 2A to 2D wirelessly. Communication from slave units 1A to 1F to repeaters 2A to 2D is referred to as uplink, and transmission from repeater 2 to slave unit 1 is referred to as downlink. The uplink and downlink are transmitted simultaneously on different frequencies, for example. The uplink and downlink may be transmitted twice in a time division manner.

  In one repeater 2, the number of channels that can be simultaneously communicated with the uplink and the downlink as one set is 1 or 2 or more. The number of simultaneous communication channels depends on the configuration of the repeater 2. In addition, although subunit | mobile_unit 1A-1F is described like the mobile station in FIG. 1, the case of a fixed station is included. When the number of simultaneous communication channels of the repeater 2 is one set, the communication of the slave unit 1 is half-duplex communication. If the number of simultaneous communication channels of the repeater 2 is two or more and the slave unit 1 can transmit and receive at the same time, a configuration for performing full-duplex communication is also possible.

  In the wireless communication system 30, communication is performed as follows in the conventional method. At the start of communication, for example, when calling the handset 1E from the handset 1A, the handset 1A transmits a call activation signal with the handset 1E as the destination ID. The repeater 2A that has received the call activation signal transmits the call signal wirelessly and simultaneously transmits the call activation signal to the other repeaters 2B to 2D via the network N. In that case, the call activation signal may be broadcast to the network N, or the call activation signal may be transmitted to each of the repeaters 2B to 2D.

  When transmitting a call activation signal to each of the repeaters 2B to 2D, the server S is inquired about the network addresses of the repeaters 2B to 2D. The address of the repeater 2 in the network N is given by the server S in the example of FIG. The server S is, for example, a DNS (Domain Name System) server or a DHCP (Dynamic Host Configuration Protocol) server.

  The repeater 2 that has received the call activation signal transmits the call signal wirelessly. The handset 1 that has received the repeater area call signal returns a response and starts communication if the call signal includes the identification code of the handset 1 as the destination ID.

  When the call activation signal is a call to a plurality of handset devices 1, the call signal includes a handset group identification code (ID). When calling all the subunit | mobile_units 1, the call signal contains the identification code which shows a simultaneous call. In this case, the slave unit 1 belonging to the call group starts receiving from the slave unit 1 that has transmitted the call activation signal.

  As described above, the conventional wireless communication system performs individual call, group call, and simultaneous call to any wireless communication device 1. The wireless communication system 30 of the present invention further transmits a call activation signal by designating the repeater 2 that activates the call from the slave unit 1A or the like. That is, it is possible to designate a repeater 2 that calls the partner child device 1 and to call all of the child devices 1 in the repeater area.

  Note that a repeater area where the wireless communication device 1 is staying in the server S can also be registered. In that case, the repeater 2A that has received the call activation signal from the wireless communication device 1A inquires the server S about the repeater area in which the handset 1E is registered. And if the subunit | mobile_unit 1E is staying, a call starting signal will be transmitted with respect to the repeater 2C registered.

  FIG. 2 is a block diagram showing a configuration of radio communication apparatus 1 according to the embodiment of the present invention. When the wireless transmission device 1 illustrated in FIG. 2 functions as a transmitter, the wireless transmission device 1 transmits an audio signal based on a call sound of a user who uses the wireless communication device 1 or a data signal for data communication toward the receiver of the repeater 2. To do. On the other hand, when the wireless communication device 1 functions as a receiver, the wireless communication device 1 receives an audio signal based on a call sound transmitted to the wireless communication device 1 via the repeater 2 or a data signal for data communication.

  As shown in FIG. 2, the wireless communication device 1 includes an antenna 10, a transmission / reception switching unit 11, a transmission unit 12, a baseband processing unit 13, an amplification and A / D converter ( (Hereinafter referred to as an A / D converter) 14 and a microphone 15. The wireless communication device 1 also includes a receiving unit 16, a baseband processing unit 17, a D / A conversion and amplifier (hereinafter referred to as a D / A conversion unit) 18, and a speaker 19 in order to realize a receiving function. I have.

  The wireless communication apparatus 1 further includes a controller 20 that controls each unit, a time measuring unit 25 that measures reception time, a display unit 26 that displays a communication mode, and an operation unit 27 that inputs settings such as a communication mode.

  The controller 20 controls the operation of the wireless communication device 1. The controller 20 includes, for example, a CPU (central processing unit) 21, an I / O (input / output device) 22, a ROM (read only memory) 24, a RAM (read / write memory) 23, and an internal bus (not shown) for connecting them. ).

  The controller 20 is connected via the I / O 22 to a timer unit 25, a display unit 26, and an operation unit 27 for measuring the switching timing of the reception mode. In order to avoid the complexity of FIG. 2 and to facilitate understanding, signal lines from the controller 20 to each unit are omitted, but the controller 20 includes a transmission / reception switching unit 11, a transmission unit 12, and baseband processing units 13 and 17. The A / D conversion unit 14, the reception unit 16, and the D / A conversion unit 18 are connected via the I / O 22, and the start and end of those processes and the control of the processing contents are performed.

  A control program for the controller 20 to control the operation of the wireless communication device 1 is stored in the ROM 24. When the wireless communication device 1 is used as a transmitter, the controller 20 controls the wireless communication device 1 to function as a transmitter. Further, the operation in which the baseband processing unit 13 outputs data for data communication to the transmission unit 12 is performed under the control of the controller 20.

  The RAM 23 of the controller 20 stores data for generating a communication frame transmitted by the wireless communication device 1. For example, the RAM 23 is data for forming a header portion of a communication frame, and includes a preamble, a synchronization word (hereinafter referred to as SW), a radio information channel (hereinafter referred to as RI), and low-speed associated control. Stores channel information (Slow Associated Control CHannel: hereinafter referred to as SACCH) and parameter information (Parameter Information CHannel: hereinafter referred to as PICH).

  The controller 20 is connected to, for example, a USB (Universal Serial Bus) interface, and data of an external device connected to the USB interface is input to the controller 20. A personal computer can be connected to the USB interface as an external device, and the wireless communication device 1 can be controlled by this personal computer.

  The timer unit 25 can use, for example, a subtraction counter that subtracts a counter value by a clock pulse and generates an interrupt output when the counter value becomes zero. When a certain value is set in the counter, a predetermined time can be measured by counting the set number of clock pulses and interrupting the CPU 21.

  The display unit 26 is composed of a CRT (Cathode Ray Tube), an LCD (Liquid Crystal Display), an LED (Light Emission Diode), or the like, and is a repeater that designates the slave unit 1 or designates the repeater 2 to be called. The call mode of the designated mode, the status of the wireless communication device 1 or repeater 2 of the transmission destination, and other information of the wireless communication device 1 are displayed.

  The operation unit 27 corresponds to an input unit for inputting condition information regarding the operation of the wireless communication device 1. The operation unit 27 is provided with various operation keys. That is, when the user operates the operation key of the operation unit 27 of the wireless communication device 1 to input the operation condition, the wireless communication device 1 can perform an operation based on the input.

  The contents of the operation on the operation unit 27 are detected by the controller 20. That is, the controller 20 detects the type of the operated operation key and the content of the operation on the operation key. Then, the contents input by the operation key are determined. Then, the controller 20 controls the wireless communication device 1 so as to perform an operation corresponding to the content input by the operation unit 27.

  Depending on the content of the operation of the operation key, the content input by the operation is displayed on the display unit 26. For example, when the call repeater selection for selecting the repeater 2 that activates the call is set by the operation unit 27, a list of the repeaters 2 that activate the call is displayed on the display unit 26. In addition, the status of the repeater 2 that activated the call is displayed. Further, the display unit 26 displays a notification of the operating state of the wireless communication device 1 to the user, a message that prompts the user to input by the operation unit 27, and the like.

  A block when the wireless communication device 1 functions as a transmitter will be described. The call sound by the user of the wireless communication device 1 is converted into a voice signal by the microphone 15, and this voice signal is input to the A / D converter 14. The audio signal input to the A / D converter 14 is amplified by an amplifier and then converted into a digital signal by audio A / D conversion. The digitally converted signal is input to the baseband processing unit 13. The baseband processing unit 13 adds a preamble, a frame synchronization signal (FS), control information (CCH), and the like to the digital data, assembles it into a transmission frame, and outputs it to the transmission unit 12.

  The transmitter 12 has a modulation function for modulating the input signal. In the example of the wireless communication device 1, the transmission unit 12 modulates a signal as a method such as GMSK (Gaussian filtered Minimum Shift Keying), PSK (Phase Shift Keying), QAM (Quadrature Amplitude Modulation), or FSK (Frequency Shift Keying). Is used. The transmission unit 12 performs a process of modulating the input audio signal and data signal using these modulation methods.

  The transmission unit 12 outputs the signal subjected to the modulation process to the transmission / reception switching unit 11. When the wireless communication device 1 functions as a transmitter, the transmission / reception switching unit 11 is formed with a circuit that guides a signal input from the transmission unit 12 to the antenna 10. Then, the signal input to the transmission / reception switching unit 11 is output to the antenna 10 and transmitted from the antenna 10 to the receiver of the repeater 2 that is the counterpart of the wireless communication device 1.

  The baseband processing unit 13 assembles various control signals in order to execute the communication protocol. The operation of the baseband processing unit 13, the start and end of transmission by the transmission unit 12, the selection of the frequency, and the like are performed by control of the controller 20. The setting of the preamble and SW length, the contents of RI, SACCH, and PICH is performed under the control of the controller 20.

  The baseband processing unit 13 and the controller 20 implement a repeater designation unit. Further, the baseband processing unit 13, the transmission unit 12, and the controller 20 implement a call instruction unit.

  Next, a block when the wireless communication apparatus 1 functions as a receiver will be described. The wireless communication device 1 as a receiver receives a call signal, a voice signal of a call sound, or a data signal for data communication from the transmitter of the repeater 2. The signal transmitted to the wireless communication device 1 constitutes a communication frame.

  The antenna 10 receives a radio signal transmitted to the radio communication device 1. The radio signal received by the antenna 10 is input to the receiving unit 16 via the transmission / reception switching unit 11. The transmission / reception switching unit 11 is formed with a circuit that guides a signal received by the antenna 10 to the receiving unit 16 when the wireless communication device 1 functions as a receiver.

  The receiving unit 16 has a tuning function for selecting and receiving radio waves of a specific frequency. In the receiver 16, the frequency band of the received radio signal is set by the controller 20. Then, the reception signal of the channel having the frequency set in the receiving unit 16 is input from the antenna 10 to the receiving unit 16 through the transmission / reception switching unit 11.

  The signal received by the receiving unit 16 is input to the baseband processing unit 17, and each piece of information is extracted by the baseband processing unit 17 and transmitted to the controller 20. When the identification code (ID) of the wireless communication device 1 is extracted as the destination ID in the PICH in the call signal, the controller 20 starts communication.

  FIG. 3 is a block diagram showing the configuration of the repeater 2 according to the embodiment of the present invention. The repeater 2 shown in FIG. 3 has a transmission function and a reception function. The reception function receives a signal transmitted by the wireless communication device 1 via the uplink. The transmission function transmits a signal received by the receiver or a signal received from the network N on the downlink. Of the configuration of the repeater 2, the same functional parts as those of the wireless communication device 1 are given the same reference numerals.

  As shown in FIG. 3, the repeater 2 includes an antenna 10 </ b> S, a transmission unit 12, a baseband processing unit 13, and an input unit 4 in order to realize a transmission function. The repeater 2 also includes an antenna 10R, a receiving unit 16, a baseband processing unit 17, and an output unit 5 in order to realize a receiving function. Furthermore, a network interface (hereinafter referred to as a network I / F) 6 is provided for transmitting a received signal to another repeater 2 via the network N and receiving a signal from the other repeater 2 via the network. .

  The repeater 2 includes a controller 20 that controls each unit, a display unit 26 that displays a communication mode, and an operation unit 27 that inputs settings such as a communication mode.

  The controller 20 controls the operation of the repeater 2. The controller 20 includes, for example, a CPU (central processing unit) 21, an I / O (input / output device) 22, a ROM (read only memory) 24, a RAM (read / write memory) 23, and an internal bus (not shown) for connecting them. ).

  A display unit 26 and an operation unit 27 are connected to the controller 20 via the I / O 22. In order to avoid the complexity of FIG. 3 and to facilitate understanding, signal lines from the controller 20 to each unit are omitted, but the controller 20 includes a transmission unit 12, baseband processing units 13 and 17, a reception unit 16, It is connected to the input unit 4, the output unit 5 and the network I / F 6 via the I / O 22, and controls the start and end of those processes and the processing contents.

  A control program for the controller 20 to control the operation of the repeater 2 is stored in the ROM 24. Then, the controller 20 performs control to transmit the call signal from the transmission unit or to transmit the call activation signal to the network N based on the call activation signal received from the uplink. Further, the controller 20 controls to transmit a call signal from the transmission unit in response to the call activation signal received from the network N. Information for these controls is stored in the RAM 23.

  Data for generating a communication frame transmitted by the repeater 2 is stored in the RAM 23 of the controller 20. For example, the RAM 23 stores information such as a preamble, SW, RI, SACCH, and PICH, which are data for configuring the header portion of the communication frame.

  The display unit 26 includes a CRT (Cathode Ray Tube), an LCD (Liquid Crystal Display), an LED (Light Emission Diode), or the like, and a communication status in which the repeater 2 is communicating with the wireless communication device 1 or the network N. Display information.

  The operation unit 27 is input means for inputting condition information about the operation of the repeater 2. The operation unit 27 is provided with various operation keys. That is, when the operator operates the operation key of the operation unit 27 of the repeater 2 and inputs an operation condition, the repeater 2 can perform an operation based on the input. For example, an online operation mode connected to the network N, a stand-alone operation mode not connected to the network N, and the like are selected.

  The block of the reception function and transmission function of the repeater 2 will be described.

  The antenna 10 </ b> R receives the radio signal transmitted to the repeater 2. The radio signal received by the antenna 10 </ b> R is input to the receiving unit 16. The receiving unit 16 has a tuning function for selecting and receiving radio waves of a specific frequency. In the receiver 16, the frequency band of the received radio signal is set by the controller 20.

  The signal received by the receiving unit 16 is input to the baseband processing unit 17, and each piece of information is extracted by the baseband processing unit 17 and transmitted to the controller 20. When the call activation signal is received and the ID of the wireless communication apparatus 1 that may exist in the communication range of the repeater 2 or the ID of the repeater 2 is included as the destination ID, the controller 20 Start sending a ringing signal.

  When the received signal is transmitted to another repeater 2, it is transmitted to the network N via the output unit 5 and the network I / F 6.

  When the signal received by the receiving unit 16 is wirelessly transmitted to the communication range of the repeater 2, data is sent from the baseband processing unit 17 to the baseband processing unit 13. The baseband processing unit 13 adds a preamble, SW, RI, etc. to the data, assembles it into a transmission frame, and outputs it to the transmission unit 12.

  The transmitter 12 has a modulation function for modulating the input signal. In the example of the wireless communication device 1, the transmission unit 12 modulates a signal as a method such as GMSK (Gaussian filtered Minimum Shift Keying), PSK (Phase Shift Keying), QAM (Quadrature Amplitude Modulation), or FSK (Frequency Shift Keying). Is used. The transmission unit 12 performs a process of modulating the input audio signal and data signal using these modulation methods.

  The transmission unit 12 outputs the signal subjected to the modulation process to the antenna 10S, and transmits the signal to the receiver of the wireless communication device 1 from the antenna 10S.

  The baseband processing unit 13 assembles various control signals in order to execute the communication protocol. The operation of the baseband processing unit 13, the start and end of transmission by the transmission unit 12, the selection of the frequency, and the like are performed by control of the controller 20. The setting of the preamble and SW length, the contents of RI, SACCH, and PICH is performed under the control of the controller 20.

  The baseband processing unit 13, the transmission unit 12, and the controller 20 implement a simultaneous calling unit.

  From the signal received from the network N via the network I / F 6, data is extracted at the input unit 4 and sent to the controller 20. When a signal received from the network N is transmitted to the communication area of the repeater 2, data received by the network I / F 6 is sent from the input unit 4 to the baseband processing unit 13. The baseband processing unit 13 assembles a transmission signal and transmits it from the transmission unit 12.

  A call activation signal is received from the network N via the network I / F 6, and the ID of the wireless communication device 1 that may exist in the communication area of the repeater 2 or the ID of the repeater 2 is received in the received ID. Is included, the controller 20 starts transmission of the calling signal.

  Next, operations of the wireless communication device 1 and the repeater 2 shown in FIG. 1 will be described with reference to FIGS. As described above, the operation of the wireless communication apparatus 1 is performed by the CPU 21 of the controller 20 in cooperation with the I / O 22, the RAM 23, the ROM 24, the time measuring unit 25, the display unit 26, and the operation unit 27. The operation of the repeater 2 is performed by the CPU 21 of the controller 20 in cooperation with the I / O 22, the RAM 23, the ROM 24, the display unit 26, and the operation unit 27.

  For example, as shown in FIG. 1, it is assumed that wireless communication devices 1A to 1F and repeaters 2A to 2D exist in the wireless communication system 30. Each of the wireless communication devices 1A to 1F has the configuration shown in FIG. The repeaters 2A to 2D each have the configuration shown in FIG.

  FIG. 4 shows a configuration example of the call activation signal. 4A shows the configuration of the call activation signal, FIG. 4B shows the configuration of the parameter information channel PICH, FIG. 4C shows the configuration of the called ID when the wireless communication apparatus 1 is designated, and FIG. ) Represents the structure of the destination ID when the repeater 2 is designated.

  As shown in FIG. 4A, the call activation signal includes a preamble P, a synchronization word SW, a radio information channel RI, a low-speed associated control channel SACCH, and a parameter information channel PICH. As shown in FIG. 4B, the parameter information channel PICH includes a message type, a user code, a system ID, a called ID, and a calling ID. Among these, the identification code (ID) of the slave 1 to be called or the repeater 2 that starts the call is written in the destination ID.

  When calling by specifying the handset 1, as shown in FIG. 4 (c), the handset ID is, for example, data of 2 octets divided into 4 bits of BCD (Binary Coded Decimal) 4 bits each. ID (4 decimal digits) is expressed.

  When a repeater 2 is designated and a general call is made to the communication area of the repeater 2, the identification code (ID) of the repeater 2 designated as the destination ID is written. When the repeater 2 is designated, for example, as shown in FIG. 4D, a code A indicating that the repeater 2 is designated is written in the upper 4 bits of the first octet of the called ID. In the lower 4 bits of the first octet and the second octet, a 3-digit number representing the number of the repeater 2 is written in BCD.

  The number of three digits of the repeater 2 can be determined such that, for example, 000 to 899 indicates an individual repeater 2 and 900 to 999 indicates a repeater group number. The distinction between the individual repeater 2 and the repeater group may be performed by another method. For example, a code G representing a group may be written in the lower 4 bits of the first octet to indicate a repeater group, and the repeater group number may be indicated by 2 BCD digits of the second octet.

  Since the destination ID that designates the conventional handset 1 to be called is used in the area for writing the ID of the repeater 2 that is designated for call activation, the communication frame of the conventional wireless communication system can be used as it is. Therefore, the present embodiment for designating the repeater 2 can be realized with a configuration in which a function for designating the repeater 2 is added to the conventional communication system 30. Further, it can be used in combination with the conventional slave unit 1 and repeater 2.

  FIG. 4 also shows a configuration example of the call signal. When the signal of FIG. 4A is transmitted from the repeater 2 on the downlink, it is a calling signal. In that case, the arrival ID does not indicate the repeater 2. In the call signal, the destination ID indicates the handset 1. If the destination ID is a special number (for example, 9999), it can be determined to represent a general call.

  The subunit | mobile_unit 1 starts a call by transmitting the call starting signal shown in FIG. The repeater 2 calls the handset 1 by transmitting a call signal on the downlink. Further, the repeater 2 transmits a call activation signal to another repeater 2 via the network N. The repeater 2 that has received the call activation signal via the network N includes the ID of the slave unit 1 that may exist in the communication range of the repeater 2 or the ID of the repeater 2 in the destination ID. Transmits the call signal on the downlink and calls the handset 1.

  FIG. 5 is a sequence diagram showing a procedure in which the wireless communication device 1A designates the repeater 2C and makes a call. The subunit | mobile_unit 1 transmits the call starting signal which designated repeater 2C with respect to repeater 2A (step A1). When the repeater 2A that has received the call activation signal extracts the ID of the repeater 2C from the destination ID of the call activation signal, the repeater 2A inquires of the server S via the network N about the network address of the repeater 2C (step A2).

  In response to the inquiry, the server S returns the network address of the repeater 2C to the repeater 2A (step A3). The repeater 2A that has received the network address of the repeater 2C transmits a call activation signal designating the repeater 2C to the repeater 2C via the network N (step A4).

  The repeater 2C extracts the arrival ID from the call activation signal received via the network N, and transmits the call signal to the communication area of the repeater 2C because the arrival ID includes the ID representing the repeater 2C (step A5). ). In this case, as shown in FIG. 4D, the destination ID is a code representing the repeater 2, and therefore the handset 1 is not designated. Therefore, the repeater 2C makes a simultaneous call for calling all the slave units.

  In the wireless communication system 30, the repeater 2 may periodically transmit notification information for registering the location of the slave unit 1. In that case, when the timing of transmission of the notification information and the timing of transmission of the call signal overlap, the call signal is transmitted after the notification information is transmitted at a fixed cycle timing.

  After transmitting the calling signal, the repeater 2C notifies the repeater 2A of the availability of the repeater (step A6). Here, a case where the channel is not used when the repeater 2C transmits a calling signal is shown. When there is no empty channel in the repeater 2C, a signal indicating that communication is in progress is returned to the repeater 2A.

  The repeater 2A that has received the notification of the availability of the repeater transmits an answer back to the slave unit 1A (step A7). After that, communication is performed between the slave unit 1A and the slave units 1D and 1E in the same manner as the group designation communication in which all the slave units in the communication area of the repeater 2C to the slave unit 1A are designated.

  When the repeater 2A receives the call activation signal designating the repeater 2C and holds the network address of the repeater 2C (step A8), the repeater 2C does not inquire the server S about the network address of the repeater 2C. A call activation signal is transmitted to (step A9). For example, when the network N is a LAN or the like, the network address is held by the repeater 2 for a certain period of time.

  Further, depending on the network configuration, each repeater 2 may always hold the network address of the other repeater 2 and send a call activation signal to the repeater 2 without inquiring the server S. However, in this case, if a large number of repeaters 2 are distributed and arranged, it is necessary to rewrite the data of all the repeaters 2 as the repeaters 2 are revised, and it takes time to add and change the repeaters 2.

  Since the subunit | mobile_unit 1 moves within the radio | wireless communications system 30, for example, the subunit | mobile_unit 1 near the point where the disaster occurred cannot be specified. Conventionally, since a repeater area cannot be designated to be called, it has been necessary to make a simultaneous call for all the slave units to all the call areas, and the necessary communication could not be performed efficiently. According to the wireless communication system 30 of the present invention, the repeater 2 can be designated from the slave unit 1 and calling can be performed for all the slave units within the communication area of the designated repeater 2. For example, when the repeater 2 is installed on each floor of a building, a call can be made for each floor. As a result, communication can be performed efficiently without occupying the entire call area of the wireless communication system 30. The repeater 2 (communication channel) that is not designated for call activation can perform other communications.

  FIG. 6 is a sequence diagram showing a procedure in which the wireless communication device 1A designates a repeater group and makes a call. Handset 1A transmits a call activation signal designating a repeater group including repeaters 2C and 2D to repeater 2A (step B1). The repeater 2A that has received the call activation signal extracts the repeater group ID from the call activation signal destination ID, and inquires the server S of the network address of the repeater group via the network N (step B2).

  In response to the inquiry, the server S returns the network addresses of the repeaters 2C and 2D included in the repeater group to the repeater 2A (step B3). The repeater 2A that has received the network addresses of the repeaters 2C and 2D transmits a call activation signal designating a repeater group including the repeaters 2C and 2D to the repeaters 2C and 2D via the network N (step B5). .

  The network addresses of the repeaters 2C and 2D may be individual addresses, and the network address may be an address of a group including the repeaters 2C and 2D. In the case of individual addresses, the repeater 2A transmits call activation signals to the repeaters 2C and 2D, respectively. In the case of a group address, transmission from the repeater 2A may be performed once for the group.

  In the case of a call that designates a repeater group, in order to prevent collision of free state notifications from a plurality of repeaters, repeater free state notifications from repeaters in the designated group are not returned. In step B3, the repeater 2A receives the network addresses of the repeaters 2C and 2D from the server S, and then returns an answerback to the slave unit 1A (step B4). If the transmission timing is set so that the repeater free state notifications from the repeaters 2C and 2D in the designated group do not collide, the answer back is returned to the slave unit 1A after receiving the repeater free state notification. It may be. The repeater 2A sends back a call activation signal after returning an answer back to the slave unit 1A (step B5).

  The repeaters 2C and 2D extract the called ID from the call activation signal received via the network N. Since the called ID includes the ID representing the repeater group including the repeaters 2C and 2D, the call is made to each communication area. A signal is transmitted (steps B6 and B7). In this case, as shown in FIG. 4D, the destination ID is a code representing the repeater 2, and therefore the handset 1 is not designated. Therefore, the repeaters 2C and 2D perform simultaneous calling for calling all the slave units.

  When the repeater 2A has received the call activation signal designating the repeater group and has held the network address of the repeater group (step B8), the repeater 2C is not inquired of the server S about the network address of the repeater 2C. And a call activation signal is transmitted to 2D (step B9). For example, when the network N is a LAN or the like, the network address is held by the repeater 2 for a certain period of time.

  Further, depending on the network configuration, each repeater 2 may always hold the network address of another repeater group and send a call activation signal to the repeater group without inquiring the server S. However, in that case, every time the configuration of the repeater group is changed, it is necessary to rewrite the data of all the repeaters 2, so that it takes time to change the configuration of the repeater group. In the method of inquiring the network address of the repeater 2 or the repeater group from the server S, it is only necessary to change the data of the server S, so that the configuration of the repeater group can be easily changed.

  FIG. 7 shows an example of displaying the configurations of the repeater 2 and the repeater group. The configurations of the repeater 2 and the repeater group are displayed in a table format as shown in FIG. 7 on the display device of the server S so that the group configuration can be easily viewed and the group configuration can be changed by operating while viewing the screen. be able to.

  For example, repeater group 0 includes repeaters 2 with IDs 5 and 12. The repeater group 8 includes repeaters 2 having IDs of 2, 7, and 92. By adding or deleting a mark (circle in FIG. 7) in the column of the intersection of the ID of the repeater 2 and the repeater group number, the repeater 2 belonging to that group can be added or deleted. Note that the comment field in FIG. 7 describes information such as the location of the repeater 2 for the convenience of setting the group configuration.

  A network address is stored in the server S corresponding to each repeater 2. Further, a network address representing a repeater group may be stored in the server S.

  In addition, the hardware configuration and the sequence diagram are merely examples, and can be arbitrarily changed and modified.

  The controller 20 of the wireless communication apparatus 1 or the controller 20 of the repeater 2 configured by the CPU 21, I / O 22, RAM 23, ROM 24 and the like can be realized using a normal computer system, not a dedicated system. For example, a computer program for executing the above operation is stored and distributed in a computer-readable recording medium (flexible disk, CD-ROM, DVD-ROM, etc.), and the computer program is installed in the computer. Thus, the wireless communication device 1 or the repeater 2 that executes the above-described processing may be configured. Further, the wireless communication device 1 or the repeater 2 may be configured by storing the computer program in a storage device included in a server device on a communication network such as the Internet and downloading the computer program by a normal computer system.

  Further, when the functions of the wireless communication device 1 or the repeater 2 are realized by sharing of an OS (operating system) and an application program, or by cooperation between the OS and the application program, only the application program portion is recorded on a recording medium or storage. You may store in an apparatus.

  It is also possible to superimpose a computer program on a carrier wave and distribute it via a communication network. For example, the computer program may be posted on a bulletin board (BBS, Bulletin Board System) on a communication network, and the computer program distributed via the network. The computer program may be started and executed in the same manner as other application programs under the control of the OS, so that the above-described processing may be executed.

It is a block diagram of the radio | wireless communications system which is one embodiment of this invention. It is a block diagram of the radio | wireless communication apparatus which is one embodiment of this invention. It is a block diagram of the repeater which is one embodiment of the present invention. It is a figure which shows the example of a structure of the communication frame which starts the communication in one embodiment of this invention. It is a sequence diagram which shows the procedure of the communication which designates the repeater in one embodiment of this invention, and performs a call. It is a sequence diagram which shows the procedure of the communication which designates the group of a repeater in one embodiment of this invention, and performs a call. It is a figure which shows the example which displays the structure of a repeater and a repeater group.

Explanation of symbols

1, 1A, 1B, 1C, 1D, 1E, 1F Wireless communication device 2, 2A, 2B, 2C, 2D Repeater 4 Input unit 5 Output unit 6 Network interface 12 Transmitter 13 Baseband processor 16 Receiver 17 Baseband processing Part 20 Controller 21 CPU
22 I / O
23 RAM
24 ROM
25 Timekeeping Unit 27 Operation Unit 30 Wireless Communication System

Claims (6)

A wireless communication device that communicates with another wireless communication device via a repeater,
The call start signal for starting a call of the wireless communication device, a repeater designation means for setting the identification code of the specified repeater to call wireless communication device,
Call instruction means for transmitting the call activation signal including a code for identifying the repeater to the repeater designated by the repeater designation means;
A wireless communication apparatus comprising:   The wireless communication apparatus according to claim 1, wherein the repeater designating unit includes a repeater group designating unit that designates a group of repeaters including a plurality of predetermined repeaters. A repeater that relays communication between two or more wireless communication devices,
When a wireless communication device call activation signal including a code for identifying the repeater is received, simultaneous calling means for calling the wireless communication device,
A repeater comprising:   4. The repeater according to claim 3, wherein the code for identifying the repeater is an identification code for a group of repeaters including the repeater. A wireless communication system including a plurality of repeaters connected via a network and a wireless communication device that performs communication via the repeaters,
The wireless communication device
A repeater designating means for setting an identification code of a repeater designated to call the radio communication device in a call activation signal for activating the call of the radio communication device;
A call command means for transmitting a call activation signal including a code for identifying the repeater to the repeater designated by the repeater designation means;
With
The repeater is
When a wireless communication device call activation signal including a code for identifying the repeater is received, simultaneous calling means for calling the wireless communication device,
Comprising
A wireless communication system.   The wireless communication system according to claim 5, wherein the code for identifying the repeater is an identification code for a group of repeaters including the repeater.

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