WO2007037481A1 - 無線通信システム - Google Patents
無線通信システム Download PDFInfo
- Publication number
- WO2007037481A1 WO2007037481A1 PCT/JP2006/319712 JP2006319712W WO2007037481A1 WO 2007037481 A1 WO2007037481 A1 WO 2007037481A1 JP 2006319712 W JP2006319712 W JP 2006319712W WO 2007037481 A1 WO2007037481 A1 WO 2007037481A1
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- WIPO (PCT)
- Prior art keywords
- antenna
- wireless communication
- wireless
- communication device
- relay device
- Prior art date
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Classifications
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04B—TRANSMISSION
- H04B7/00—Radio transmission systems, i.e. using radiation field
- H04B7/14—Relay systems
- H04B7/15—Active relay systems
- H04B7/155—Ground-based stations
- H04B7/15528—Control of operation parameters of a relay station to exploit the physical medium
- H04B7/1555—Selecting relay station antenna mode, e.g. selecting omnidirectional -, directional beams, selecting polarizations
Definitions
- the present invention relates to a wireless communication device that transmits and receives communication signals such as data packets, a wireless relay device that relays the communication signal, and a wireless communication system including the wireless communication device and the wireless relay device.
- FIG. 1 shows an appearance of an optical wireless communication system according to the conventional technique described in Patent Document 1.
- This optical communication system includes a master device (hereinafter referred to as “master device”) 101 and a slave device (hereinafter referred to as “slave device”) 104.
- the master device 101 performs normal optical communication.
- the search light emitting unit 103 of the master unit 101 is turned on so that the light received by the light receiving unit 105 of the slave unit 104 is maximized using light with a wide pointing angle. Align the optical axis. Thereafter, the optical axis is adjusted using idle light transmitted from the communication light emitting unit 102 of the parent device 101 and the child device 104.
- FIG. 2 is a block diagram showing an operation example of the optical wireless communication system according to the conventional technique described in Patent Document 1.
- the master unit 101 while the master unit 101 is communicating with the slave unit 104, the master unit 101 interrupts communication with the slave unit 104 and starts communication with another slave unit 201 having the same configuration as the slave unit 104. If desired, the master unit 101 can communicate with the slave unit 201 by performing the same optical axis adjustment as described in FIG.
- Patent Document 1 Japanese Patent Application Laid-Open No. 9 107330.
- the base unit 101 sets the communication partner as the slave unit 104.
- the master unit 101 has a problem that the optical axis needs to be aligned again with the slave unit 201.
- An object of the present invention is to solve the above-described conventional problems, and in a wireless communication system that requires communication direction setting, when one wireless communication device switches communication partners, a new communication direction setting is not required. ! To provide a wireless communication system and to provide a wireless communication device and a wireless relay device constituting such a wireless communication system.
- the wireless relay device is a wireless relay device that communicates with at least two wireless communication devices.
- Switching means for transmitting and transmitting a communication signal received by any one of the plurality of antennas to any one of the plurality of antennas;
- Correspondence table storage means for storing a correspondence table that includes a relationship that associates the identifier of each antenna with the identifier of one wireless communication device that can communicate using the antenna specified by the antenna identifier;
- Wireless relay device control means for controlling transfer of the communication signal by the switching means based on the correspondence table
- the wireless relay device control means When the wireless relay device control means receives a communication signal from any one of the plurality of antennas, the wireless relay device control means uses the correspondence table to specify the identifier of the wireless communication device that is the destination of the received communication signal.
- the switching means is controlled so as to acquire a corresponding antenna identifier and transfer and transmit the received communication signal to the antenna specified by the acquired antenna identifier.
- the wireless relay device relays communication between the first wireless communication device and the second wireless communication device.
- a communication response signal is sent to the first wireless communication device instead of the second wireless communication device.
- the wireless relay device control means further includes:
- the identifier of the antenna that has received the communication signal is compared to the wireless communication device that is the source of the communication signal. Update the above correspondence table to add a relationship that matches identifiers,
- a communication signal destined for a certain wireless communication device is received by any one of the plurality of antennas, and in the correspondence table, the identifier of the wireless communication device that is the destination of the received communication signal is received.
- the received communication signal is transferred and transmitted to the antenna specified by the identifier of the corresponding antenna, and a communication response signal corresponding to the transmitted communication signal is received from the destination wireless communication device within a predetermined time period. If not, the identifier of the wireless communication apparatus corresponding to the identifier of the antenna that transmitted the communication signal is also deleted.
- the wireless relay device control means further selects an identifier of the wireless communication device in the correspondence table, and selects the identifier in the correspondence table.
- An antenna identifier corresponding to the received wireless communication device identifier is acquired, a monitoring signal is generated, and the generated monitoring signal is transmitted from the antenna specified by the acquired antenna identifier, for a predetermined time period.
- the identifier of the selected wireless communication device is Correspondence table power It is characterized by deleting.
- the wireless relay device further includes communication signal storage means for storing the received communication signal
- the wireless relay device control means further, when a communication response signal for the transmitted communication signal is not received from the destination wireless communication device within a predetermined time period, an identifier of the corresponding wireless communication device in the correspondence table.
- the communication signal received and stored in the communication signal storage means is transmitted to the antenna specified by the identifier of the antenna that does not have The switching means is controlled so as to transfer and retransmit the communication signal.
- a radio communication system is a radio communication system including the radio relay apparatus according to the first aspect of the present invention and at least one radio communication apparatus, wherein the radio relay apparatus is ,
- At least one first antenna set including a plurality of antennas sharing the same antenna identifier
- First antenna selection means for switching to select one antenna of each of the first antenna sets
- the first antenna selection means switches to select one antenna of each of the first antenna sets, the reception state of the communication signal transmitted from the wireless communication device by the selected antenna Feedback transmission means for transmitting a feedback signal including information to the wireless communication device that is the transmission source of the communication signal, and the wireless relay device control circuit further includes the communication signal based on the reception state information of the communication signal. Controlling the first antenna selection means so as to receive a communication signal transmitted from a wireless communication device that is a signal source;
- the at least one wireless communication device is
- At least one second antenna set comprising a plurality of antennas
- Second antenna selection means for switching to select one antenna of each of the second antenna sets
- Feedback receiving means for receiving the feedback signal also transmitted by the wireless relay device power
- Wireless communication device control means for controlling the second antenna selection means, and the wireless communication device control means further controls one antenna of the second antenna set by the second antenna selection means.
- the communication signal is transmitted to the radio relay apparatus by the selected antenna, and the communication signal is transmitted based on the reception state information included in the received feedback signal. Controlling the second antenna selection means so as to be received by the wireless relay device; It is characterized by.
- the reception state information includes a reception level of the communication signal, a reception result of the communication signal, information on an antenna switching state by the first antenna selection unit, and the wireless relay. It contains at least one of the communication signals received by the device.
- the wireless relay device may select an antenna indicating the antenna selected by the first antenna selection unit when the wireless communication device receives the communication signal.
- a first antenna selection information storage means for storing information;
- the radio relay apparatus control means When the radio relay apparatus control means receives a new communication signal from the radio communication apparatus, the radio relay apparatus control means reads the antenna selection information from the first antenna selection information storage means, and reads the read antenna selection information. Based on !!, the first antenna selection means switches so as to select one antenna of each of the first antenna sets, and the wireless communication device transmits the communication signal to the wireless relay device. Further comprising second antenna selection information storage means for storing antenna selection information indicating the antenna selected by the second antenna selection means when received by
- the wireless communication device control means reads the antenna selection information from the second antenna selection information storage means when newly transmitting a communication signal to the wireless relay device, and based on the read antenna selection information.
- the second antenna selection means switches so as to select one of the second antenna sets.
- Each of the first antenna sets includes a plurality of first antenna pairs each including one transmitting antenna and one receiving antenna corresponding to each other,
- the first antenna selection means selects one reception antenna from each of the first antenna sets, the first antenna selection means selects one transmission antenna corresponding to the selected reception antenna;
- Each of the second antenna sets has one transmitting antenna and one receiving antenna corresponding to each other.
- a plurality of second antenna pairs each including an antenna
- the second antenna selection means selects one reception antenna corresponding to the selected transmission antenna when selecting one transmission antenna of each of the first antenna sets. .
- the coverage area of the transmission antenna and the coverage area of the reception antenna overlap with each other, and the coverage areas of the different transmission antennas do not overlap with each other,
- the coverage area of the transmitting antenna and the coverage area of the receiving antenna overlap with each other, and the coverage areas of the different transmitting antennas do not overlap with each other.
- a wireless communication system is a wireless communication system including the wireless relay device according to the first aspect of the present invention and at least one wireless communication device, The relay device
- At least one first antenna set including a plurality of antennas sharing the same antenna identifier
- First antenna selection means for switching to select one antenna of each of the first antenna sets
- the radio relay apparatus control circuit further switches the communication signal by the selected antenna when the first antenna selection means switches to select one of the first antenna sets.
- To the wireless communication apparatus and based on the reception state information included in the received feedback signal, controls the first antenna selection means so that the communication signal is received by the wireless communication apparatus.
- the at least one wireless communication device is At least one second antenna set comprising a plurality of antennas;
- Second antenna selection means for switching to select one antenna of each of the second antenna sets
- the second antenna selection means switches to select one antenna of each of the second antenna sets, the reception state of the communication signal transmitted from the radio relay apparatus by the selected antenna Feedback transmission means for transmitting a feedback signal including information to the wireless relay device;
- Wireless communication device control means for controlling the second antenna selection means, wherein the wireless communication device control means is further based on reception state information of the communication signal.
- the second antenna selection means is controlled so as to receive a communication signal transmitted from the wireless relay device.
- the reception state information includes a reception level of the communication signal, a reception result of the communication signal, information on an antenna switching state by the second antenna selection unit, and the wireless communication. It contains at least one of the communication signals received by the device.
- the wireless relay device includes first antenna selection information storage means for storing antenna selection information indicating an antenna selected by the first antenna selection means when the communication signal is received by the wireless communication device. Further comprising
- the wireless relay device control means reads out the antenna selection information from the first antenna selection information storage means when newly transmitting a communication signal to the wireless communication device, and based on the read antenna selection information.
- the first antenna selection means switches to select one of the first antenna sets, and the wireless communication device is activated when the communication signal is received from the wireless relay device.
- a second antenna selection information storage means for storing antenna selection information indicating the antenna selected by the second antenna selection means;
- the wireless communication device control means reads the antenna selection information from the second antenna selection information storage means when receiving a new communication signal from the wireless relay device. And switching based on the read antenna selection information to select one antenna of each of the second antenna sets by the second antenna selection means. To do.
- Each of the first antenna sets includes a plurality of first antenna pairs each including one transmitting antenna and one receiving antenna corresponding to each other,
- the first antenna selecting means selects one receiving antenna corresponding to the selected transmitting antenna when selecting one transmitting antenna from each of the first antenna sets,
- Each of the second antenna sets includes a plurality of second antenna pairs each including one transmitting antenna and one receiving antenna corresponding to each other,
- the second antenna selection means selects one transmission antenna corresponding to the selected reception antenna when selecting one reception antenna of each of the second antenna sets. .
- the coverage area of the transmission antenna and the coverage area of the reception antenna overlap with each other, and the coverage areas of the different transmission antennas do not overlap with each other,
- the coverage area of the transmitting antenna and the coverage area of the receiving antenna overlap with each other, and the coverage areas of the different transmitting antennas do not overlap with each other.
- a wireless relay device is the wireless relay device according to the first aspect of the present invention.
- At least one antenna set including a plurality of antennas sharing the same antenna identifier
- An antenna selecting means for switching to select one of the antenna sets
- the antenna selection means selects one of the antenna sets. When switching, the feedback signal including the reception state information by the selected antenna of the communication signal transmitted from a certain wireless communication device is transmitted to the wireless communication device that is the transmission source of the communication signal.
- a transmission means
- the radio relay apparatus control circuit further controls the antenna selection unit to receive a communication signal transmitted from a radio communication apparatus that is a transmission source of the communication signal, based on reception state information of the communication signal.
- the reception state information is received by the wireless relay device, the reception level of the communication signal, the reception result of the communication signal, information on the antenna switching state by the antenna selection unit, and Including at least one of the transmitted communication signals.
- the radio relay apparatus further includes antenna selection information storage means for storing antenna selection information indicating an antenna selected by the antenna selection means when the communication signal is received from the radio communication apparatus.
- the antenna selection information storage means When the radio relay apparatus control means newly receives a communication signal from the radio communication apparatus, the antenna selection information storage means also reads out the antenna selection information, and based on the read antenna selection information, The antenna selection means switches to select one of the antenna sets described above.
- each antenna set includes a plurality of antenna pairs each including one transmission antenna and one reception antenna corresponding to each other, and the antenna selection means includes the antenna sets of the antenna sets. When one of the receiving antennas is selected, one transmitting antenna corresponding to the selected receiving antenna is selected.
- the coverage area of the transmission antenna and the coverage area of the reception antenna overlap with each other, and the coverage areas of the different transmission antennas do not overlap with each other.
- a wireless relay device is the wireless relay device according to the first aspect of the present invention.
- the wireless relay device includes the plurality of antennas, at least one antenna set including a plurality of antennas sharing the same antenna identifier;
- An antenna selecting means for switching to select one of the antenna sets
- the radio relay apparatus control circuit further transmits the communication signal to the radio communication apparatus by the selected antenna when the antenna selection means switches to select one of the antenna sets. Then, based on the reception state information included in the received feedback signal, the antenna selection unit is controlled so that the communication signal is received by the wireless communication device.
- the reception status information includes a reception level of the communication signal, a reception result of the communication signal, and information on an antenna switching state by an antenna selection unit included in the wireless communication device. And at least one of the communication signals received by the wireless communication device.
- the wireless relay device includes antenna selection information storage means for storing antenna selection information indicating an antenna selected by the antenna selection means when the communication signal is received by the wireless communication device.
- the antenna selection information storage means power reads the antenna selection information, and selects the antenna selection based on the read antenna selection information. Switching is made so that one antenna of each of the antenna sets is selected by means.
- Each antenna set includes a plurality of antenna pairs each including one transmitting antenna and one receiving antenna corresponding to each other,
- the antenna selection means selects one transmission antenna from the antenna sets. When selected, one receiving antenna corresponding to the selected transmitting antenna is selected.
- the coverage area of the transmission antenna and the coverage area of the reception antenna overlap with each other, and the coverage areas of the different transmission antennas do not overlap with each other.
- a wireless communication device is a wireless communication device that communicates with the wireless relay device according to the first aspect of the present invention
- At least one antenna set comprising a plurality of antennas
- An antenna selecting means for switching to select one of the antenna sets
- a feedback signal including the reception status information in the radio relay apparatus regarding the communication signal transmitted by the selected antenna is Feedback receiving means for receiving from the wireless relay device;
- Wireless communication device control means for controlling the antenna selection means
- the radio communication apparatus control means further transmits the communication signal to the radio relay apparatus by the selected antenna when the antenna selection means is switched to select one of the antenna sets. Then, based on the reception state information included in the received feedback signal, the antenna selection unit is controlled so that the communication signal is received by the wireless relay device.
- the reception state information includes a reception level of the communication signal, a reception result of the communication signal, and information on an antenna switching state by an antenna selection unit included in the wireless relay device. Including at least one of the communication signals received by the wireless relay device.
- the radio communication device includes antenna selection information storage means for storing antenna selection information indicating an antenna selected by the antenna selection means when the communication signal is received by the radio relay device.
- the wireless communication device control means newly transmits a communication signal to the wireless relay device.
- the antenna selection information storage means power, the antenna selection information is read out, and the antenna selection means switches to select one antenna of the antenna sets based on the read antenna selection information.
- Each antenna set includes a plurality of antenna pairs each including one transmitting antenna and one receiving antenna corresponding to each other,
- the antenna selection means selects one reception antenna corresponding to the selected transmission antenna when one transmission antenna of the antenna sets is selected.
- the coverage area of the transmission antenna and the coverage area of the reception antenna overlap each other, and the coverage areas of the different transmission antennas overlap each other. It is characterized by not.
- a wireless communication device is a wireless communication device that communicates with the wireless relay device according to the first aspect of the present invention
- At least one antenna set comprising a plurality of antennas
- An antenna selecting means for switching to select one of the antenna sets
- the antenna selection means When the antenna selection means is switched to select one antenna of each of the antenna sets, a feedback signal including reception state information by the selected antenna of the communication signal transmitted from the radio relay apparatus Feedback transmission means for transmitting to the wireless relay device,
- Wireless communication device control means for controlling the antenna selection means
- the wireless communication device control means further controls the antenna selection means so as to receive a communication signal transmitted from the wireless relay device based on reception state information of the communication signal.
- the reception status information includes a reception level of the communication signal, a reception result of the communication signal, and an antenna switching state by the antenna selection unit. And at least one of state information and a communication signal received by the wireless communication device.
- the wireless communication device further includes antenna selection information storage means for storing antenna selection information indicating the antenna selected by the antenna selection means when the communication signal is received from the wireless relay device.
- the antenna selection information storage means When the wireless communication device control means newly receives a communication signal from the wireless relay device, the antenna selection information storage means also reads the antenna selection information, and based on the read antenna selection information, The antenna selection means switches to select one of the antenna sets described above.
- Each antenna set includes a plurality of antenna pairs each including one transmitting antenna and one receiving antenna corresponding to each other,
- the antenna selecting means selects one transmitting antenna corresponding to the selected receiving antenna when one receiving antenna is selected from the antenna sets.
- the coverage area of the transmission antenna and the coverage area of the reception antenna overlap each other, and the coverage areas of the different transmission antennas overlap each other. It is characterized by not.
- the wireless communication device and the wireless relay device can automatically set the communication direction, and the wireless communication device communicates via the wireless relay device to perform different communication. Even when communicating with the other party, the direct communication partner is the same as the wireless relay device. Therefore, even if the wireless communication device switches the communication partner, a new communication direction setting is not required and the convenience for the user is improved.
- FIG. 1 is an external view showing a wireless communication system according to a conventional technique.
- FIG. 2 is a block diagram showing an operation example of a wireless communication system according to the prior art.
- FIG. 3 is a block diagram of a radio communication system according to the first embodiment of the present invention.
- FIG. 4 is a block diagram showing a detailed configuration of the radio relay apparatus 302 in FIG. 3.
- FIG. 5A is a sequence diagram showing a first example of a packet relay operation performed in the wireless communication system of FIG.
- FIG. 5B is a sequence diagram showing a second embodiment of a packet relay operation performed in the wireless communication system of FIG.
- FIG. 6 is a sequence diagram showing an embodiment of a correspondence table memory management operation executed in the wireless communication system of FIG.
- FIG. 7 is a flowchart showing a first part of packet relay processing executed by radio relay apparatus control circuit 404 in FIG. 4.
- FIG. 8 is a flowchart showing a second part of packet relay processing executed by radio relay apparatus control circuit 404 in FIG. 4.
- FIG. 9 is a flowchart showing a source address extraction process (step S3) which is a subroutine of FIG.
- FIG. 10 is a flowchart showing correspondence table memory management processing executed by the wireless relay device control circuit 404 of FIG.
- FIG. 11 is a block diagram of a radio communication system according to a second embodiment of the present invention.
- FIG. 12 is a plan view showing in detail a coverage area in the wireless communication system of FIG. 11.
- FIG. 13 is a pattern diagram for explaining antenna directivity in the wireless communication system of FIG. 11.
- FIG. 14 is a block diagram showing a detailed configuration of the wireless communication device 301a and the wireless relay device 302a of FIG.
- 15 is a flowchart showing antenna control processing executed by the antenna control circuit 709 of the wireless relay device 302a of FIG.
- FIG. 16 is a flowchart showing antenna control processing executed by the antenna control circuit 701 of the wireless communication apparatus 301a of FIG.
- FIG. 17 An antenna executed by the antenna control circuit 709 of the wireless relay apparatus 302a of FIG. It is a flowchart which shows a tena management process.
- FIG. 18 is a flowchart showing antenna management processing executed by the antenna control circuit 701 of the wireless communication device 301a of FIG.
- FIG. 19 is a flowchart showing a modified antenna management process executed by the antenna control circuit 709 of the wireless relay device 302a of FIG.
- FIG. 20 is a flowchart showing a modified antenna management process executed by the antenna control circuit 701 of the wireless communication apparatus 301a of FIG.
- FIG. 21 is a sequence diagram showing a monitoring operation executed in the wireless communication system of FIG. 11.
- FIG. 3 is a block diagram of the radio communication system according to the first embodiment of the present invention.
- This wireless communication system includes wireless communication devices 301, 303, and 309 and a wireless relay device 302 that relays communication between these wireless communication devices 301, 303, and 309.
- the wireless communication devices 301, 303, and 309 and the wireless relay device 302 use, for example, electromagnetic waves with high straightness such as millimeter waves as a wireless medium.
- the wireless communication device 301 includes the antenna 312 and has a unique identifier M ⁇ A
- the wireless communication device 303 includes the antenna 313 and includes the unique identifier M ⁇ B. Is equipped with an antenna 314 and has a unique identifier MC.
- a MAC address may be used as the identifier of the wireless communication devices 301, 30 3, and 309.
- the radio relay device 302 includes a plurality of transmission antennas 306, 308, and 311 and a plurality of reception antennas 305, 307, and 310.
- the transmitting antenna 306 and the receiving antenna 305 are provided close to each other so as to face a predetermined azimuth, and are used as antenna ports for communicating with a certain wireless communication apparatus.
- the transmitting antenna 308 and the receiving antenna 307 are used. Is provided close to each other so as to face a predetermined azimuth angle, and is used as an antenna port for communicating with a certain wireless communication device.
- the transmission antenna 311 and the reception antenna 310 have a predetermined azimuth angle.
- the antenna ports are arranged close to each other so as to face each other and are used as antenna ports for communicating with a certain wireless communication device.
- Antennas 305 and 306 are assigned the antenna port identifier ANT—A
- antennas 307 and 308 are assigned the antenna port identifier ANT—B
- antennas 310 and 311 are assigned the antenna port identifier ANT—B.
- —C is assigned.
- the wireless relay device 302 further includes a correspondence table (table) that includes a one-to-one correspondence between the identifier of each antenna port and the identifier of one wireless communication device that can communicate with each antenna port. ) Is stored in the correspondence table memory 304.
- the wireless relay device 302 relays communication between the wireless communication devices 301, 303, and 309, as will be described in detail later.
- the wireless relay device 302 stores the correspondence table memory 304. Refer to and execute processing for relay, for example, send a communication response signal (for example, an acknowledgment (ACK) signal or a negative acknowledgment (NACK) signal) to the wireless communication device 301 instead of the wireless communication device 303.
- a communication response signal is transmitted to the wireless communication device 303.
- the correspondence table memory 304 stores the identifier MA of the wireless communication device 301 and the antennas 305 and 306 in order to identify the antenna port used when the wireless relay device 302 communicates with the wireless communication device 301. Stores the relationship associated with the antenna port identifier ANT—A. Similarly, the correspondence table memory 304 stores the identifier M—B of the wireless communication device 303 and the antennas 307 and 308 in order to identify the antenna port used when the wireless relay device 302 communicates with the wireless communication device 303.
- the identifier M—C stores the relationship corresponding to the antenna port identifier ANT—C related to the antennas 310 and 311.
- the wireless communication device 301 communicates with the wireless communication device 309, or when the wireless communication device 303 communicates with the wireless communication device 309, the communication is performed via the wireless relay device 302, and wireless communication is performed.
- the relay device 302 refers to the correspondence table memory 304 and executes processing for relay.
- the wireless relay device 302 receives the data packet from the wireless communication device 301 by the antenna 305, and receives the destination of the received data packet.
- the received data packet is transmitted to the transmitting antenna 308 associated with the identifier ANT—B, which is referred to in the table memory 304 and corresponding to the identifier M-B, and the data packet is transmitted to the wireless communication device 303 via the transmitting antenna 308.
- Send is transmitted.
- the wireless relay device 302 can relay the data packet transmitted from the wireless communication device 301 to the wireless communication device 309, and wirelessly communicate the data packet transmitted from the wireless communication device 303. It can be relayed to either the device 301 or the wireless communication device 309, and the data packet transmitted from the wireless communication device 309 can also be relayed to the deviation of the wireless communication device 301 or the wireless communication device 303.
- FIG. 4 is a block diagram showing a detailed configuration of radio relay apparatus 302 in FIG.
- the same components as those in FIG. 3 are denoted by the same reference numerals, and description thereof is omitted.
- each of receiving antennas 305, 307, 310 is connected to memories 402, 410 via radio receiving circuits (hereinafter referred to as “receiving circuits”) 401, 409, 414. 415, and the output side terminals of the memories 402, 410, and 415 are the transmission antennas via the switching circuit 406 and the wireless transmission circuit (hereinafter referred to as “transmission circuit”) 418, 408, and 413, respectively.
- transmission circuit hereinafter referred to as “transmission circuit”
- the wireless relay device 302 is a remote controller, a correspondence table memory 304, a memory control circuit 403, 411, 416 for controlling the memories 402, 410, 415, a switching control circuit 405 for controlling switching of the switching circuit 406, A timer circuit 420 and a radio relay device control circuit 404 that controls these components are provided.
- the received data packet is input to the receiving circuit 401, and the receiving circuit 401 performs amplification processing, detection processing, etc. on the data packet.
- the processed data packet is temporarily stored in the memory 402.
- the memory control circuit 403 extracts the identifier of the wireless communication device that is the destination of the data packet from the data packet stored in the memory 402 and sends it to the wireless relay device control circuit 404.
- the receiving circuit 409 performs amplification processing, detection processing, etc. on the data packet, and after processing Are temporarily stored in the memory 410.
- the memory control circuit 411 receives the data packet stored in the memory 410.
- the identifier of the wireless communication device that is the destination of the data packet is extracted from the network and sent to the wireless relay device control circuit 404.
- the received data packet is input to the receiving circuit 414.
- the receiving circuit 414 performs amplification processing, detection processing, etc. on the data packet, and the processed data packet is processed.
- the memory control circuit 416 extracts the identifier of the wireless communication device that is the destination of the data packet from the data packet stored in the memory 415 and sends it to the wireless relay device control circuit 404.
- the wireless relay device control circuit 404 refers to the correspondence table memory 304 based on the identifier of the destination wireless communication device sent from the memory control circuits 403, 411, 416, and acquires the identifier of the corresponding antenna port. .
- the wireless relay device control circuit 404 sends the acquired antenna port identifier to the switching control circuit 405, and the switching control circuit 405 performs switching based on the antenna port identifier sent from the wireless relay device control circuit 404.
- the switching circuit 406 is controlled so that only the corresponding switch of the switching circuit 406 is turned on.
- the switching circuit 406 is configured to include the switches SW1-SW9 as shown in FIG.
- the switching control circuit 405 turns on the switch SW2 or SW3 to connect the data packet temporarily stored in the memory 402 to the transmission circuit 408 or 413, and switches the switch SW4 or SW3.
- the data packet temporarily stored in the memory 410 is connected to be transferred to the transmission circuit 418 or 413, and the data temporarily stored in the memory 415 is turned on by turning on the switch SW7 or SW8.
- the packet is connected so as to be transferred to the transmission circuit 418 or 408.
- the switching control circuit 405 includes the switches SW1, SW5, SW9. ! / By making the displacement force a value, the packet generated by the wireless device control circuit 404 is connected so as to be transferred to any one of the transmission circuits 418, 408, and 413.
- the data packet to be relayed is transmitted to the destination wireless communication device.
- ACK packet This includes the case where the reply is not returned (that is, when the relay of the data packet has failed), and the case where the wireless communication devices around the wireless relay device 302 are monitored for the maintenance and update of the correspondence table memory 304.
- the wireless relay device control circuit 404 causes the switching control circuit 405 to switch the connection of the switching circuit 406 and transfers the data packet temporarily stored in the memory 402 to the transmission circuit 408 or 413 via the switching circuit 406.
- the memory control circuit 4003 controls the memory 402, and similarly, the memory control circuit is configured to transfer the data packet temporarily stored in the memory 410 to the transmission circuit 418 or 413 via the switching circuit 406.
- the path 411 controls the memory 410 and the memory control circuit 416 controls the memory 415 so that the data packet temporarily stored in the memory 415 is transferred to the transmission circuit 418 or 408 via the switching circuit 406.
- the transmission circuit 418 performs amplification processing on the data packet transferred from the switching circuit 406 and transmits the processed data packet via the transmission antenna 306.
- the transmission circuit 408 performs amplification processing on the data packet transferred from the switching circuit 406 and transmits the processed data packet via the transmission antenna 308.
- the transmission circuit 413 performs amplification processing on the data packet transferred from the switching circuit 406 and transmits the processed data packet via the transmission antenna 311.
- the correspondence table memory 304 registers an identifier of a wireless communication device that can communicate with the wireless relay device 302.
- the wireless relay device 302 stores the registration information as follows. Update to
- the correspondence table memory 304 is in an empty state that does not have information on the identifiers of wireless communication devices corresponding to the identifiers ANT-A, ANT-B, and ANT-C of each antenna port.
- an appropriate wireless communication device identifier may be input by the user of the wireless relay device 302.
- the wireless relay device control circuit 404 may update the correspondence table memory 304 based on the identifier of the wireless communication device that is the source of the packet when the packet is received. Monitor communication equipment By doing so, the wireless relay device control circuit 404 may update the correspondence table memory 304.
- the wireless relay device control circuit 404 when the identifiers of several wireless communication devices are stored in the correspondence table memory 304, when the wireless relay device control circuit 404 receives a packet, the wireless relay device control circuit 404 is based on the identifier of the wireless communication device that is the source of the packet.
- the correspondence table memory 304 may be updated, or the correspondence table memory 304 may be updated by monitoring wireless communication devices around the wireless relay device 302.
- the wireless relay device control circuit 404 of the wireless relay device 302 When the wireless relay device control circuit 404 of the wireless relay device 302 receives a packet from the wireless communication devices 301, 303, and 309, it updates the correspondence table memory 304 based on the packet.
- the wireless relay device control circuit 404 of the wireless relay device 302 is one of the wireless communication devices 301, 303, and 309 when the wireless communication device identifier corresponding to the identifier of the predetermined antenna port is not registered in the correspondence table memory 304.
- the registration information in the correspondence table memory 304 is updated as follows based on the data packet received from the network.
- the memory control circuit 403 extracts the identifier of the transmission source wireless communication device from the received data packet stored in the memory 402, and the wireless relay device
- the wireless relay device control circuit 404 sends the extracted identifier to the correspondence table memory 304 as the identifier of the wireless communication device corresponding to the antenna port identifier ANT — A for the antenna 305.
- the memory control circuit 411 extracts the identifier of the transmission source wireless communication device from the received data packet stored in the memory 410 and performs wireless relaying.
- the wireless relay device control circuit 404 sends the extracted identifier to the correspondence table memory 304 as the identifier of the wireless communication device corresponding to the antenna port identifier ANT-B related to the antenna 307.
- the memory control circuit 416 extracts the identifier of the transmission source wireless communication device from the received data packet stored in the memory 410.
- the wireless relay device control circuit 404 registers the extracted identifier in the correspondence table memory 304 as the identifier of the wireless communication device corresponding to the antenna port identifier ANT-C regarding the antenna 310.
- the receiving antenna 30 5, the transmission antenna 306, the reception antenna 307 and the transmission antenna 308, the reception antenna 310 and the transmission antenna 311 are each a pair.
- the wireless relay device 302 uses the transmission antenna 300 when transmitting the signal to the wireless communication device 301. Therefore, in the correspondence table memory 304, the identifier M-A of the wireless communication device 301 is registered so as to be associated with the antenna port identifier ANT-A related to the reception antenna 305 and the transmission antenna 306. Similarly, in the configuration of the wireless communication system shown in FIG. 3, in the correspondence table memory 304, the identifier M-B of the wireless communication device 303 is registered so as to be associated with the antenna port identifier ANT-B, and The identifier M-C of the wireless communication device 309 is registered so as to be associated with the antenna port identifier ANT-C.
- Radio relay device control circuit 404 of radio relay device 302 transmits a packet to radio communication devices 301, 303, and 309, conversely, when a packet is received from radio communication devices 301, 303, and 309. In addition, it may be detected whether the wireless communication apparatus is in a communicable state or in a communicable state, and the correspondence table memory 304 may be updated based on the detection result. Specifically, the radio relay apparatus control circuit 404 transmits a data packet from any one of the transmission antennas 306, 308, and 311 and starts counting by the timer circuit 420, and the reception antennas 305, 307, and 310 are started.
- the wireless relay device control circuit 404 uses the identifier of the wireless communication device that is the source of the ACK packet in the correspondence table memory 304, and the transmission antenna and reception used. Stored in association with the antenna port identifier for the antenna.
- the wireless relay device control circuit 404 indicates that the wireless communication device identifier corresponding to the antenna port identifier related to the used transmission antenna and reception antenna is blank in the correspondence table memory 304.
- the correspondence table memory 304 is updated so that
- the antenna port identifier ANT—A for antennas 305 and 306 When the correspondence table memory 304 is updated, the wireless relay device control circuit 404 transmits a data packet from the transmission antenna 306 and starts counting by the timer circuit 420 to receive data that is paired with the transmission antenna 306. The antenna 305 waits to receive an ACK packet for the transmitted data packet. When an ACK packet is received by the receiving antenna 305 within a predetermined timeout period, the wireless relay device control circuit 404 determines the identifier of the wireless communication device that has transmitted the ACK packet in the correspondence table memory 304. The antenna port identifiers for antennas 305 and 306 are stored in association with ANT-A.
- the wireless relay device control circuit 404 causes the wireless communication device identifier corresponding to the antenna port identifier ANT-A to be blank in the correspondence table memory 304.
- the correspondence table memory 304 is updated.
- the radio relay apparatus control circuit 404 is configured to maintain the contents of the correspondence table memory 304, for example, when the reception circuit connected to the reception antenna of the selected predetermined antenna port performs reception processing. For a certain period of time, the transmission circuit connected to the transmission antenna of the selected antenna port performs transmission processing. For a certain period of time, the antenna port selected by the radio relay apparatus control circuit 404 to the switching control circuit 405.
- the switching control circuit 405 controls to switch on the switch SW1, SW5, SW9 of the switching circuit 406 to be connected to the transmission antenna of the selected antenna port during the period when the identifier is not sent.
- the address of the wireless relay device 302 is used as the source address, and the identifier of the predetermined wireless communication device is used as the destination address.
- the identifier of the wireless communication apparatus corresponding to the identifier of the antenna port selected in the correspondence table memory 304 can be used as the destination address of the data packet to be transmitted.
- the wireless relay device control circuit 404 starts the count of the timer circuit 420.
- the wireless relay device control circuit 404 receives a communication response signal having the address of the wireless relay device 302 as a destination address before the timeout time elapses in the timer circuit 420.
- the wireless relay device control circuit 404 corresponds to the identifier of the selected antenna port in the correspondence table memory 304.
- the wireless communication device specified by the identifier of the wireless communication device is determined to be unable to communicate, and the wireless communication device identifier corresponding to the antenna port identifier is deleted from the correspondence table memory 304.
- the reception circuit 401 connected to the reception antenna 305 is not connected to the transmission antenna 306 during a period during which reception processing is not performed.
- the transmission circuit 418 performs the transmission process, and for a period of time, the antenna port identifier ANT-A is sent from the radio relay apparatus control circuit 404 to the switching control circuit 405.
- the switching control circuit 405 controls the switch SW1 of the switching circuit 406 to be turned on, has the address of the wireless relay device 302 as the source address, and the identifier of the predetermined wireless communication device as the destination address.
- the data packet is transmitted through the transmission circuit 418 and the transmission antenna 306.
- the identifier MA of the wireless communication apparatus 301 corresponding to the antenna port identifier ANT-A in the correspondence table memory 304 can be used as the destination address of the data packet to be transmitted.
- the radio relay apparatus control circuit 404 starts counting of the timer circuit 420.
- the wireless relay device control circuit 404 receives the correspondence table memory 304.
- the wireless relay device control circuit 404 uses the antenna port identifier ANT— Wireless communication device identifier corresponding to A M—Wireless communication specified by A The device 301 judges that communication is impossible, and deletes the identifier M—A of the wireless communication device corresponding to the antenna port identifier ANT—A in the correspondence table memory 304.
- the same processing is performed when the contents of the correspondence table memory 304 are maintained.
- FIG. 5A shows a first embodiment of the packet relay operation executed in the wireless communication system of FIG. 3, and FIG. 5B shows a second implementation of the packet relay operation executed in the wireless communication system of FIG. It is a sequence diagram which shows an example.
- the operation of these embodiments is to update the correspondence table memory 304 when a packet to be relayed is received from any one of the wireless communication devices 301, 303, and 309.
- the wireless relay device 302 receives a packet P1 transmitted by the wireless communication device 301 and addressed to the wireless communication device 303 via one of the reception antennas
- the wireless relay device 302 receives the packet P1.
- the identifier M—A of the source wireless communication device 301 is extracted from the packet P 1, and this extracted identifier M—A is stored as the identifier of the wireless communication device corresponding to the antenna port identifier for the receiving antenna.
- the correspondence table memory 304 is updated as follows.
- the wireless relay device 302 then returns an ACK packet P2 to the wireless communication device 301 in place of the destination wireless communication device 303, and then transmits the packet P3 to be relayed to the destination wireless communication device 303.
- the ACK packet may be transmitted from the wireless relay apparatus 302 to the wireless communication apparatus 301 after receiving the ACK packet from the destination wireless communication apparatus 303.
- the wireless relay device 302 receives the packet P11.
- the identifier M—A of the source wireless communication device 301 is extracted from the packet P1, and this extracted identifier M—A is stored as the identifier of the wireless communication device corresponding to the antenna port identifier for the receiving antenna.
- the correspondence table memory 304 is updated as follows.
- the wireless relay device 302 transmits the packet P12 to be relayed to the destination wireless communication device 303, receives the ACK packet P13 from the wireless communication device 303, and then receives the ACK packet P14 on behalf of the destination wireless communication device 303. Reply to wireless communication device 301 Thus, the ACK packet from the destination wireless communication apparatus 303 is relayed.
- step S1 of FIG. 7 when the packet is received due to the deviation power of the wireless receiving device 302 power receiving antenna 305, 307, 310, the corresponding memory 402, 410, 416 in step S2! If not, repeat step S1 and wait.
- the wireless relay device control circuit 404 executes the source address extraction process in step S3.
- FIG. 9 is a flowchart showing a source address extraction process (step S3) which is a subroutine of FIG.
- Step S3 is a process for updating the contents of the correspondence table memory 304.
- the wireless relay device control circuit 404 uses the wireless communication device corresponding to the antenna port identifier in the correspondence table memory 304 for the antenna that received the packet (that is, the reception antenna corresponding to the memory that stores the packet). If YES, proceed to step S23 to determine whether or not the contents of the correspondence table memory 304 should be overwritten and updated. If NO, Proceed to step S22.
- step S22 the wireless relay device control circuit 404 uses the memory control circuit to extract the source MAC address (that is, the identifier of the source wireless communication device) from the packet in the memory, and responds to the extracted identifier.
- the wireless relay device control circuit 404 determines whether or not communication with the wireless communication device specified by the identifier of the wireless communication device found in the correspondence table memory 304 in step S21 is currently possible.
- the end time of communication with each wireless communication device is stored in a predetermined memory (not shown), and the previous communication with the corresponding wireless communication device is saved.
- step S23 is YES
- the table is not updated without updating the correspondence table memory 304.
- step S4. If NO, proceed to step S24.
- step S24 the wireless relay device control circuit 404 deletes the identifier of the wireless communication device determined to be incapable of communication from the correspondence table memory 304, and then the identifier of the source wireless communication device from the packet in the memory. Is extracted, and the extracted identifier is stored in the deleted portion in the correspondence table memory 304 to overwrite the correspondence table memory 304, and the process proceeds to step S4 in FIG.
- step S21 is NO
- the process may directly proceed to step S4 without updating the correspondence table memory 304.
- step S4 of Fig. 7 the wireless relay device control circuit 404 extracts the destination MAC address (that is, the identifier of the destination wireless communication device) from the packet in the memory by the memory control circuit, and proceeds to step S5.
- step S5 the wireless relay device control circuit 404 determines whether or not the identifier of the destination wireless communication device is stored in the correspondence table memory 304. If YES, the process proceeds to step S6, and if NO, Proceed to step S11 in FIG.
- step S6 the wireless relay device control circuit 404 selects an antenna corresponding to the destination wireless communication device, and causes the switching control circuit 405 to switch the switching circuit 406 based on the selection result.
- step S7 the radio relay apparatus control circuit 404 causes the memory control circuit to read out and transmit the packet from the memory, and at the same time, starts counting of the timer circuit 420, and proceeds to step S8.
- step S8 the wireless relay device control circuit 404 determines whether or not an ACK packet has been received from the destination wireless communication device within the time-out period. If YES, the process proceeds to step S9. If NO, step S1 Go to 0.
- step S9 the radio relay apparatus control circuit 404 relays the ACK packet to the radio communication apparatus as the transmission source, and returns to step S1.
- step S10 the wireless relay device control circuit 404 deletes the identifier of the wireless communication device that is the destination of the packet from the correspondence table memory 304 to reflect that the wireless communication device is in a communication disabled state.
- the table memory 304 is updated, and the process proceeds to step S11 in FIG.
- step S5 or S8 in FIG. 7 is NO, if there is an antenna port identifier that does not have a corresponding wireless communication device identifier in correspondence table memory 304, steps S11 to S in FIG. By executing step 18, an attempt is made to search for an antenna port that can communicate with the destination wireless communication device.
- step S11 the wireless relay device control circuit 404
- response table 304 the identifier of the corresponding wireless communication device is stored! Judgment whether or not the antenna port identifier exists is determined. If YES, proceed to step S12. If NO, Proceed to step S18.
- step S12 the wireless relay device control circuit 404, based on the correspondence table memory 304, does not have a transmission antenna whose corresponding wireless communication device is unknown (that is, does not have the identifier of the corresponding wireless communication device in the correspondence table memory 304). And the switching control circuit 405 switches the switching circuit 406 based on the selection result, and then in step S13, the memory control circuit reads the packet from the memory. At the same time, the timer circuit 420 starts counting and proceeds to step S14. In step S14, the radio relay apparatus control circuit 404 determines whether or not the ACK packet is received from the destination wireless communication apparatus within the timeout period. If YES, the process proceeds to step S15. If NO, Proceeds to step S17.
- step S15 the radio relay device control circuit 404 relays the ACK packet to the source radio communication device, and then in step S16, the packet is transmitted to the antenna port identifier relating to the antenna that transmitted the packet in step S13.
- the correspondence table memory 304 is updated so as to associate the identifier of the destination wireless communication apparatus, and the process returns to step S1 in FIG.
- step S17 the wireless relay device control circuit 404 is a transmission antenna associated with the identifier of the antenna port for which the identifier of the corresponding wireless communication device is not stored in the correspondence table memory 304, and can be selected elsewhere. If YES, the process returns to step S12. If NO, the process proceeds to step SI8.
- step S18 the wireless relay device control circuit 404 transmits a NACK packet to the wireless communication device that is the transmission source, and returns to step S1 in FIG.
- FIG. 6 is a sequence diagram showing an example of correspondence table memory management operation executed in the wireless communication system of FIG.
- a packet for monitoring is transmitted from the wireless relay device 302 to the wireless communication devices 301, 303, 309, and the correspondence table memory 304 is updated based on the received ACK packet.
- the wireless relay device 302 transmits the packet P21 addressed to the wireless communication device 301 through the transmission antenna of any selected antenna port, and the wireless communication device 301 responds with an ACK.
- the packet P22 is returned to the wireless relay device 302.
- the radio relay apparatus 302 receives the ACK packet P22 from the reception antenna that is paired with the transmission antenna, extracts the identifier M ⁇ A of the source radio communication apparatus 301 from the received ACK packet P22, and extracts the extracted M ⁇ A.
- the identifier M—A is stored in the correspondence table memory 304 as the identifier of the wireless communication device corresponding to the identifier of the selected antenna port.
- the wireless relay device 302 transmits the packet P23 addressed to the wireless communication device 303 through the transmission antenna of the selected antenna port, and the wireless communication device 303 responds with the ACK packet P24. To the wireless relay device 302.
- the wireless relay device 302 receives the ACK packet P24 by the receiving antenna that is paired with the transmitting antenna, and also extracts the identifier MB of the wireless communication device 303 that is the source of the received ACK packet P24, and this extracted identifier M—B is stored in the correspondence table memory 304 as an identifier of the wireless communication device corresponding to the identifier of the selected antenna port. Similarly, the wireless relay device 302 transmits a packet P25 addressed to the wireless communication device 309 through the transmission antenna of one of the selected antenna ports, and the wireless communication device 309 transmits an ACK packet P26 wirelessly in response thereto. It returns to the relay device 302.
- Radio relay apparatus 302 receives ACK packet P26 from the receiving antenna that is paired with the transmitting antenna, extracts identifier MC of source radio communication apparatus 309 from received ACK packet P26, and extracts this extracted packet.
- the identifier M—C is stored in the correspondence table memory 304 as the identifier of the wireless communication device corresponding to the identifier of the selected antenna port. If the ACK packets P 22, P24, and P26 are not received, the wireless relay device 302 sets the correspondence table memory 304 so that the identifier of the wireless communication device corresponding to the selected antenna port identifier is blank. Update.
- FIG. 10 is a flowchart showing the correspondence table memory management process executed by the wireless relay device control circuit 404.
- the radio relay apparatus control circuit 404 selects an antenna port that is not in communication and causes the switching control circuit 405 to switch the switching circuit 406.
- the radio relay apparatus control circuit 404 transmits a monitoring signal having the identifier of the selected antenna port, and at the same time, starts counting of the timer circuit 420, and proceeds to step S33.
- the radio repeater control circuit 404 responds to the transmitted monitoring signal. Whether or not the monitoring response signal is received within the time-out period is determined. If YES, the process proceeds to step S34. If NO, the process proceeds to step S36.
- step S34 the wireless relay device control circuit 404 determines that the identifier of the wireless communication device that is the source of the received monitoring response signal corresponds to the identifier of the selected antenna port in the correspondence table memory 304. If YES, go directly to step S38. If NO (if different information is stored or no information is stored), step S35 In step S38, the correspondence table memory 304 is updated, and the process proceeds to step S38.
- step S36 the radio relay apparatus control circuit 404 determines whether or not the identifier of the radio communication apparatus corresponding to the selected antenna port is stored in the correspondence table memory 304. If YES, step S37 Then, the identifier of the wireless communication device is deleted from the correspondence table memory 304, and the process proceeds to step S38. If NO, the process proceeds to step S38. In step S38, the radio relay apparatus control circuit 404 selects another antenna port that is not in communication, causes the switching control circuit 405 to switch the switching circuit 406, and returns to step S32.
- the correspondence table memory management process of FIG. 10 is performed, for example, in order to check whether the correspondence between the identifier of the antenna port registered in the correspondence table memory 304 and the identifier of the wireless communication device is correct, or This can be executed because there is an antenna port identifier that does not have a corresponding wireless communication device identifier in the correspondence table memory 304.
- This process is performed when data packet communication is not executed, when data packet communication is started, when data packet communication is completed, every time a predetermined time period elapses, or when data packet communication is completed. It may be executed when a certain period of time has passed since the end.
- the memory control circuits 403, 411, 416 is received by receiving antennas 305, 307, and 310, received by receiving circuits 401, 409, and 414, and stored in memos U402, 410, and 415, respectively.
- the device identifier is extracted and sent to the radio relay device control circuit 404.
- the radio relay device control circuit 404 refers to the correspondence table memory 304 based on the extracted identifier and corresponds to the destination radio communication device. Antenna The port identifier is sent to the switching control circuit 405.
- the packet is sent to the destination wireless communication device. If relaying cannot be performed, the wireless relay device control circuit 404 sends a signal indicating “no destination” to the switching control circuit 4005, and the switching control circuit 406 transmits to the receiving antenna that has received the data packet. The switching circuit 406 is controlled so as to select the antenna, and then the radio relay apparatus control circuit 404 transmits a communication response signal (NACK packet) indicating that communication is impossible from the selected transmission antenna.
- NACK packet communication response signal
- the memory control circuit 403 is received by the reception antenna 305, received by the reception circuit 401, and stored in the memory 402.
- the identifier of the destination wireless communication device is extracted from the received data packet and sent to the wireless relay device control circuit 404.
- the wireless relay device control circuit 404 refers to the correspondence table memory 304 based on the extracted identifier,
- the identifier of the antenna port corresponding to the destination wireless communication device is sent to the switching control circuit 405.
- the packet is sent to the destination wireless communication device.
- Wireless relay device control circuit 404 sends a signal indicating “no destination” to switching control circuit 405, and switching control circuit 406 selects transmitting antenna 306 that is paired with receiving antenna 305. Then, the switching circuit 406 is controlled so that the radio relay apparatus control circuit 404 transmits a communication response signal indicating that communication is impossible via the switching circuit 406, the transmission circuit 418, and the transmission antenna 306. The same processing is performed when relay processing of data packets received by antennas 307 and 710 is executed.
- the communication response signal for the data packet that also transmitted the transmission antenna power of the predetermined antenna port is not received within the timeout time, and the radio relay apparatus control circuit 404 does not receive the communication response signal in the correspondence table memory 304.
- the wireless relay device control circuit 404 controls the switching control circuit 406 so that the electric circuit connected to the transmission antenna is turned off.
- the switching control circuit 405 controls to turn on the power of the electrical circuit that has been turned off.
- the radio relay apparatus control circuit 404 sets the antenna port identifier ANT-A in the correspondence table memory 304 to When the identifier of the corresponding wireless communication device is deleted, the wireless relay device control circuit 404 causes the switching control circuit 404 to turn off the power to the transmission circuit 418 and the switches SW1, SW4, and SW7 connected to the transmission antenna 306. 406 is controlled.
- the wireless relay device control circuit 404 causes the switching control circuit 404 to turn off the power to the transmission circuit 418 and the switches SW1, SW4, and SW7 connected to the transmission antenna 306.
- 406 is controlled.
- the antenna port identifier ANT-A is sent from the radio relay apparatus control circuit 404 to the switching control circuit 405.
- the switching control circuit 405 controls to turn on the power of the transmission circuit 418 and the switches SW1, SW4, and SW7 connected to the transmission antenna 306. Power saving for the electrical circuit connected to the transmitting antenna 308 (transmitting circuit 408 and switches SW2, SW5, SW8) and the electrical circuit connected to the transmitting antenna 311 (transmitting circuit 413 and switches SW3, SW6, SW9) The processing for conversion is performed in the same manner.
- the wireless relay device control circuit 404 has a request to refer to the correspondence table memory 304 for the identifier of the wireless communication device that is the destination of the data packet from a plurality of the memory control circuits 403, 411, and 416.
- the radio relay apparatus control circuit 404 may process these multiple requests sequentially or in parallel.
- the radio relay apparatus control circuit 404 first refers to the correspondence table memory 304 for a certain request, and switches the corresponding antenna port identifier or a signal indicating “no destination”. After being sent to the control circuit 405, the correspondence table memory 304 is referred to for the next request.
- the radio relay device control circuit 404 When processing in parallel, the radio relay device control circuit 404 refers to the correspondence table memory 304 for a certain request, and sends a signal indicating the identifier of the corresponding antenna port or “no destination” to the switching control circuit 405. At the same time as See Mori 304.
- the wireless relay device 302 includes a spare memory in the force memory control circuit 403, 411, 416 or the wireless relay device control circuit 404 configured to refer to the correspondence table memory 304 when communicating.
- a copy of the correspondence between the identifier of the wireless communication device and the identifier of the antenna port stored in the correspondence table memory 304 may be saved.
- the spare memory is first referenced to find an antenna corresponding to the destination of the data packet, and the destination is registered in the spare memory.
- It may be configured to refer to the correspondence table memory 304 in the case of V, N.
- the wireless communication devices that communicate with the wireless relay device 302 are the wireless communication device 301, the wireless communication device 303, and the wireless communication device 309. However, there are one or two wireless communication devices. May be 4 or more wireless communication devices.
- radio relay apparatus 302 has the power of providing two antennas, that is, reception antenna 305 and transmission antenna 306 in order to communicate with radio communication apparatus 301. Instead of these, transmission and reception are combined. One antenna may be provided.
- a reception antenna may be provided to communicate with the wireless communication apparatus 309, which may include one antenna for both transmission and reception. Instead of the antenna 310 and the transmission antenna 311, one antenna for both transmission and reception may be provided.
- the antennas of radio communication apparatuses 301, 303, and 309 and the antenna of radio relay apparatus 302 may be external antennas or antennas built in these apparatuses.
- the wireless relay device control circuit 404 refers to the correspondence table memory 304 based on the identifier of the destination wireless communication device extracted by the memory control circuit 403, and uses the obtained antenna port identifier as the switching control circuit 405. It is also possible to send the antenna port identifier directly to the switching control circuit 405 without going through the radio relay apparatus control circuit 404.
- the switching control circuit 405 performs switching based on the identifier of the antenna port. Force to perform control to turn on one switch SW in the circuit 406.
- all the switches SW1 to SW9 in the switching circuit 406 are turned off. Also good.
- the transmission circuit 418 completes the transmission process, only the switches SW1, SW4, and SW7 connected to the transmission circuit 418 are turned off, or when the transmission circuit 408 completes the transmission process, the transmission circuit 408 is connected. Even if only the selected switches SW2, SW5, SW8 are turned off, or when the transmission circuit 413 completes the transmission process, only the switches SW3, SW6, SW9 connected to the transmission circuit 413 may be turned off. Yo ...
- the force memory 402 and the receiving circuit 401 may be separate, assuming that the receiving circuit 401 and the memory 402 are separate.
- the force memory 410 and the receiving circuit 409 may be separate, assuming that the receiving circuit 409 and the memory 410 are separate.
- the receiving circuit 414 and the memory 415 are different from each other, the memory 415 and the receiving circuit 414 may be integrated.
- the memory control circuit 4003, 411, 416 is different from the wireless relay device control circuit 404.
- the memory control circuit 403 and Z or 411 and / or 416 and the wireless relay device control circuit 404 are integrated. You may do it.
- the force timer circuit 420 and the radio relay apparatus control circuit 404 which are different from each other in the timer circuit 420 and the radio relay apparatus control circuit 404, may be integrated. Further, the switching control circuit 405 may be configured integrally with the wireless relay device control circuit 404.
- the wireless relay device control circuit 404 deletes the identifier of the corresponding wireless communication device in the correspondence table memory 304
- the identifier of the corresponding wireless communication device in the correspondence table memory 304 may be deleted by a component other than the wireless relay device control circuit 404!
- the communication response signal for the transmitted data packet is not received within the time-out period, and the power control of the switching circuit 406 and the transmission circuits 418, 408, and 413 when the wireless relay device control circuit 404 determines that communication is impossible is switching control.
- power supply control may be performed by a component other than the switching control circuit 405.
- each wireless relay device control circuit 404 performs processing for monitoring whether the communication partners of the plurality of transmission antennas 306, 308, and 311 can communicate with each other.
- a wireless relay device control circuit may be provided.
- Timer circuit 420 may be reset and stopped when the count is stopped. Here, the count is stopped when an ACK packet is received for the packet that was sent when the count was started, or when an ACK packet for the sent packet was not received and the timeout period passed. It is possible.
- the azimuth angle that can be communicated by each antenna port is Narrow.
- the number of antenna ports provided in the radio relay apparatus 302 is not limited to three, and for example, the radio relay apparatus is provided with eight or more antenna ports (ie, eight or more pairs of transmission antennas and reception antennas). 302 may be configured.
- FIG. 11 is a block diagram of a radio communication system according to the second embodiment of the present invention.
- the same components as those in FIG. 3 are denoted by the same reference numerals, and description thereof is omitted.
- the wireless communication system of the present embodiment is configured to include a wireless communication device 301a and a wireless relay device 302a.
- the wireless communication device 301a includes an antenna set including a plurality of antennas, specifically, a plurality of receiving antennas 501, 504 and 507 having a predetermined pattern directivity, and a plurality of transmitting antennas 502, 505 having a predetermined pattern directivity. 508 and a non-directional transmission / reception antenna 510 in addition thereto.
- the wireless relay device 302a is an antenna set including a plurality of antennas.
- a plurality of receiving antennas 512, 5 15, 518 having a predetermined pattern directivity, a plurality of transmitting antennas 513, 316, 319 having a predetermined pattern directivity, and a non-directional transmitting / receiving antenna 521 Composed.
- Radio communication apparatus 301a and radio relay apparatus 302a communicate with each other in the same manner as radio communication apparatus 301 and radio relay apparatus 302 in FIG. 3, and radio relay apparatus 302a communicates with radio communication apparatus 301a and other radio communications. Relay communication with a device (not shown).
- the wireless communication device 301a in addition to performing data packet relay as in the first embodiment, is a specific wireless communication device (not shown) or wireless.
- each antenna port of the wireless relay device 302 is configured to cover only a predetermined narrow and azimuth range, so that the wireless relay device 302 has wireless communication with an arbitrary azimuth angle.
- the second embodiment includes a plurality of antenna pairs 512, 513, 515, 516, and 518, 519 provided in place of the antenna ports of the antennas 305 and 306 in FIG.
- the extended antenna port can cover multiple azimuth directions. According to this, for example, referring to FIG. 11, by using the antenna pairs 515 and 516 and the antenna ports of the antennas 307 and 308, there are two wireless communication devices in the direction in which these antennas exist. Even at times, it will be possible to communicate simultaneously with these wireless communication devices using different wireless channels.
- An antenna set including a plurality of antennas 512, 513, 515, 516, 518, 519 is provided with an antenna port identifier ANT-A, similar to antennas 305, 306 in FIG.
- reception antenna 501 and transmission antenna 502 have coverage areas 503 having similar directivity patterns that overlap each other, and therefore radio communication apparatus 30la is within the range of coverage area 503. It is possible to transmit / receive to / from other wireless communication devices (not shown) having a transmission / reception coverage area.
- the reception antenna 504 and the transmission antenna 505 have a coverage area 506 with the same directivity pattern that overlaps each other. Therefore, the wireless communication device 301a has a transmission / reception coverage area within the coverage area 506.
- Wireless communication device in FIG. 11, wireless relay device 302a).
- the reception antenna 507 and the transmission antenna 508 have the same directional pattern coverage area 509 that overlaps each other.
- the wireless communication device 301a has a transmission / reception coverage area within the coverage area 509. Wireless communication device (not shown). The wireless communication device 301a also transmits other wireless communication having a transmission / reception coverage area within the coverage area 511 of the omnidirectional reception antenna 510. It can communicate with a device (in FIG. 11, wireless relay device 302a).
- the reception antenna 512 and the transmission antenna 513 have a coverage area 514 having the same directivity pattern that overlaps each other, and thus the radio relay apparatus 302a has the coverage area 514. It can transmit / receive to / from another wireless communication apparatus (in FIG. 11, wireless communication apparatus 301a) having a transmission / reception coverage area within the range.
- the receiving antenna 515 and the transmitting antenna 516 have a coverage area 517 with the same directivity pattern overlapping each other, and other wireless communication devices (transmission / reception power) within the range of the coverage area 517 ( (Not shown).
- the reception antenna 518 and the transmission antenna 519 have the same directional pattern force Baregeria 520 overlapping each other, and other wireless communication apparatuses (not shown) having a transmission / reception coverage area within the coverage area 520. )).
- the radio relay apparatus 302a can communicate with another radio communication apparatus (radio communication apparatus 301a in FIG. 11) having a transmission / reception coverage area 522 in the non-directional transmission antenna 521.
- FIG. 12 is a plan view showing in detail a coverage area in the wireless communication system of FIG.
- the wireless communication device 301a and the wireless relay device 302a use electromagnetic waves with high straightness such as millimeter waves as a wireless medium. Therefore, the coverage areas 503, 506, 509, 514, 517, and 520 are beams with a narrow angular width. It has a shape.
- the beam-shaped coverage areas are preferably provided so as not to overlap each other and to cover an arbitrary azimuth angle in a horizontal plane. In Fig. 11, only three of each are provided to simplify the illustration.
- wireless communication device 301a and wireless relay device 302a have an overlap of coverage area 506 and coverage area 514 (that is, coverage area 523), reception antenna 504 and transmission antenna 505 of wireless communication device 301a are used, By using the reception antenna 512 and the transmission antenna 513 of the wireless relay device 302a, communication between the wireless communication device 301a and the wireless relay device 302a is possible.
- FIG. 13 is a diagram for explaining the antenna directivity in the wireless communication system of FIG. It is a turn diagram.
- a wireless communication apparatus equipped with a directional antenna is installed at installation position 601 and a wireless communication apparatus equipped with a directional antenna is installed at installation position 603, the directional antenna at installation position 601 becomes the coverage area.
- the directional antenna at the installation position 603 has a coverage area 604.
- communication between the wireless communication devices installed at the installation position 601 and the installation position 603 becomes possible.
- communication becomes difficult.
- the radio communication device 301a includes the reception antenna 501 and the transmission antenna 502 so that the coverage area of the directivity pattern overlaps the coverage area 503.
- the wireless communication device 301a can transmit / receive to / from another wireless communication device (not shown) having a transmission / reception coverage area within the coverage area 503.
- the receiving antenna 501 and the transmitting antenna 502 are a pair.
- the reception antenna 504 and the transmission antenna 505 are a pair
- the reception antenna 507 and the transmission antenna 508 are a pair.
- the communicable range of the wireless communication apparatus 301a is a power coverage area, for example, between the coverage area 503 and the coverage area 506, between the coverage area 503 and the coverage area 509, or coverage. If there is an overlapping part between area 506 and coverage area 509, the communicable range of wireless communication device 301a becomes narrow, so each antenna is provided in wireless communication device 301a so that these coverage areas do not overlap as much as possible. It is desirable.
- the method of providing an antenna for the radio relay apparatus 302a is the same.
- a pair of transmission antennas 502, 505, 508 and a plurality of reception antennas 501, 504, 507 provided in the wireless communication device 301a are paired.
- the antenna is selected, and a plurality of transmitting antennas 513, 516, 519 and a plurality of receiving antennas 512, 515, 518 force provided in the wireless repeater 302a are paired with an antenna. Each tena must be selected.
- the wireless communication device 301a and wireless relay apparatus 302a can communicate with each other by using these antennas 510 and 521.
- the wireless communication device 301a selects one of the plurality of transmission antennas 502, 505, and 508, and transmits a data packet to the wireless relay device 302a.
- Radio relay apparatus 302a selects one of the plurality of receiving antennas 512, 515, and 518 to receive the data packet, and if it cannot receive the selected receiving antenna, it switches to another receiving antenna and receives it. .
- the radio relay apparatus 302a transmits a feedback signal indicating the result of “communication impossible” to the antenna 510 via the antenna 521.
- the wireless communication device 301a receives the feedback signal indicating “communication impossible” via the antenna 510, the wireless communication device 301a selects another transmission antenna from the transmission antennas 502, 505, and 508, and transmits the data packet to the wireless relay device 302a. Send.
- one of the transmission antennas 502, 505, 508 of the wireless communication device 30 la and the wireless relay device 302a can receive the data packet transmitted from the wireless communication device 30 la and the wireless relay A combination with one of the receiving antennas 512, 515, 518 of the device 302a is selected.
- the wireless communication device 3 Ola selects a reception antenna to be paired therewith, and similarly, one reception antenna of the wireless relay device 302a is selected. Then, the radio relay apparatus 302a selects a transmission antenna to be paired with it. As a result, the transmission antenna and the reception antenna that the wireless communication apparatus 301a uses for communication with the wireless relay apparatus 302a are selected, and the transmission antenna and the reception antenna that the wireless relay apparatus 302a uses for communication with the wireless communication apparatus 301a are selected. An antenna is selected.
- FIG. 14 is a block diagram showing a detailed configuration of radio communication apparatus 301a and radio relay apparatus 302a in FIG.
- the same components as those in FIGS. 3, 4 and 11 are denoted by the same reference numerals, and description thereof is omitted.
- a wireless communication device 301a includes a wireless communication device control circuit 704 that manages signals to be transmitted and received and controls the operation of the wireless communication device 301a.
- An output signal from the control circuit 704 is input to the antenna control circuit 701 and the transmission switch 703.
- the switch 703 includes one input side terminal and three output side terminals a, b, and c.
- the terminals a, b, and c respectively include wireless transmission circuits (hereinafter referred to as transmission circuits) 705, 706, and 707, respectively. Via the transmission antennas 502, 505, and 508.
- the switch 703 selectively switches the input side terminal to connect to any one of the output side terminals a, b, and c.
- the output signal from is transmitted.
- the receiving antennas 501, 504, and 507 are connected to radio receiving circuits (hereinafter referred to as receiving circuits) 720, 721, and 722, respectively, and the output side of each receiving circuit 720, 721, and 722 is a receiving switch.
- the 718 is connected to the input terminals a, b, and c, respectively.
- the switch 718 selectively switches one of its input side terminals a, b, and c to connect to the output side terminal, and wirelessly communicates the received signal. Transmit to device control circuit 704.
- the antenna 510 is connected to the feedback transmission circuit 717a and the feedback reception circuit 717b via the circulator 510a.
- the feedback transmission circuit 717a is further connected to the antenna control circuit 701, and the feedback transmission circuit 717a, the circulator 510a, and the antenna 510 all operate as means for transmitting feedback to the radio relay apparatus 302a (details will be described later).
- the feedback receiving circuit 717b is further connected to the antenna control circuit 701, and the antenna 510, the circulator 510a, and the feedback receiving circuit 717b all operate as means for receiving feedback from the radio relay apparatus 302a (details will be described later).
- a memory 702 and a timer circuit 708 are connected to the antenna control circuit 701.
- the radio relay apparatus 302a includes receiving antennas 512, 515, 518, receiving circuits 713, 715, 716, and a receiving switch 711 instead of the receiving antenna 305 and the receiving circuit 401 of FIG.
- the receiving antennas 512, 515, and 518 are connected to receiving circuits 713, 715, and 716, respectively, and the output sides of the receiving circuits 713, 715, and 716 are connected to input side terminals a, b, and c of the switch 711, respectively.
- the radio relay apparatus 302a further includes an antenna control circuit 709 that operates under the control of the radio relay apparatus control circuit 404.
- the switch 711 In response to a control signal from the antenna control circuit 701 connected to the output terminal, the switch 711 selectively switches so that one of the input terminals a, b, and c is connected to the output terminal. Received signal The number is temporarily stored in the memory 402.
- the radio relay apparatus 302a includes transmission antennas 513, 516, 519, transmission circuits 723, 724, 725, and a transmission switch 719 instead of the transmission antenna 306 and the transmission circuit 418 in FIG.
- One of the output signals from the circuit 406 is input to the switch 719 instead of the transmission circuit 418.
- the switch 719 has one input side terminal and three output side terminals a, b, c.
- the terminals a, b, c are connected to the transmission antennas 513, 516, 519 via the transmission circuits 723, 724, 725, respectively. Connected to. In response to a control signal from the antenna control circuit 709, the switch 719 selectively switches the input side terminal to connect to any one of the output side terminals a, b, and c, and outputs from the switching circuit. Transmit the signal. Further, the antenna control circuit 709 is connected to a feedback transmission circuit 714a and a feedback reception circuit 714b.
- the feedback transmission circuit 714a is further connected to the antenna 521 via the circulator 521a, and the feed knock transmission circuit 714a, the circulator 521a, and the antenna 521 all operate as means for feedback transmission to the radio communication device 301a ( Details will be described later).
- the feedback receiving circuit 714b is further connected to the antenna 521 via the circulator 521a, and the antenna 521, the circulator 521a, and the feedback receiving circuit 714b all operate as means for receiving feedback from the radio communication device 30 la (details). (See below). Further, a memory 710 and a timer circuit 712 are connected to the antenna control circuit 709.
- one transmission antenna to be used among the transmission antennas 502, 505, and 508 is determined in the wireless communication device 301a.
- a procedure for determining one receiving antenna to be used among the receiving antennas 512, 515, and 518 in the radio relay apparatus 302a will be described.
- the memory 702 of the wireless communication device 301a is stored in the transmission antennas 502, 505, and 508 used to communicate with the wireless relay device 302a during the previous communication (or before the wireless communication device 301a is powered off).
- the transmitting antenna information and / or the receiving antenna information related to the receiving antennas 501, 504, and 507 are stored. If there has not been communication with the radio relay apparatus 302a before, the memory 702 stores a predetermined initial value.
- the antenna control circuit 701 of the wireless communication device 301a previously turns on the power when the wireless communication device 301a is turned on or when the wireless communication device 301a detects disconnection with the wireless relay device 302a.
- the switch 703 is controlled to read from the 702 and select one of the transmission antennas 502, 505, and 508.
- the transmission circuit 705 transmits the wireless communication device as a part of the transmission processing inherent to the transmission antenna 502 or according to the control from the wireless communication device control circuit 704 that controls the wireless communication device 301a.
- a data packet having the identifier of 301a as the source address and the identifier of the wireless relay device 302a as the destination address is transmitted from the transmitting antenna 502.
- the transmission antenna 505 or 508 when the transmission antenna 505 or 508 is selected, the data packet is transmitted by the corresponding transmission circuit 706 or 707. At the same time as transmitting a data packet from the transmitting antenna 502, 505 or 510, the antenna control circuit 701 starts counting of the timer circuit 708.
- the memory 710 of the wireless relay device 302a stores the reception antennas 512, 515, and 518 used to communicate with the wireless communication device 301a during the previous communication (or before the wireless relay device 302a is powered off).
- the reception antenna information and / or the transmission antenna information related to the transmission antennas 513, 516, and 519 are stored. If there has not been communication with the wireless communication device 301a before, the memory 710 stores a predetermined initial value.
- the antenna control circuit 709 of the wireless relay device 302a previously turns on the power when the power of the wireless relay device 302a is turned on or when the wireless relay device 302a detects disconnection of communication with the wireless communication device 301a.
- the reception antenna information used to communicate with the wireless communication device 301a when it is turned on is read from the memory 710, or the initial value is set if there is no communication with the wireless communication device 301a when the power is turned on before.
- the switch 711 is controlled to read out from the memory 710 and select one of the receiving antennas 512, 515, and 518. For example, when the reception antenna 512 is selected, the antenna control circuit 709 switches to connect to the contact point a of the switch 711 and simultaneously starts counting of the timer circuit 712. When a data packet is received within the time-out time, a reception process is performed on the received data packet by the receiving circuit, and the processed data packet is temporarily stored in the memory 402.
- the memory control circuit 403 extracts the destination address from the data packet temporarily stored in the memory 402 and extracts the destination address The address is sent to the antenna control circuit 709 via the radio relay apparatus control circuit 404. If the extracted destination address is the address of the wireless relay device 302a, it indicates that communication with the wireless communication device 301a that is the source of the data packet is possible, and the antenna control circuit 709 indicates that communication is possible.
- the feedback signal shown is transmitted from the feedback transmission circuit 714a to the wireless communication device 301a, and the identifier of the reception antenna 512 that has become communicable is written in the memory 710.
- the antenna control circuit 709 controls the switch 711 to select the next receiving antenna 515, resets the count of the timer circuit 712 and restarts it, and the timeout time The reception by the reception antenna 515 is continued until the time elapses, and the reception of the data packet having the address of the wireless relay apparatus 302a as the destination address is waited.
- the same processing is performed.
- 518 and reception circuit 716 are used to wait for a data packet to be received. Furthermore, when the data packet cannot be received from the receiving antenna 518 until the timeout time elapses, or when the destination address of the data packet received by the receiving antenna 518 is not the address of the wireless relay device 302 a, that is, When any reception antenna that can be selected by the switch 711 cannot receive, the antenna control circuit 709 transmits a feedback signal indicating “not communicable” to the radio communication device 30 la by the feedback transmission circuit 714a.
- the feedback receiving circuit 717b of the wireless communication device 301a provides a feedback signal indicating that "communication is possible” until the time-out time elapses (that is, until the count of the timer circuit 708 exceeds a certain value).
- the transmitting antenna information to be used is written in the memory 702. Alternatively, if nothing is received until the timeout period elapses, or regardless of the count of the timer circuit 708, this indicates that communication is not possible.
- the antenna control circuit 701 controls the switch 703 to select another transmission antenna, similarly to the switching of the reception antenna by the antenna control circuit 709 of the radio relay apparatus 302a.
- antenna control circuit 701 of radio communication apparatus 301a selects the reception antenna paired with the transmission antenna.
- the switch 718 is controlled so as to select, and the antenna control circuit 709 of the radio relay apparatus 302a controls the switch 719 so as to select a transmission antenna that is paired with the reception antenna.
- the reception antenna 501 of the wireless communication device 301a performs reception processing by the reception circuit 720, or when the reception antenna 504 is selected, reception by the reception circuit 721.
- the reception circuit 722 performs reception processing.
- the wireless relay device 302a When the transmission antenna 513 of the wireless relay device 302a is selected, the wireless relay device 302a performs transmission processing by the transmission circuit 723, or when the transmission antenna 516 is selected, the transmission circuit 724 performs transmission processing. If the transmission antenna 519 is selected, the transmission circuit 725 performs transmission processing.
- FIG. 15 is a flowchart showing antenna control processing executed by the antenna control circuit 709 of the wireless relay device 302a
- FIG. 16 shows antenna control executed by the antenna control circuit 701 of the wireless communication device 301a. It is a flowchart which shows a process. The processes in FIGS. 15 and 16 are executed in the process in which the wireless relay device 302a relays packet transmission from the wireless communication device 301a to another wireless communication device (not shown). One transmitting antenna to be used among 502, 505, and 508 is determined, and one receiving antenna to be used among the receiving antennas 512, 515, and 518 is determined in the radio relay apparatus 302a.
- step S41 of Fig. 15 the antenna control circuit 709 of the radio relay apparatus 302a reads the past or initial antenna selection information from the memory 710, and in step S42, based on the antenna selection information, receives the receiving antenna. Any of 512, 515, 518 The switch 711 is switched to select one force, and at the same time as switching, the timer circuit 712 starts counting in step S43.
- step S44 the antenna control circuit 709 determines whether or not it has received the packet to be relayed within the time-out period. If YES, the process proceeds to step S45. If NO, the process proceeds to step S48.
- the packet when a packet to be relayed is received, the packet is temporarily stored in the memory 402 as in the first embodiment.
- the antenna control circuit 709 transmits a “communication enabled” feedback signal to the wireless communication device 301a via the transmission circuit 714a and the antenna 521, and in step S46, the state of the switch 711 when the packet is received.
- the antenna selection information in the memory 710 is updated based on.
- the antenna control circuit 709 gives control to the radio relay apparatus control circuit 404 and relays the received packet to the destination radio communication apparatus.
- the packet relay process can be executed in the same manner as in the first embodiment, and includes, for example, steps S2 to S18 in the processes of FIGS.
- step S47 the antenna control circuit 709 determines whether there is another selectable antenna. If YES, the process proceeds to step S50. If NO, the process proceeds to step S49.
- step S50 the antenna control circuit 709 switches the switch 711 and returns to step S43.
- step S49 the antenna control circuit 709 transmits a “communication impossible” feedback signal to the wireless communication device 301a via the transmission circuit 714a and the antenna 521, and returns to step S43.
- step S51 of FIG. 16 the antenna control circuit 701 of the wireless communication apparatus 301a reads out the past or initial antenna selection information from the memory 702, and in step S52, based on this antenna selection information, the transmission antennas 502, 505 are read out. , Switch 703 to select one of 508.
- step S53 the antenna control circuit 701 transmits a packet via the selected antenna, and simultaneously starts counting of the timer circuit 708, and proceeds to step S54.
- step S54 the antenna control circuit 701 determines whether or not the feedback signal has been received via the antenna 510 and the receiving circuit 717b within the time-out period, and the “communication enabled” feedback is determined. When a feedback signal is received, the process proceeds to step S55.
- step S56 the antenna control circuit 701 updates the antenna selection information in the memory 710 based on the state of the switch 703 when the packet is transmitted in step S53, and ends the process.
- step S56 the antenna control circuit 701 determines whether there is another selectable antenna. If YES, the switch 703 is switched in step S57 and the process returns to step S53. If NO, the process is performed. Exit.
- the wireless relay device 302a relays packet transmission from the wireless communication device 301a to another wireless communication device (not shown), and at the same time, the wireless communication device 301a [ Communicate between the transmitting antennas 502, 505, and 508 [Determine one transmitting antenna that can be used, and use it for communication among the receiving antennas 512, 515, and 518 in the wireless repeater 302a. One receiving antenna can be determined.
- FIG. 17 is a flowchart showing the antenna management processing executed by the antenna control circuit 709 of the wireless relay device 302a
- FIG. 18 is a flowchart showing the antenna management processing executed by the antenna control circuit 701 of the wireless communication device 301a. It is.
- the processing in FIGS. 17 and 18 is performed when communication for packet relay is not occurring, and one transmission antenna to be used among the transmission antennas 502, 505, and 508 is determined in the wireless communication device 301a.
- one receiving antenna to be used is determined from among the receiving antennas 512, 515, and 518.
- step S61 of Fig. 17 the antenna control circuit 709 of the radio relay apparatus 302a determines whether or not the radio relay apparatus 302a is communicating. If YES, the process is terminated, and if NO, Advances to step S62. Steps S62 to S64 are the same as steps S41 to S43 in FIG. Next, in step S65, the antenna control circuit 709 transmits a monitoring signal for checking whether or not the transmission antenna selected in the wireless communication device 301a is usable for communication within the timeout time. It is determined whether it has been received from 30 la. If YES, the process proceeds to step S66. If NO, the process proceeds to step S68. Step S66 and the subsequent step S67 are shown in Figure 15.
- Steps S45 and S46 are the same, and after execution of Step S67, the process is terminated. Further, steps S68 to S70 are the same as steps S48 to S50 of FIG. 15, respectively, after the execution of step S69, the process is terminated as it is, and after the execution of step S70, the process returns to step S64.
- step S71 of Fig. 18 the antenna control circuit 701 of the wireless communication device 301a determines whether or not the wireless communication device 301a is communicating. If YES, the process is terminated, and if NO, Advances to step S72. Steps S72 and S73 are the same as steps S51 and S52 in FIG. 16, respectively. Next, in step S53, the antenna control circuit 701 also transmits a monitoring signal for checking whether or not the transmission antenna selected in step S73 can be used for communication. At the same time, the timer circuit 708 starts counting. Subsequent steps S75 to S78 are the same as steps S54 to S57 in FIG.
- one of the transmission antennas 502, 505, 508 can be used for communication in the wireless communication device 301a.
- the transmitting antenna can be determined, and one of the receiving antennas 51 2, 515, 518 that can be used for communication can be determined in the radio relay apparatus 302a.
- FIG. 19 is a flowchart showing a modified antenna management process executed by the antenna control circuit 709 of the wireless relay apparatus 302a
- FIG. 20 shows a modified example executed by the antenna control circuit 701 of the wireless communication apparatus 301a
- 5 is a flowchart showing antenna management processing. The processing of FIG. 19 and FIG. 20 is executed when communication for packet relay does not occur, and determines one transmission antenna to be used among the transmission antennas 513, 516, and 519 in the wireless relay apparatus 302a. In the wireless communication apparatus 301a, one reception antenna to be used is determined from among the reception antennas 501, 504, and 507.
- step S81 of Fig. 19 the antenna control circuit 709 of the radio relay apparatus 302a determines whether or not the radio relay apparatus 302a is in communication. If NO, go to step S82.
- step S82 the antenna control circuit 709 reads past or initial antenna selection information from the memory 710, and in step S83, based on this antenna selection information, V of the transmission antennas 513, 516, 519 is shifted. Toggle switch 719 to select one.
- step S84 the antenna control circuit 709 sends a monitoring signal from the transmission antenna to check whether the transmission antenna selected in step S83 is usable for communication. At the same time, the timer circuit 712 starts counting and proceeds to step S85.
- step S85 the antenna control circuit 709 determines whether or not the feedback signal has been received via the antenna 521 and the reception circuit 714b within the timeout period. The process proceeds to step S87 when the feedback signal “communication impossible” is received and when the feedback signal is not received.
- step S86 the antenna control circuit 709 updates the antenna selection information in the memory 710 based on the state of the switch 719 when the monitoring signal is transmitted in step S84, and ends the process. .
- step S56 the antenna control circuit 709 determines whether there is another selectable antenna. If YES, the switch 719 is switched in step S88 and the process returns to step S84. If NO, the process is performed. finish.
- step S91 of FIG. 20 the antenna control circuit 701 of the wireless communication device 301a determines whether or not the wireless communication device 301a is communicating. If YES, the process is terminated, and if NO, step S92 Proceed to In step S92, the antenna control circuit 701 reads out the past or initial antenna selection information from the memory 702, and in step S93, this antenna selection ⁇ blueprint [based on the receiving antennas 501, 504, The switch 718 is switched so that one of the 507 is selected, and at the same time as the switching, the timer circuit 708 starts counting at step S94! In step S95, the antenna control circuit 701 determines whether or not the monitoring signal is received within the timeout period. If YES, the process proceeds to step S96.
- step S98 is performed. Proceed to In step S96, the antenna control circuit 701 transmits a “communication enabled” feedback signal via the transmission circuit 717a and the antenna 510, and in step S97, the monitoring signal is transmitted. Based on the state of the switch 718 at the time of reception, the antenna selection information in the memory 702 is updated, and the process ends.
- step S98 the antenna control circuit 701 determines whether there is another selectable antenna. If YES, the process proceeds to step S100, and if NO, the process proceeds to step S99. In step S100, the antenna control circuit 701 switches the switch 718 and returns to step S94. In step S99, the antenna control circuit 701 transmits a “communication impossible” feedback signal to the wireless relay device 302a via the transmission circuit 717a and the antenna 510, and ends the process.
- antenna control circuit 709 of radio relay apparatus 302a receives the reception that is paired with the transmission antenna.
- the switch 711 is controlled so as to select an antenna, and the antenna control circuit 701 of the wireless communication device 301a controls the switch 703 so as to select a transmission antenna that is paired with the receiving antenna.
- FIG. 21 is a sequence diagram showing a monitoring operation executed in the wireless communication system of FIG. This monitoring operation shows a modified process for determining an antenna to be used for communication in the wireless communication device 301a.
- an omnidirectional monitoring signal is transmitted from the wireless relay device 302a, and this monitoring operation is performed.
- the wireless communication device 301a that has received the operation determines the antenna in the direction in which the wireless relay device 302a is located by sequentially switching the transmission antennas 502, 505, and 508 and transmitting the response signal.
- antenna control circuit 709 of radio relay apparatus 302a transmits omnidirectional monitoring signal P31 via transmission circuit 714a and antenna 521.
- the antenna control circuit 701 of the wireless communication device 301a Switch the switch 703 so that one of the 502, 505, and 508! / Slip force is selected, and send the response packet P32 from the selected antenna 502, and at the same time start the count of the timer circuit 70 8 .
- the switch 703 is switched so that the transmitting antenna 502 is selected (that is, connected to the contact a).
- the antenna control circuit 701 of the wireless communication device 301a Switch 703 is switched so that another transmitting antenna 505 is selected (that is, connected to contact b), and the reselected antenna 505 power also transmits a response packet P32 and at the same time counts timer circuit 708.
- the antenna control circuit 701 of the wireless communication device 301a Switch 703 is switched to select another transmitting antenna 508 (i.e., connected to contact c), and the response packet P32 is transmitted again from the selected antenna 508, and at the same time, the timer circuit 708 starts counting.
- the antenna control circuit 70 1 of the wireless communication device 301a The state of switch 703 when P32 is transmitted is stored in memory 702 as usable antenna selection information.
- data packet relaying can be executed as in the first embodiment.
- the transmission content of the feedback signal indicating “communicable” transmitted from the feedback transmission circuit 714a of the wireless relay apparatus 302a to the feedback reception circuit 717b of the wireless communication apparatus 301a is generally the wireless relay apparatus.
- the reception status such as a packet in 302a or a monitoring signal may be included.
- wireless data It may be a signal reception level, a switching control content of the switch 703 of the wireless communication device 301a, or a data packet received and processed by the receiving circuit 713, 715 or 716.
- the transmission content of the feedback signal indicating that “communication is possible” transmitted from the feedback transmission circuit 717a of the wireless communication device 301a to the feedback reception circuit 714b of the wireless relay device 302a is a packet or a packet in the wireless communication device 301a.
- the reception status such as a monitoring signal can be included.
- the power of the data relay device 302a is set to the address of the wireless relay device 302a as the destination address of the data packet transmitted to the wireless relay device 302a in order to select the transmission antenna of the wireless communication device 30la.
- the broadcast address may be used so that all wireless communication devices including 302a receive the address, or the address of a wireless communication device other than the wireless relay device 302a such as another wireless communication device communicating with the wireless relay device 302a may be used. Or an identifier may be used.
- the wireless relay device 302a determines the source and destination of the data packet, and if the data packet can be determined to be a data packet transmitted by the wireless communication device 301a, a feedback signal indicating that communication is possible. Is transmitted from the feedback transmission circuit 714a to the wireless communication device 301a.
- the wireless communication apparatus 301a may be configured to be connected to components other than the antenna control circuit 701. Further, it may be started by a component other than the force antenna control circuit 701 that the antenna control circuit 701 starts counting of the timer circuit 708 of the wireless communication device 301a. Further, the wireless relay device 302a may be configured to be connected to a component other than the force antenna control circuit 709 in which an example of connecting the memory 710 to the antenna control circuit 709 is shown. Also, start with a component other than the force antenna control circuit 709 that the antenna control circuit 709 starts counting of the timer circuit 709 of the radio relay apparatus 302a.
- the antenna control circuit 701 and the wireless communication device control circuit 704 may be configured as the same circuit.
- the antenna control circuit 709 and the wireless relay device control circuit 404 may be configured as the same circuit.
- These transmission circuits may be provided between the switch 703 and the wireless communication apparatus control circuit 704.
- the switch 718 of the wireless communication device 301a is provided with a receiving circuit 720, 721, 722 connected to each of the receiving antennas 501, 504, 507. Alternatively, one or more receiving circuits are provided. May be provided between the switch 718 and the wireless communication device control circuit 704.
- the switch 711 of the radio relay apparatus 302a is provided with a receiving circuit 713, 715, 716 connected to each of the receiving antennas 512, 515, 518. Alternatively, one or more receiving circuits are provided. May be provided between the switch 711 and the memory 402.
- the power of connecting the transmitting circuits 723, 724, and 725 to the transmitting antennas 513, 516, and 519 for each of the transmitting antennas 513, 516, and 519 is provided instead of the switch 719 of the wireless relay device 302a. It may be provided between the switch 719 and the switching control circuit 406.
- the wireless communication device 301a includes a feedback transmission circuit 717a, a feedback reception circuit 717b, and a circulator 510a
- the wireless relay device 302a includes a feedback transmission circuit 714a, a feedback reception circuit 714b, and a circulator 521a.
- the direction in which the feedback signal is transmitted is limited to only one direction, and the wireless communication device 301a includes only the feedback transmission circuit 717a, and the wireless relay device 302a includes only the feedback reception circuit 714b.
- the wireless communication device 30 la may include only the feedback reception circuit 717b, and the wireless relay device 302a may include only the feedback transmission circuit 714a.
- another transmission circuit power data packet of the wireless communication device 30 la is transmitted and received by another reception circuit of the wireless relay device 302a, and a feedback signal indicating a result of whether or not communication is possible is transmitted to the wireless relay device.
- the other transmission circuit power of the device 302a may be transmitted and received by the other reception circuit of the wireless communication device 301a.
- the wireless communication device 301a includes a plurality of transmission circuits and transmission antennas switched by a switch 703, a plurality of reception circuits and reception antennas switched by a switch 718, a feedback transmission circuit 717a and a feedback reception circuit 717b, instead of this, the receiving circuit and receiving circuit switched by switch 718
- the function of the reception antenna is realized by the feedback reception circuit 717 and the reception antenna 510, whereby the wireless communication device 301a is switched to a plurality of transmission circuits and transmission antennas that can be switched by the switch 703, and the feedback reception circuit 717 and the reception antenna 510. You may comprise.
- the wireless relay device 302a includes a plurality of transmission circuits and transmission antennas switched by a switch 719, a plurality of reception circuits and reception antennas switched by a switch 711, a feedback transmission circuit 714a and a feedback reception circuit 714b, and an antenna 521.
- the functions of the transmission circuit and the transmission antenna that are switched by the switch 719 are realized by the feedback transmission circuit 714 and the transmission antenna 521, thereby enabling the radio relay apparatus 302a to perform feedback transmission.
- a circuit 714, a transmission antenna 521, and a plurality of reception circuits and reception antennas that are switched by the switch 711 may be provided.
- the wireless relay device 302a includes a plurality of transmission circuits and transmission antennas switched by a switch 719, a plurality of reception circuits and reception antennas switched by a switch 711, a feedback transmission circuit 714a and a feedback reception circuit 714b,
- the transmission antenna 521 is further provided with a plurality of transmission circuits and transmission antennas, and a plurality of reception circuits and reception antennas.
- the wireless relay device 302a is switched by a plurality of switches 719.
- a transmission circuit and a transmission antenna, a plurality of reception circuits and reception antennas switched by the switch 711, a feedback transmission circuit 714 and a transmission antenna 521 may be provided.
- the timer circuits 708 and 712 may be reset and stopped when the count is stopped.
- the packet is not received until the switch 711, 718 is switched to a predetermined receiving antenna and the time-out time elapses. It can be stopped when the timeout period elapses without receiving the feedback signal for the transmitted packet.
- antennas 510 and 521 have a non-directional pattern
- the antennas having directivity characteristics capable of transmitting and receiving in a wide azimuth angle may be used instead.
- the wireless relay device 302a of this embodiment only the antenna ports of the antennas 305 and 306 in Fig. 3 are provided with a plurality of antenna pairs 512, 513, 515, 516, and 518, 519.
- Expansion Force configured to replace the antenna port that has been replaced Further antenna ports may similarly be replaced with extended antenna ports with multiple antenna pairs.
- the radio communication device 301a and the radio relay device 302a are configured to use radio waves for communication, but other communication such as infrared communication or optical communication is used.
- a method may be used.
- the antenna control circuits 701 and 709 connect a plurality of transmitting antennas to the receiving antenna and switch them.
- the antenna control circuits 701 and 709 are connected to a plurality of light emitting units and light receiving units. It becomes a configuration such as.
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Abstract
Description
Claims
Priority Applications (2)
Application Number | Priority Date | Filing Date | Title |
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US12/088,819 US20080254743A1 (en) | 2005-09-30 | 2006-10-02 | Wireless Communication System |
JP2007537758A JPWO2007037481A1 (ja) | 2005-09-30 | 2006-10-02 | 無線通信システム |
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JP2005287113 | 2005-09-30 | ||
JP2005-287113 | 2005-09-30 |
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WO2007037481A1 true WO2007037481A1 (ja) | 2007-04-05 |
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PCT/JP2006/319712 WO2007037481A1 (ja) | 2005-09-30 | 2006-10-02 | 無線通信システム |
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US (1) | US20080254743A1 (ja) |
JP (1) | JPWO2007037481A1 (ja) |
CN (1) | CN101317344A (ja) |
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KR101449890B1 (ko) * | 2006-10-27 | 2014-10-13 | 후지쯔 가부시끼가이샤 | 무선 통신 시스템 및 무선 통신 방법 |
US10772028B2 (en) * | 2009-02-13 | 2020-09-08 | Signify Holding B.V. | Method for communicating in a network comprising a batteryless ZigBee device, network and device therefor |
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- 2006-10-02 CN CNA2006800443592A patent/CN101317344A/zh active Pending
- 2006-10-02 JP JP2007537758A patent/JPWO2007037481A1/ja active Pending
- 2006-10-02 US US12/088,819 patent/US20080254743A1/en not_active Abandoned
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US20080254743A1 (en) | 2008-10-16 |
CN101317344A (zh) | 2008-12-03 |
JPWO2007037481A1 (ja) | 2009-04-16 |
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