JP2018157426A - Radio communication system, radio communication device, and, program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a method for avoiding signal interference even in a case where communications cannot be synchronized since communication modes are considerably different between two radio communication methods, in a radio communication terminal which communicates with multiple wireless networks.SOLUTION: A radio communication system comprises: a first communication part 210 which communicates with a first external radio in accordance with a first radio communication method; and a second communication part 230 which communicates with a second external radio in accordance with a second radio communication method. The first communication part 210 notifies the second communication part 230 of communication non-permission information a predetermined time T before starting communicating with the first external radio. Upon receiving the communication non-permission information, the second communication part 230 does not start communicating with the second external radio. Thus, when transmitting a signal from the first communication part 210 to the first external radio, interference to the communication between the second communication part 230 and the second external radio can be avoided.SELECTED DRAWING: Figure 9

Description

  The present invention relates to a wireless communication system, a wireless communication apparatus, and a program capable of communicating with a first external wireless device using a first wireless communication method and communicating with a second external wireless device using a second wireless communication method.

  In recent years, wireless communication terminals that communicate with a plurality of wireless networks have been used. For example, Patent Document 1 describes a wireless Internet connection repeater including a short-range wireless communication (Wi-Fi) module and a wireless wide-area communication (Wi-MAX) module. The short-range wireless communication module controls the data transmission / reception with the client terminal in synchronization with the status information output from the wireless wide-area communication module, and thus the short-range wireless communication module and the wireless wide-area communication module. Avoid signal interference with other modules.

JP 2012-114966 A

  In the technique described in Patent Document 1 above, signal interference is avoided by synchronizing the communication of two wireless communication systems. However, if the communication modes of the two wireless communication systems are greatly different, communication cannot be synchronized and signal interference cannot be avoided.

  The present invention has been made in view of such a problem, and an object thereof is to provide a wireless communication system, a wireless communication apparatus, and a program that can avoid signal interference.

  In order to solve the above problems, a wireless communication system of the present invention includes a first communication unit that communicates with a first external wireless device using a first wireless communication method, and a first communication unit that communicates with a second external wireless device using a second wireless communication method. 2 communication units, the first communication unit notifies the second communication unit of communication non-permission information a predetermined time before starting communication with the first external radio, the second communication unit When the non-permission information is received, communication with the second external radio is not started.

  The first communication unit transmits the communication permission information to the second communication unit after the communication with the first external radio is completed, and the second communication unit receives the communication permission information after receiving the communication non-permission information. Then, it may be possible to start communication with the second external radio.

  The second wireless communication method may be a communication method that starts communication by responding to data request signals when there is target data to be transmitted.

  In the second wireless communication system, when there is target data to be transmitted in the second external wireless device, the second external wireless device responds to the second communication unit in response to a data request signal transmitted from the second communication unit. A communication method in which the target data is transmitted from the second external wireless device to the second communication unit by transmitting a signal may be used.

  The predetermined time may be set longer than the time required for transmission / reception of the data request signal and the response signal.

  When the second communication unit receives the communication non-permission information, the second communication unit measures an index value indicating the degree of interference from communication of the first communication unit in the communication band with the second external wireless device, and the index value is less than a predetermined threshold value Then, even if the communication non-permission information is received next, it may be possible to start communication with the second external radio in response to the communication start request.

  In order to solve the above problems, a wireless communication device of the present invention includes a first communication unit that communicates with a first external wireless device using a first wireless communication method, and a first communication device that communicates with a second external wireless device using a second wireless communication method. 2 communication units, the first communication unit notifies the second communication unit of communication non-permission information a predetermined time before starting communication with the first external radio, the second communication unit When the non-permission information is received, communication with the second external radio is not started.

  In order to solve the above problems, a program according to the present invention communicates a computer with a first communication unit that communicates with a first external wireless device using a first wireless communication method and a second external wireless device that uses a second wireless communication method. The first communication unit notifies the second communication unit of communication non-permission information a predetermined time before starting communication with the first external wireless device, and the second communication unit When the communication non-permission information is received, communication with the second external radio is not started.

  According to the present invention, signal interference can be avoided.

It is a figure for demonstrating 1st Embodiment. It is a figure for demonstrating 2nd Embodiment. It is a block diagram which shows schematic structure of the radio | wireless machine which is an example of an integrated type. It is a block diagram which shows the schematic structure of a 1st communication part. It is a block diagram which shows the schematic structure of a 2nd communication part. It is a figure for demonstrating RIT which is an example of a 2nd radio | wireless communication system. It is the functional block diagram which showed the schematic structure of the gas meter. It is a figure for demonstrating the interference to the 2nd communication part by the 1st communication part in a comparative example. It is a figure for demonstrating the communication processing of 2nd Embodiment. It is a flowchart which shows the flow of a communication process of a 2nd communication part. It is a figure for demonstrating the radio | wireless communications system of 3rd Embodiment. It is a figure for demonstrating the interference to the 1st communication part by the 2nd communication part in a comparative example. It is a figure for demonstrating the communication process of 4th Embodiment. It is a figure for demonstrating the communication processing of 5th Embodiment.

  Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. The dimensions, materials, and other specific numerical values shown in the embodiments are merely examples for facilitating the understanding of the invention, and do not limit the present invention unless otherwise specified. In the present specification and drawings, elements having substantially the same function and configuration are denoted by the same reference numerals, and redundant description is omitted, and elements not directly related to the present invention are not illustrated. To do.

(First embodiment)
FIG. 1 is a diagram for explaining the first embodiment. As shown in FIG. 1, in the first embodiment, an example of a wireless communication system relays an arbitrary first wireless network and a second wireless network that performs autonomous distributed access.

  The first communication unit 110 communicates with the first external wireless device a in the first wireless network using the first wireless communication method. The second communication unit 130 communicates with the second external wireless device b in the second wireless network using the second wireless communication method. The first communication unit 110 and the second communication unit 130 are wired to each other. Wired communication is performed between the first communication unit 110 and the second communication unit 130. However, the first communication unit 110 and the second communication unit 130 may perform wireless communication as long as they do not interfere with communication of the first wireless communication method and communication of the second wireless communication method.

  In addition, the first communication unit 110 transmits communication non-permission information to the second communication unit 130 by wired communication a predetermined time before starting communication with the first external wireless device a. When communication with the first external wireless device a is completed, the first communication unit 110 notifies the second communication unit 130 of communication permission information by wired communication. When the second communication unit 130 receives the communication non-permission information, the second communication unit 130 does not start communication with the second external wireless device b until the next communication permission information is received. When receiving the communication permission information next after receiving the communication non-permission information, the second communication unit 130 can start communication with the second external radio device b.

  Thus, when the 1st communication part 110 transmits a signal to the 1st external radio | wireless machine a by the 1st communication part 110 transmitting communication non-permission information to the 2nd communication part 130, the 2nd communication part 130 is transmitted. And interference with the communication between the second external radio device b can be avoided.

  Note that the first communication unit 110 may not transmit the communication permission information to the second communication unit 130 even when the communication with the first external wireless device a ends. In this case, when receiving the communication non-permission information, the second communication unit 130 does not start communication with the second external radio device b for a preset time and starts thereafter. Further, the communication non-permission information may include the set time of the second communication unit 130. However, when communication with the first external wireless device a ends, the first communication unit 110 transmits communication permission information to the second communication unit 130, so that the second communication unit 130 starts communication earlier. be able to.

(Second Embodiment)
FIG. 2 is a diagram for explaining the second embodiment. As shown in FIG. 2, in the second embodiment, a wireless device 200 that is an example of a wireless communication device communicates with a base station A that is an example of a first external wireless device in a first wireless network N1. Communicate using the method. The first wireless communication method is LTE (Long Term Evolution), and the first wireless network N1 is a wide area network. In LTE, wireless communication using a license band is performed.

  The wireless device 200 communicates with the terminal B as an example of the second external wireless device b in the second wireless network N2 by the second wireless communication method. The second wireless communication system is RIT (Receiver Initiated Transmission) shown in IEEE802.15.4, and the second wireless network N2 is a short-distance network. In RIT, wireless communication using an unlicensed band is performed. In RIT, communication is started by periodically transmitting a data request signal and thereafter waiting.

  Note that the first wireless communication method and the second wireless communication method are not limited to LTE and RIT as long as they are different from each other, and various other wireless communication methods can be employed.

  The wireless device 200 is arranged in a heterogeneous environment in which a plurality of different wireless networks are mixed, and can relay between the base station A of the first wireless network N1 and the terminal B of the second wireless network N2. At this time, when receiving the communication non-permission information from the first communication unit 210 (see FIG. 3), the second communication unit 230 (see FIG. 3) receives the data request signal transmission timing even when the data request signal transmission timing comes. Do not send.

  FIG. 3 is a block diagram illustrating a schematic configuration of a wireless device 200 that is an example of an integrated type. In FIG. 3, solid arrows indicate the flow of data, and broken arrows indicate the flow of control signals. As shown in FIG. 3, the radio 200 includes a first communication unit 210, a second communication unit 230, an antenna unit 250, and a switching unit 260.

  First communication unit 210 and second communication unit 230 are connected to antenna unit 250 through switching unit 260. The switching unit 260 is connected to the first communication unit 210 and the antenna unit 250 according to a control signal from the first communication unit 210 or the second communication unit 230, and is connected to the second communication unit 230 and the antenna unit 250. Switch between different states.

  The antenna unit 250 is shared by the first communication unit 210 and the second communication unit 230. Therefore, it is only necessary to provide one antenna unit 250, and the wireless device 200 is downsized and can be manufactured at low cost.

  The first communication unit 210 communicates with the base station A by the first wireless communication method in the first wireless network N1 via the antenna unit 250. The second communication unit 230 communicates with the terminal B by the second wireless communication method in the second wireless network N2 via the antenna unit 250. The first communication unit 210 and the second communication unit 230 are wired to each other. Wired communication is performed between the first communication unit 210 and the second communication unit 230.

  FIG. 4 is a block diagram illustrating a schematic configuration of the first communication unit 210. In FIG. 4, the solid line arrows indicate the flow of data, and the broken line arrows indicate the flow of control signals. As shown in FIG. 4, the first communication unit 210 includes a control unit 212, a transmission unit 214, a reception unit 216, a transmission / reception switching unit 218, and a wired communication unit 220.

  The control unit 212 is a microcomputer including a CPU (Central Processing Unit), a RAM (Random Access Memory), and a ROM (Read Only Memory), and performs overall control of each unit of the first communication unit 210. In addition, the control unit 212 transmits a control signal to the switching unit 260 so that the first communication unit 210 and the antenna unit 250 are connected.

  Transmitter 214 and receiver 216 are connected to antenna unit 250 via transmission / reception switching unit 218 and switching unit 260. The transmission / reception switching unit 218 switches between a state in which the transmission unit 214 and the switching unit 260 are connected and a state in which the reception unit 216 and the switching unit 260 are connected according to a control signal from the control unit 212.

  The transmission unit 214 transmits target data to be transmitted to the base station A via the antenna unit 250 under the control of the control unit 212. The reception unit 216 enters a reception standby state according to the control of the control unit 212 and receives data transmitted from the base station A via the antenna unit 250.

  The wired communication unit 220 is connected to the second communication unit 230 by wire. The control unit 212 transmits communication non-permission information and communication permission information to the second communication unit 230 via the wired communication unit 220. The communication non-permission information and communication permission information will be described in detail later.

  FIG. 5 is a block diagram illustrating a schematic configuration of the second communication unit 230. In FIG. 5, solid arrows indicate the flow of data, and broken arrows indicate the flow of control signals. As shown in FIG. 5, the second communication unit 230 includes a control unit 232, a transmission unit 234, a reception unit 236, a transmission / reception switching unit 238, and a wired communication unit 240.

  The control unit 232 is a microcomputer including a CPU, a RAM, and a ROM, and comprehensively controls each unit of the second communication unit 230. In addition, the control unit 232 transmits a control signal to the switching unit 260 so that the second communication unit 230 and the antenna unit 250 are connected.

  Transmitter 234 and receiver 236 are connected to antenna unit 250 via transmission / reception switching unit 238 and switching unit 260. The transmission / reception switching unit 238 switches between a state in which the transmission unit 234 and the switching unit 260 are connected and a state in which the reception unit 236 and the switching unit 260 are connected according to a control signal from the control unit 232.

  The transmission unit 234 transmits the target data to be transmitted to the terminal B via the antenna unit 250 under the control of the control unit 232. The reception unit 236 enters a reception standby state according to the control of the control unit 232 and receives data transmitted from the terminal B via the antenna unit 250.

  The wired communication unit 240 is connected to the first communication unit 210 by wire. The control unit 232 receives communication non-permission information and communication permission information transmitted from the first communication unit 210 via the wired communication unit 240.

  FIG. 6 is a diagram for explaining RIT, which is an example of the second wireless communication method. As shown in FIG. 6A, if neither the second communication unit 230 nor the terminal B has target data to be transmitted and no communication non-permission information is received, the second communication unit 230 repeats the data request signal. Send. The data request signal is transmitted periodically at predetermined intervals.

  The second communication unit 230 performs sensing before transmitting the data request signal. An example of sensing is a process of detecting the radio field intensity of the communication band used by the second communication unit 230 and determining whether there is another communication that interferes. When other communication is detected, the second communication unit 230 performs sensing again after waiting for the first standby time. The second communication unit 230 repeats standby and sensing until it is determined that there is no other communication that interferes. Here, the first waiting time may be set in advance, or may be set at random from a predetermined range of values each time.

  If the second communication unit 230 determines that there is no other communication that interferes with sensing, the second communication unit 230 transmits a data request signal. Thereafter, the reception unit 236 of the second communication unit 230 enters a reception standby state for a preset second standby time. If there is no reception of a response signal in response to the data request signal during the second waiting time, the second communication unit 230 waits until sensing timing before transmission of the next data request signal.

  When terminal B has target data to be transmitted, terminal B enters a standby state as shown in FIG. 6B and receives a data request signal, and transmits a response signal to second communication unit 230. Therefore, the communication may be terminated, and thereafter, the second communication unit 230 and the terminal B may be in a communication state and communicate with each other. Further, target data may be included in the response signal. That is, the target data may be conveyed (transmitted) by the response signal.

  FIG. 7 is a diagram for explaining LTE, which is an example of the first communication method. As shown in FIGS. 7A and 7B, the first communication unit 210 performs transmission and reception at the timing set by scheduling. In the first communication method, transmission and reception are performed using the frequency bandwidth set by scheduling in the license band. Therefore, in the first communication method, sensing is not performed before transmission.

  FIG. 8 is a diagram for explaining interference with the second communication unit 30 by the first communication unit 10 in the comparative example. As described above, in the first communication method, unlike the second wireless communication method, sensing is not performed before transmission. Further, the communication band of the first communication unit 10 and the communication band of the second communication unit 30 may be close. Therefore, as shown in FIG. 8, interference may occur when the transmission timing of the first communication unit 10 overlaps with the reception timing of the second communication unit 30 or the communication state.

  FIG. 9 is a diagram for explaining communication processing according to the second embodiment. As illustrated in FIG. 9, the first communication unit 210 transmits communication non-permission information to the second communication unit 230 via the wired communication unit 220 before a predetermined time T from the transmission timing set by scheduling. Further, when the communication (transmission) with the base station A ends, the first communication unit 210 transmits communication permission information to the second communication unit 230 via the wired communication unit 220.

  When the second communication unit 230 receives the communication non-permission information, the second communication unit 230 does not start sensing until the communication permission information is received. In other words, when the second communication unit 230 receives the communication non-permission information, the second communication unit 230 does not start communication with the terminal B until the communication permission information is received.

  Thus, when the 1st communication part 210 transmits a signal to base station A because the 1st communication part 210 transmits communication non-permission information to the 2nd communication part 230, the 2nd communication part 230 and terminal B Interference with communication with can be avoided.

  Here, if the predetermined time T is a value greater than at least 0, it is 0 (that is, when the first communication unit 210 transmits communication non-permission information to the second communication unit 230 at the start of transmission timing). As a result, the possibility of avoiding interference increases as much as possible because the communication non-permission information is transmitted to the second communication unit 230 first. Further, as the predetermined time T, the sum of the transmission time of the data request signal of the second communication unit 230 and the reception waiting time of the response signal may be set. In this case, at least interference in the reception waiting state of the response signal of the second communication unit 230 is avoided.

  Further, as the predetermined time T, the sum of the transmission time of the data request signal of the second communication unit 230, the reception waiting time of the response signal, and the time of the communication state may be set. In this case, the reception waiting state of the response signal of the second communication unit 230 and interference in the communication state are avoided. Here, when the time for transmitting the data request signal, the reception waiting time for the response signal, and the time for the communication state of the second communication unit 230 are indefinite, for example, the sum of the assumed maximum time is a predetermined time T Can be set as

  Note that the first communication unit 210 may not transmit the communication permission information to the second communication unit 230 even if the communication with the base station A ends. In this case, when receiving the communication non-permission information, the second communication unit 230 does not start communication with the terminal B for the preset second standby time. Further, the second waiting time of the second communication unit 230 may be specified as the communication non-permission information. However, when the communication (transmission) with the base station A ends, the first communication unit 210 transmits the communication permission information to the second communication unit 230, so that the second communication unit 230 starts communication early. Can do.

  FIG. 10 is a flowchart showing the flow of communication processing of the second communication unit 230.

(S300)
The second communication unit 230 performs sensing when it is time to execute sensing before transmitting the data request signal.

(S302)
The second communication unit 230 determines whether there is another communication that interferes with the sensing in step S300. If there is no other interfering communication, the process proceeds to step S306, and if there is another interfering communication, the process proceeds to step S304.

(S304)
The second communication unit 230 waits for the first waiting time and moves the process to step S300.

(S306)
The second communication unit 230 determines whether communication is permitted. Here, the communication is permitted when the second communication unit 230 has not received the communication non-permission information or has received the communication permission information after receiving the communication non-permission information. If the communication is permitted, the process proceeds to step S310. If the communication is not permitted, the process proceeds to step S308.

(S308)
The second communication unit 230 again determines whether or not communication is permitted. If communication is permitted, the process proceeds to step S300. If communication is not permitted, the process of step S308 is repeated. Thus, the second communication unit 230 waits until communication is permitted.

(S310)
The second communication unit 230 transmits a data request signal to the terminal B.

(S312)
Since the second communication unit 230 receives the response signal from the terminal B, the second communication unit 230 enters a reception standby state.

(S314)
The second communication unit 230 determines whether or not a response signal is received. If a response signal has been received, the process proceeds to step S316. If no response signal has been received, the communication process ends.

(S316)
The second communication unit 230 enters a communication state with the terminal B, performs data communication, and the communication process ends.

  As described above, in the second embodiment, when the first communication unit 210 transmits the communication non-permission information to the second communication unit 230, the first communication unit 210 transmits a signal to the base station A. 2 Interference in communication between the communication unit 230 and the terminal B can be avoided.

  Further, in the communication process of the second communication unit 230, it is possible to avoid interference by a simple change such as adding steps S306 and S308 to the existing RIT. Steps S306 and S308 may be performed before step S310, for example, may be performed before step S300. In this case, the predetermined time T is a length including the sensing time.

(Third embodiment)
FIG. 11 is a diagram for explaining a wireless communication system 400 according to the third embodiment. As shown in FIG. 11, the wireless communication system 400 includes a first communication device 410 and a second communication device 420. The first communication device 410 includes a first communication unit 210 and an antenna unit 412. The second communication device 420 includes a second communication unit 230 and an antenna unit 422.

  The first communication unit 210 and the second communication unit 230 have substantially the same configuration as that of the second embodiment. However, in the third embodiment, each of the first communication device 410 and the second communication device 420 includes the antenna units 412 and 422. Therefore, the wireless communication system 400 is not provided with the switching unit 260, and control of the switching unit 260 becomes unnecessary.

  Thus, the antenna unit 412 for the first communication unit 210 and the antenna unit 422 for the second communication unit 230 may be provided. Further, the first communication unit 110 and the second communication unit 130 of the first embodiment, and the first communication unit 210 and the second communication unit 230 of the second embodiment are integrated as described above. The wireless communication system may be provided in the device 200, or may be configured in a separate wireless device as in the third embodiment.

(Fourth embodiment)
FIG. 12 is a diagram for explaining interference with the first communication unit 10 by the second communication unit 30 in the comparative example. As shown in FIG. 12, when the reception timing of the first communication unit 10 overlaps with the transmission timing of the second communication unit 30 or the communication state, interference occurs.

  FIG. 13 is a diagram for explaining communication processing according to the fourth embodiment. As illustrated in FIG. 13, the first communication unit 510 transmits communication non-permission information to the second communication unit 530 at the start of reception set by scheduling or before the start of reception. In addition, when communication (reception) with base station A ends, first communication unit 510 transmits communication permission information to second communication unit 530.

  When receiving the communication non-permission information, the second communication unit 530 does not start sensing until the communication permission information is received. That is, when the second communication unit 530 receives the communication non-permission information, the second communication unit 530 does not start communication with the terminal B until the communication permission information is received.

  Thus, when the first communication unit 510 receives the signal from the base station A by transmitting the communication non-permission information to the second communication unit 530, the first communication unit 510 and the terminal B Interference due to communication with can be avoided.

  Note that the first communication unit 510 may not transmit the communication permission information to the second communication unit 530 even when the communication with the base station A ends. In this case, when receiving the communication non-permission information, the second communication unit 530 does not start communication with the terminal B for the preset second standby time. Further, the second waiting time of the second communication unit 530 may be designated as the communication non-permission information. However, the 1st communication part 510 can start communication early by transmitting communication permission information to the 2nd communication part 530, after the communication with the base station A is complete | finished.

(Fifth embodiment)
FIG. 14 is a diagram for explaining communication processing according to the fifth embodiment. In the fifth embodiment, the second communication unit 630 measures and determines the degree of interference. When the second communication unit 630 receives the communication non-permission information related to the transmission of the first communication unit 610, the second communication unit 630 measures the degree of interference at the transmission timing of the first communication unit 610 (FIG. 14A and FIG. 14). b) "Interference measurement"). For example, the second communication unit 630 is notified of the predetermined time T, and the second communication unit 630 can measure the interference from the first communication unit 610 after the predetermined time T when receiving the communication non-permission information.

  The second communication unit 630 measures, for example, the radio wave intensity as an index value indicating the degree of interference from the communication of the first communication unit 610 in the communication band with the terminal B. The second communication unit 630 determines that the interference from the first communication unit 610 is large when the index value measured at the timing at which the interference from the first communication unit 610 can be measured is equal to or greater than a predetermined threshold. In addition, the second communication unit 630 compares a measured value such as a radio wave intensity measured at a timing at which interference from the first communication unit 610 can be measured with a measured value measured at other timings ( For example, a value obtained by subtraction or division) may be used as an index value and compared with a predetermined threshold value.

  When the second communication unit 630 determines that the interference is large as shown in FIG. 14B, the communication cannot be started by the communication non-permission information as in the first to third embodiments. A series of operations are performed such that communication can be started according to the communication permission information. On the other hand, as shown in FIG. 14A, when it is determined that the interference is small, the second communication unit 630 does not stop the communication start even if the communication non-permission information is received after the interference measurement (the communication is not performed). Can be started). That is, the second communication unit 630 invalidates the communication non-permission information. In this case, the second communication unit 630 transmits the data request signal to the terminal B at the transmission timing of the data request signal, and receives the response signal (that is, in response to the communication start request), performs communication with the terminal B. Start.

  The determination as to whether the interference is large is updated when a predetermined operation such as resetting is performed, or when an arbitrary time has elapsed after the measurement of the radio field intensity. Here, the case where the second communication unit 630 determines that the interference is small and invalidates the communication non-permission information received after the interference measurement (before the determination whether the interference is large) is described. . However, when determining that the interference is small, the second communication unit 630 may invalidate at least the next communication disapproval information received after the interference measurement.

  As described above, when the index value indicating the degree of interference by the interference measurement is less than the predetermined threshold, the second communication unit 630 transmits the data request signal to the terminal B at the transmission timing even if the reception non-permission information is received. It is possible to start communication with terminal B. In this way, when the degree of interference is low, it is possible to avoid a situation in which communication between the second communication unit 630 and the terminal B is unnecessarily delayed.

  As mentioned above, although preferred embodiment of this invention was described referring an accompanying drawing, it cannot be overemphasized that this invention is not limited to this embodiment. It will be apparent to those skilled in the art that various changes and modifications can be made within the scope of the claims, and these are naturally within the technical scope of the present invention. Understood.

  For example, in the above-described embodiment, a case has been described in which communication is performed with two wireless networks, the first wireless network N1 and the second wireless network N2. However, you may communicate with three or more wireless networks.

  In the embodiment described above, the case where the second wireless communication method is RIT has been described. However, the second wireless communication method is not limited to RIT. However, when the second wireless communication method is RIT, if the second communication unit 130, 230, 530, 630 on the reception side of the target data to be transmitted stops transmission of the data request signal, Communication is stopped. Therefore, communication with the terminal B can be easily stopped when the communication non-permission information is received.

  Moreover, it cannot be overemphasized that the structure of each embodiment mentioned above can be combined arbitrarily.

  In addition, a computer-readable flexible disk, magneto-optical disk, ROM, CD that records a program that causes the computer to function as the wireless communication system or wireless device (wireless communication device) of each of the above embodiments Storage media such as DVD, BD, etc. are also provided. Here, the program refers to data processing means described in an arbitrary language or description method.

  The present invention relates to a wireless communication system, a wireless communication apparatus, and a program capable of communicating with a first external wireless device using a first wireless communication method and communicating with a second external wireless device using a second wireless communication method.

200 Radio (wireless communication device)
110, 210, 510, 610 First communication unit 130, 230, 530, 630 Second communication unit 400 Wireless communication system a First external wireless device b Second external wireless device A Base station (first external wireless device)
B terminal (second external radio)
T Predetermined time

Claims (8)

A first communication unit that communicates with a first external wireless device in a first wireless communication method;
A second communication unit that communicates with the second external wireless device in the second wireless communication method;
With
The first communication unit notifies the second communication unit of communication non-permission information a predetermined time before starting communication with the first external radio,
The second communication unit is a wireless communication system that does not start communication with the second external wireless device when receiving the communication non-permission information. The first communication unit transmits communication permission information to the second communication unit after communication with the first external wireless device is completed,
The wireless communication system according to claim 1, wherein the second communication unit can start communication with the second external wireless device when receiving the communication permission information after receiving the communication non-permission information.   The wireless communication system according to claim 1 or 2, wherein the second wireless communication system is a communication system that starts communication by responding to a data request signal when there is target data to be transmitted.   In the second wireless communication system, when there is target data to be transmitted in the second external wireless device, the second external wireless device responds to the data request signal transmitted from the second communication unit. The wireless communication system according to claim 3, wherein the target data is transmitted from the second external wireless device to the second communication unit by transmitting a response signal to the second communication unit.   The wireless communication system according to claim 4, wherein the predetermined time is set to be equal to or longer than a time required for receiving the data request signal and the response signal.   When the second communication unit receives the communication non-permission information, the second communication unit measures an index value indicating a degree of interference from communication of the first communication unit in a communication band with the second external wireless device, and the index value is The communication with the second external radio can be started in response to a communication start request even if the communication rejection information is received next when the threshold is less than the predetermined threshold. The wireless communication system described. A first communication unit that communicates with a first external wireless device in a first wireless communication method;
A second communication unit that communicates with the second external wireless device in the second wireless communication method;
With
The first communication unit notifies the second communication unit of communication non-permission information a predetermined time before starting communication with the first external radio,
The second communication unit is a wireless communication device that does not start communication with the second external wireless device when receiving the communication non-permission information. Computer
A first communication unit that communicates with a first external wireless device in a first wireless communication method;
A second communication unit that communicates with the second external wireless device in the second wireless communication method;
Function as
The first communication unit notifies the second communication unit of communication non-permission information a predetermined time before starting communication with the first external radio,
The second communication unit is a program that, when receiving the communication non-permission information, does not start communication with the second external wireless device.

Images