JP2008099010A - Wireless communication system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a wireless communication system which can achieve high-speed wireless communication at low power consumption. <P>SOLUTION: The wireless communication system includes access points and information communication terminals which can communicate each other through low- and high-speed wireless interfaces. The access point includes a means for transmitting an information transmission notification signal that notifies information signal transmission start beforehand to the information communication terminal through the low-speed wireless interface, and a means for communicating with the information communication terminal through the high-speed wireless interface after the information communication terminal completes receiving preparation. The information communication terminal replies to the information transmission notification signal through the low-speed wireless interface to prepare communication with the access point through the high-speed wireless interface. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a wireless communication system including a plurality of wireless interfaces.

In wireless communication, for example, a terminal that requires high-speed communication such as a VoIP (Voice over Internet Protocol) terminal that transmits and receives voice data using a TCP / IP network such as the Internet or an intranet, such as a wireless local area network (LAN) A high-speed wireless interface is used. Generally, the higher the speed of a wireless interface, the higher the power consumption and the greater the burden on the economy. For example, Patent Document 1 discloses an information communication apparatus that includes a wireless LAN that is a high-speed wireless interface and Bluetooth that is a low-speed wireless interface, and that can reduce power consumption by properly using them according to applications. It is disclosed.
JP 2004-112225 A

  However, according to Patent Document 1, the maximum power consumption when using a wireless LAN is about 1 W, whereas the power consumption when using Bluetooth is several tens of mW, and it is assumed that Bluetooth is used instead of the wireless LAN. However, it cannot be said that power consumption is sufficiently reduced. For example, VoIP terminals that require high-speed communication consume a large amount of power. However, since these terminals are usually supplied with power from a built-in battery, it is difficult to keep using them for a long time. is there. Therefore, a wireless communication system that can further reduce power consumption while performing high-speed communication is desired.

  The present invention has been made in view of the above-described problems, and an object of the present invention is to provide a wireless communication system capable of realizing high-speed wireless communication with low power consumption.

  A wireless communication system according to the present invention is a wireless communication system including at least one access point and at least one information communication terminal capable of communicating with each other via a low-speed and a high-speed wireless interface, wherein the access point is the low-speed wireless communication A transmission start advance notification means for transmitting an information transmission notification signal to the information communication terminal in advance through the interface, and a high-speed wireless interface waiting for completion of reception preparation of the information communication terminal. Communication means for communicating with the information communication terminal via the information communication terminal, the information communication terminal responding to the information transmission notification signal via the low-speed wireless interface, and the access point via the high-speed wireless interface It is characterized by preparing for communication with.

  Hereinafter, embodiments according to the present invention will be described in detail with reference to the accompanying drawings.

  FIG. 1 is a block diagram showing a configuration of a wireless communication system according to the present invention. The configuration of the wireless communication system includes an access point 100 and at least one or more information communication terminals 2-1 to 2-n (n is a natural number). The information communication terminals 2-1 to 2-n are, for example, VoIP terminals. The access point 100 and the information communication terminals 2-1 to 2-n in the present invention include high-speed and low-speed wireless interfaces. In this embodiment, the high-speed wireless interface is a wireless LAN interface, and the low-speed wireless interface is a Zigbee interface. The access point 100 includes a wireless LAN processing unit 110 that performs processing related to the wireless LAN interface, and a ZigBee processing unit 120 that performs processing related to the ZigBee interface. The information communication terminal 2-1 is a wireless LAN processing unit 21-1, the information communication terminal 2-2 is a wireless LAN processing unit 21-2, ..., and the information communication terminal 2-n is a wireless LAN processing unit 21-n. including. The wireless LAN processing units 21-1 to 21-n perform processing related to the wireless LAN interface. The wireless LAN processing unit 110 and the wireless LAN processing units 21-1 to 21-n transmit and receive frame signals via a wireless LAN interface that conforms to the IEEE802.11b standard. The information communication terminal 2-1 includes a ZigBee processing unit 22-1, the information communication terminal 2-2 includes a ZigBee processing unit 22-2,..., And the information communication terminal 2-n includes a ZigBee processing unit 22-n. The ZigBee processing units 22-1 to 22-n perform processing related to the ZigBee interface. The ZigBee processing unit 120 and the ZigBee processing units 22-1 to 22-n transmit and receive signals via a ZigBee interface that conforms to the IEEE 802.15.4 standard. When the wireless LAN processing units 21-1 to 21-n are transmitting and receiving frame signals via the wireless LAN interface, it is naturally possible to receive the frame signals. It is desirable that the wireless LAN processing units 21-1 to 21-n cancel the frame signal receivable state except when the frame signal is transmitted / received via the wireless LAN interface. For example, the state where the frame signal can be received may be canceled by turning off the power of the wireless LAN processing units 21-1 to 21-n. Moreover, it is desirable that the ZigBee processing units 22-1 to 22-n are always in a state in which frame signals can be received.

  The ZigBee processing unit 120 transmits signals to the ZigBee processing units 22-1 to 22-n in any desirable manner, for example. Here, the signal is a beacon frame (hereinafter referred to as a beacon signal). The ZigBee processing units 22-1 to 22-n receive the beacon signal transmitted from the ZigBee processing unit 120. The wireless LAN processing unit 110 and the wireless LAN processing units 21-1 to 21-n transmit and receive frame signals other than beacon frames (hereinafter simply referred to as frame signals). An identifier such as a MAC address is assigned to each of the wireless LAN processing units 21-1 to 21-n. Here, as the MAC address, the wireless LAN processing unit 21-1 has 00: 00: 00: 00: 00, and the wireless LAN processing unit 21-2 has 00: 00: 00: 00: 02. ,..., 00: 00: 00: 00: 00: n is assigned to the wireless LAN processing unit 21-n. Each of the ZigBee processing units 22-1 to 22-n is assigned an identifier such as a 16-bit short address of ZigBee. Here, as the 16-bit short address of ZigBee, 00:01 is set for the ZigBee processing unit 22-1, 00:02 is set for the ZigBee processing unit 22-2, and 00: 00 is set for the ZigBee processing unit 22-n. : Assume that n is assigned.

  FIG. 2 is a diagram illustrating an example of information included in the beacon signal. In the figure, for each 16-bit short address of ZigBee, a logical value indicating which wireless interface the access point 100 transmits a signal through is shown. Here, when the logical value is 0, it indicates that the access point 100 does not transmit a signal via the corresponding wireless interface, and when the logical value is 1, the access point 100 transmits a signal via the corresponding wireless interface. Represents sending. In this figure, since the logical value corresponding to wireless LAN at ZigBee's 16-bit short address 00:01 is 1 and the logical value corresponding to ZigBee is 0, the access point 100 connects the wireless LAN to the information communication terminal 2-1. This means that a signal is transmitted through the interface. In the figure, since the logical value corresponding to the wireless LAN at ZigBee's 16-bit short address 00:02 is 0 and the logical value corresponding to ZigBee is 1, the access point 100 is connected to the information communication terminal 2-2. It represents transmitting a signal through the ZigBee interface. FIG. 3 is a diagram illustrating an example of a beacon signal. As shown in the figure, the beacon signal includes a logical value corresponding to the ZigBee interface and a logical value corresponding to the wireless LAN interface, for example, for every 16-bit address of ZigBee.

  The access point 100 further includes a transmission frame storage unit 130 and a client identifier processing unit 140. The transmission frame storage unit 130 stores a frame signal to be transmitted via the wireless LAN interface, and if there is a frame signal transmission request from any of the information communication terminals 21-1 to 21-n, the transmission frame storage unit 130 Instructs the LAN processing unit 110 to transmit a frame signal. Also, the transmission frame storage unit 130 sends a transmission destination to the client identifier processing unit 140 when a transmission request for a frame signal to any of the information communication terminals 2-1 to 2-n occurs in the access point 100. To obtain a 16-bit short address of ZigBee corresponding to the MAC address of the information communication terminal.

  The client identifier processing unit 140 stores an address table that records the correspondence between the MAC address of the information communication terminal and the 16-bit short address of ZigBee. FIG. 4 is a diagram illustrating an example of an address table in which a correspondence relationship between the MAC address of the information communication terminal stored in the client identifier processing unit 140 and the 16-bit short address of ZigBee is recorded. Here, ZigBee's 16-bit short address 00:01 is at MAC address 00: 00: 00: 00: 00: 01, and ZigBee's 16-bit short address is at MAC address 00: 00: 00: 00: 00: 02. 00:02 is associated. Further, the client identifier processing unit 140 acquires a 16-bit short address of ZigBee corresponding to the MAC address of the destination information communication terminal based on the information in the address table stored by itself. Subsequently, the client identifier processing unit 140 notifies the ZigBee processing unit 120 that there is a request to transmit a frame signal via the wireless LAN interface to the information communication terminal having the acquired ZigBee 16-bit short address.

  The information communication terminal 2-1 further includes a reception frame processing unit 23-1, the information communication terminal 2-2 further includes a reception frame processing unit 23-2,..., And the information communication terminal 2-n further includes a reception frame processing unit. Including 23-n. When the reception frame processing unit 23-1 is notified from the ZigBee processing unit 22-1 that the access point 100 has a frame signal to be received via the wireless LAN interface, for example, the power supply of the wireless LAN processing unit 21-1 The wireless LAN processing unit 21-1 is instructed to receive the frame signal stored in the access point 100 while making the frame signal receivable. When the wireless LAN processing unit 21-1 has received the frame signal, the reception frame processing unit 23-1 can receive the frame signal, for example, by turning off the power of the wireless LAN processing unit 21-1. Release the state. The reception frame processing units 23-2 to 23-n also have the same processing function.

  Hereinafter, an operation when the access point 100 and the information communication terminal 2-1 transmit and receive signals to each other will be described.

  First, the information communication terminal 2-1 performs an initial process for enabling communication with the access point 100 via each of the wireless LAN and the ZigBee interface at the time of activation. The initial process here may be a standard initial process conforming to the standards of the wireless LAN and ZigBee. After completion of the initial processing, the information communication terminal 2-1 registers the MAC address of the wireless LAN assigned to itself and the 16-bit short address of ZigBee in the access point 100. The registration method may be any one of the following three types. The first registration method is a method in which the ZigBee processing unit 22-1 includes the MAC address of the wireless LAN in the beacon signal and transmits it to the access point 100. At this time, the ZigBee processing unit 120 acquires the 16-bit short address of ZigBee given to the received beacon signal, and indicates the correspondence between the acquired 16-bit short address and the MAC address of the wireless LAN included in the beacon signal. Register in the address table stored in the identifier processing unit 140. The second registration method is a method in which the wireless LAN processing unit 21-1 includes a 16-bit short address of ZigBee in a frame signal and transmits this to the access point 100. At this time, the wireless LAN processing unit 110 acquires the MAC address of the wireless LAN given to the received frame signal, and indicates the correspondence between the acquired MAC address and the 16-bit short address of ZigBee included in the frame signal as a client identifier. Register in the address table stored in the processing unit 140. In the third registration method, one of the wireless LAN processing unit 21-1 and the ZigBee processing unit 22-1 determines the correspondence between the MAC address of the wireless LAN and the 16-bit short address of ZigBee, either the frame signal or the beacon signal. This signal is included in the signal and transmitted to the access point 100. At this time, any one of the wireless LAN processing unit 110 and the ZigBee processing unit 120 stores the correspondence relationship between the MAC address of the wireless LAN included in the received signal and the 16-bit short address of ZigBee in the client identifier processing unit 140 Register in the table. If the registration process shown above is completed, the access point 100 and the information communication terminal 2-1 can transmit and receive signals to and from each other.

  When a frame signal transmission request to the information communication terminal 2-1 is generated in the access point 100, the transmission frame storage unit 130 is the MAC address of the information communication terminal 2-1 that is the transmission destination for the client identifier processing unit 140. Instructs acquisition of a 16-bit short address of ZigBee corresponding to 00: 00: 00: 00: 00: 01. The client identifier processing unit 140 is based on the address table information stored in itself, and the ZigBee 16-bit short address 00:00 corresponding to the MAC address 00: 00: 00: 00: 00: 01 of the information communication terminal 2-1. Get 01. Subsequently, the client identifier processing unit 140 indicates that there is a request for transmission of a frame signal via the wireless LAN interface to the information communication terminal 2-1 having the acquired ZigBee 16-bit short address 00:01. Notify

  The ZigBee processing unit 120 transmits a beacon signal transmitted to the information communication terminals 2-1 to 2-n in any desirable mode, for example, via the wireless LAN interface to the information communication terminal 2-1. Information indicating that there is a frame signal transmission request is included. The information at this time is, for example, information as shown in FIG. Here, the logical value corresponding to the wireless LAN at the 16-bit short address 00:01 of ZigBee is 1, indicating that a frame signal is transmitted to the information communication terminal 2-1 via the wireless LAN interface. . By transmitting this beacon signal, the access point 100 notifies the information communication terminal 2-1 in advance of the transmission of the frame signal via the wireless LAN interface.

  When the ZigBee processing unit 22-1 receives the beacon signal transmitted from the ZigBee processing unit 120, the access point 100 has a frame signal to be received via the wireless LAN interface based on the contents included in the beacon signal. Is received to the reception frame processing unit 23-1. When receiving the above notification from the ZigBee processing unit 22-1, the reception frame processing unit 23-1 turns on the wireless LAN processing unit 21-1 to make the frame signal receivable, for example. The wireless LAN processing unit 21-1 is instructed to receive the frame signal stored in the access point 100. When receiving the above instruction, the wireless LAN processing unit 21-1 transmits a notification frame signal for requesting the access point 100 to transmit a frame signal.

  When the wireless LAN processing unit 110 receives the notification frame signal, the wireless LAN processing unit 110 gives the notification frame signal to the transmission frame storage unit 130. When the transmission frame storage unit 130 receives the notification frame signal, the transmission frame storage unit 130 gives the wireless LAN processing unit 110 a frame signal to be transmitted to the information communication terminal 2-1, and instructs the information communication terminal 2-1 to transmit the frame signal. To do. The wireless LAN processing unit 110 transmits the received frame signal to the information communication terminal 2-1.

  The wireless LAN processing unit 21-1 receives the frame signal transmitted from the information communication terminal 2-1. When the wireless LAN processing unit 21-1 completes reception of the frame signal, the reception frame processing unit 23-1 turns off the power of the wireless LAN processing unit 21-1, for example, and receives the frame signal. Is released.

  As described above, according to this embodiment, it is possible to perform high-speed wireless communication via a wireless LAN, and the access point and the information communication terminal mutually transmit and receive frame signals via the wireless LAN interface. If not, the frame signal receivable state via the wireless LAN interface can be canceled. For example, the power consumption can be reduced by canceling the receivable state by turning off the power of the wireless LAN interface of the information communication terminal.

  FIG. 5 is a sequence diagram showing exchange of register information between the access point 100 and the information communication terminal 2-2. The register information is, for example, SIP (Session Initiation Protocol), which is one of call control protocols used in Internet telephones using VoIP. The access point 100 and the information communication terminal 2-2 transmit / receive register information to / from each other via the ZigBee interface.

  The ZigBee processing unit 22-2 transmits register information to the access point 100 (S101). When receiving the register information, the ZigBee processing unit 120 transmits a ZigBee signal to the information communication terminal 2-2 in a beacon signal transmitted to the information communication terminals 2-1 to 2-n in any desirable mode, for example. Information indicating that there is a request to transmit a frame signal via the interface is included. The information at this time is, for example, information as shown in FIG. Here, the logical value corresponding to ZigBee at the 16-bit short address 00:02 of ZigBee is 1, indicating that a frame signal is transmitted to the information communication terminal 2-2 via the ZigBee interface.

  When the ZigBee processing unit 22-2 receives the beacon signal transmitted from the ZigBee processing unit 120 (S102), the frame signal to be received via the ZigBee interface is transmitted to the access point 100 based on the contents included in the beacon signal. The reception frame processing unit 23-2 is notified of this. Upon receiving the above notification from the ZigBee processing unit 22-2, the reception frame processing unit 23-2 instructs the ZigBee processing unit 22-2 to receive the frame signal stored in the access point 100. When receiving the above instruction, the ZigBee processing unit 22-2 transmits a signal for requesting a response signal to the register information to the access point 100 (S103). When receiving the signal, the ZigBee processing unit 120 transmits a response signal to the register information to the information communication terminal 2-2 (S104). The ZigBee processing unit 120 receives the response signal transmitted from the information communication terminal 2-2.

  All the signals related to the register information are exchanged through the ZigBee interface. During the exchange, the information communication terminal 2-2 only needs to be able to receive a signal via the ZigBee interface, and can release the frame signal receivable state via the wireless LAN interface. For example, power consumption can be reduced by canceling the receivable state by turning off the power of the wireless LAN processing unit 22-2 during register information exchange.

  In this embodiment, the high-speed wireless interface is a wireless LAN interface and the low-speed wireless interface is a ZigBee interface. However, the present invention can also be applied to other wireless interfaces.

  In this embodiment, the address of the ZigBee interface is a 16-bit short address, but in the present invention, it may be a 64-bit address (EUI-64) standardized by the Institute of Electrical and Electronic Engineers (IEEE). .

  In the present embodiment, the SIP protocol register information is used. However, in the present invention, for example, H.264 approved by the International Telecommunication Union (ITU). It may be register information of other protocols defined in the H.323 standard, DLNA (Digital Living Network Alliance) standard, or the like.

It is a block diagram showing the structure of a radio | wireless communications system. It is a figure showing the example of the information contained in a beacon signal. It is a figure showing the example of a beacon signal. It is a figure showing the example of the table which recorded the correspondence of the MAC address of an information communication terminal, and the 16-bit short address of ZigBee. It is a sequence diagram showing exchange of the register information between an access point and an information communication terminal.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Access point 11 Wireless LAN process part 12 Zigbee process part 13 Transmission frame storage part 14 Client identifier process part 2-1 to 2-n Information communication terminal 21-1 to 21-n Wireless LAN process part 22-1 to 22-n ZigBee processor 23-1 to 23-n Received frame processor

Claims (9)

A wireless communication system comprising at least one access point and at least one information communication terminal capable of communicating with each other via a low speed and a high speed wireless interface,
The access point is a transmission start advance notification means for transmitting an information transmission notification signal for notifying the information communication terminal in advance to the information communication terminal via the low-speed wireless interface, and reception preparation for the information communication terminal is completed. Communication means for communicating with the information communication terminal via the high-speed wireless interface waiting for,
The wireless communication system, wherein the information communication terminal prepares for communication with the access point via the high-speed wireless interface in response to the information transmission notification signal via the low-speed wireless interface.   The access point further includes means for recording a correspondence relationship between the address of the high-speed wireless interface and the address of the low-speed wireless interface, and transmitting a signal to the information communication terminal based on the correspondence relationship. The wireless communication system according to claim 1.   The wireless communication system according to claim 1, wherein the high-speed wireless interface is a wireless LAN interface.   The wireless communication system according to claim 1, wherein the low-speed wireless interface is a ZigBee interface.   The wireless communication system according to claim 1, wherein the information transmission notification signal is a beacon signal.   For each address of the ZigBee interface, the beacon signal indicates whether the access point and the information communication terminal communicate with each other via the high-speed wireless interface, and communicates with each other via the low-speed wireless interface. 6. The wireless communication system according to claim 5, further comprising information indicating whether or not to make.   7. The wireless communication system according to claim 6, wherein the address of the ZigBee interface is one of a 16-bit short address of ZigBee and a 64-bit address standardized by IEEE.   2. The wireless communication system according to claim 1, further comprising means for transmitting and receiving a signal including register information of a communication protocol between the access point and the information communication terminal via the low-speed wireless interface.   The wireless communication system according to claim 8, wherein the communication protocol is a SIP protocol.

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