JP5344557B2 - Wireless communication system, power saving method thereof, wireless base station and wireless terminal used therefor - Google Patents

Description

  The present invention relates to a wireless communication system and a power saving method thereof, a wireless base station and a wireless communication terminal used therefor, and more particularly to a power saving method in a wireless LAN voice network based on the IEEE 802.11 standard.

As an example of a power saving method in a wireless LAN voice network related to the present invention, there is a technique described in Patent Document 1. In such a power saving method, when operating in a power saving mode, a wireless LAN voice terminal (hereinafter simply referred to as a terminal) is in an AWAKE state (active state in which communication is possible) and a DOZE state (dosing state in which communication is not possible). Transition between two states. The AWAKE state is a state where communication is possible, and the DOZE state is a state where communication is stopped and power consumption is reduced.

  Here, the wireless LAN base station transmits a beacon signal at a predetermined interval. Further, the wireless LAN base station periodically includes a message called DTIM (Delivery Traffic Indication Message) in the above-described beacon and transmits it. The interval at which this DTIM is transmitted can generally be preset in a wireless LAN base station.

  When there is a frame to be transmitted to a terminal, the wireless LAN base station transmits the corresponding terminal identifier in DTIM. The wireless LAN voice terminal transitions to an AWAKE state at an interval at which DTIM is transmitted, and receives DTIM. If there is no frame addressed to itself, the state transitions to the DOZE state again. If the DTIM indicates that there is a frame for itself, a frame called PS-POLL (response to polling (POLL)) is transmitted.

The wireless LAN base station that has received PS-POLL transmits data to the terminal, and the terminal receives the data. When receiving the data is completed, the terminal transitions to the DOZE state again. Power saving is realized by such an operation.
JP 2005-124159 A

  However, in the above-described technique, the terminal has to transition to the AWAKE state at every DTIM transmission interval regardless of the presence or absence of reception data, which is insufficient as a power saving operation. As a workaround, a method of reducing the frequency of receiving DTIM for each terminal and increasing power saving efficiency is used. However, with this method, even if there is a frame addressed to the terminal, the terminal does not transition from the DOZE state to the AWAKE state, and the frame cannot be received for a certain period of time. There's a problem.

  An object of the present invention is to provide a radio communication system, a power saving method thereof, a radio base station and a radio terminal used for the radio communication system capable of eliminating a delay in incoming calls and further saving power.

A wireless communication system according to the present invention includes:
A wireless terminal that can be in a communicable active state and a non-communicable doze state, and when the wireless terminal is in the doze state when information addressed to the wireless terminal is received from the communication network, polling a signal of the ZigBee wireless communication standard A wireless base station having means for transmitting to the wireless terminal,
The wireless terminal has means for controlling to receive a signal from the polling and to transition to the active state in the doze state.

The power saving method according to the present invention includes:
A power saving method in a wireless communication system including a wireless terminal capable of taking a communicable active state and a communication disabling doze state, and a wireless base station,
In the wireless base station, when the wireless terminal is in a doze state when receiving information addressed to the wireless terminal from the communication network, transmitting a signal of ZigBee wireless communication standard to the wireless terminal by polling ;
The wireless terminal includes a step of receiving a signal from the polling in the doze state and transitioning to the active state.

A radio base station according to the present invention comprises:
If the wireless terminal is in the doze state when receiving information from the communication network that can be in a communicable active state or a dosing state incapable of communication, a ZigBee wireless communication standard signal is transmitted to the wireless terminal by polling It is characterized by including the means to do.

The program according to the present invention is:
A program for causing a computer to execute an operation of a radio base station,
If the wireless terminal is in the doze state when receiving information from the communication network that can be in a communicable active state or a dosing state incapable of communication, a ZigBee wireless communication standard signal is transmitted to the wireless terminal by polling Including a process to perform.

  According to the present invention, by adopting a method for detecting the presence or absence of a frame to a terminal by using a power-saving wireless standard ZigBee without using DTIM and monitoring a ZigBee signal, the terminal As long as there is no addressed frame, maintaining the DOZE state to reduce standby power consumption has the effect of eliminating delays in incoming calls and further reducing power consumption.

  Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a schematic diagram of a system to which an embodiment of the present invention is applied. Referring to FIG. 1, the wireless LAN base station 102 has a wireless communication function based on the IEEE 802.11 standard and a ZigBee communication function based on the ZigBee wireless communication standard. A wireless LAN voice terminal (simply a terminal) 103 has a voice communication function and a ZigBee communication function based on TCP / IP (Transmission Control Protocol / Internet Protocol) technology, and also has a wireless communication function based on the IEEE 802.11 standard. Have.

The terminal 103 is connected to the wireless LAN base station 102. The wireless LAN base station 102 is connected to the voice communication network 101 via a wired LAN 106, and is connected to the terminal 103 via a wireless LAN 104. With this system configuration, a voice communication service using the terminal 103 is provided.

  FIG. 2 shows an internal configuration of the wireless LAN base station 102 shown in FIG. In FIG. 2, the power save control unit 202 has a function of monitoring whether the terminal is in the DOZE state or the AWAKE state, and a function of instructing the ZigBee interface unit 204 to transmit a ZigBee signal. The ZigBee interface unit 204 has a function of transmitting a ZigBee signal, and has specifications based on the ZigBee wireless communication standard. The power save buffer unit 205 has a function of buffering frames when the terminal is in the DOZE state.

Further, the wired interface unit 201, the main control unit 203 , the wireless interface unit 206, and the wireless LAN antenna 208 are basic functions as a wireless LAN base station. Since is not directly related, the description is omitted.

  FIG. 3 shows an internal configuration of the terminal 103 shown in FIG. In FIG. 3, a ZigBee interface unit 303 has a function of receiving a ZigBee signal, and has a specification based on the ZigBee wireless communication standard. The power save control unit 305 has a function of detecting a ZigBee signal from the ZigBee interface unit 303 and a function of controlling the power save state.

  The wireless LAN interface unit 304, the voice communication function unit 306, the speaker 307, and the microphone 308 are for realizing a voice call function based on a general TCP / IP technology, and these functions are well known. The description is omitted because it is not directly related to the present invention.

  Next, the operation when the wireless LAN base station 102 of FIG. 2 receives a frame from the wired LAN will be described with reference to the flowchart shown in FIG. In the wireless LAN base station 102 in FIG. 2, when the wired interface unit 201 detects frame reception (step 401), the power save control unit 202 refers to the terminal state stored therein (step 402), and the terminal It is determined whether the state is the DOZE state or the AWAKE state (step 403).

In the AWAKE state, since the terminal can receive the frame, the wireless LAN interface unit 206 transmits the frame to the terminal (step 405), and the process ends (step 407). In step 403, if the terminal is in the DOZE state, the frame is stored in the power save buffer unit 205 (step 404). After storing the frame in the power save buffer unit 205, the wireless LAN interface unit 206 transmits a ZigBee signal to the terminal from the ZigBee interface unit 204 (step 406), and the process ends (step 407) .

  Next, the operation when the terminal 103 in FIG. 3 receives the ZigBee signal 105 from the wireless LAN base station 102 will be described with reference to the flowchart shown in FIG. When the terminal 103 receives the ZigBee signal 105 from the wireless LAN base station 102 (step 601), the power save control unit 305 changes the power save state to the AWAKE state (step 602).

  Thereafter, the wireless LAN interface unit 304 is activated to enable frame transmission / reception (step 603). Then, the PS-POLL frame is transmitted from the wireless LAN interface unit 304 to the wireless LAN base station 102 (step 604), and the process ends (step 605).

  Next, the operation when the wireless LAN base station of FIG. 2 receives PS-POLL from the terminal 103 will be described with reference to the flowchart shown in FIG. When the wireless LAN base station 102 receives PS-POLL at the wireless LAN interface unit 206 (501), the power save control unit 202 rewrites the state of the corresponding terminal stored therein to the AWAKE state (step 502). .

  Next, the wireless LAN base station refers to the data in the power save buffer unit 205 (step 503), and if there is no data in the power save buffer unit 205 (step 504), the process ends (step 506). In step 504, if there is data in the power save buffer unit 205, the data in the power save buffer unit 205 is transmitted from the wireless LAN interface unit 206 to the terminal (step 505). Thereafter, the process returns to step 503.

  The operation when the terminal 103 transitions to the DOZE state is assumed to be an operation compliant with the standard of IEEE 802.11e, which is a well-known technique, and will not be described. Of course, when the terminal transitions to the DOZE state, the wireless LAN base station is notified of the fact, and the wireless LAN base station receives the notification and updates the terminal state stored therein. It is.

  With the above configuration and operation, since only ZigBee with low power consumption is activated while the terminal is on standby, power consumption can be greatly reduced. In addition, since ZigBee always waits for a signal instead of a system that regularly receives DTIM, a transition from the DOZE state to the AWAKE state can be performed immediately when a frame arrives from the upper network, resulting in a voice delay. There will be no. In particular, ZigBee is a short-range wireless communication standard mainly applied to home appliances and has a feature of low speed but low power consumption, and thus greatly contributes to low power consumption.

  It is obvious that each operation flow in the above embodiment can be configured such that the operation procedure is stored in advance in a recording medium as a program and is read and executed by a CPU which is a computer.

1 is a schematic system configuration diagram to which an embodiment of the present invention is applied. It is an internal block diagram of a wireless LAN base station. It is an internal block diagram of a wireless LAN voice terminal. It is a figure which shows operation | movement of the wireless LAN base station when a packet is received from wired LAN. It is a figure which shows operation | movement of the wireless LAN base station when PS- POLL is received from a wireless LAN voice terminal. It is a figure which shows operation | movement of the wireless LAN audio | voice terminal when a ZigBee signal is received from a wireless LAN base station.

Explanation of symbols

101 Voice communication network
102 wireless LAN base station
103 Wireless LAN voice terminal
104 wireless LAN
105 ZigBee
106 Wired LAN
201 Wired interface unit 202,305 Power save control unit
203 Main control unit 204, 303 ZigBee interface unit
205 Power Save Buffer Unit 206, 304 Wireless LAN Interface Unit 207, 301 ZigBee Antenna 208, 302 Wireless LAN Antenna
306 Voice communication function unit
307 Speaker
308 Microphone

Claims (9)

A wireless terminal that can be in a communicable active state and a non-communicable doze state, and when the wireless terminal is in the doze state when information addressed to the wireless terminal is received from the communication network, polling a signal of the ZigBee wireless communication standard A wireless base station having means for transmitting to the wireless terminal,
The wireless communication system according to claim 1, further comprising: a control unit configured to receive a signal from the polling and to shift to the active state when the wireless terminal is in the doze state.   2. The wireless communication system according to claim 1, wherein the wireless terminal further includes means for receiving the polling signal and transmitting a response to the wireless base station.   The radio communication system according to claim 2, wherein the radio base station further comprises means for receiving the response and transmitting the information to the radio terminal. A power saving method in a wireless communication system including a wireless terminal capable of taking a communicable active state and a communication disabling doze state, and a wireless base station,
In the wireless base station, when the wireless terminal is in a doze state when receiving information addressed to the wireless terminal from the communication network, transmitting a signal of ZigBee wireless communication standard to the wireless terminal by polling;
Receiving at the radio terminal a signal from the polling in the doze state and transitioning to the active state.   5. The method according to claim 4, further comprising the step of receiving at the wireless terminal a signal by the polling and transmitting a response to the wireless base station.   The method according to claim 5, further comprising the step of receiving the response and transmitting the information to the wireless terminal at the wireless base station.   If the wireless terminal is in the doze state when receiving information from the communication network that can be in a communicable active state or a dosing state incapable of communication, a ZigBee wireless communication standard signal is transmitted to the wireless terminal by polling And a radio base station.   8. The radio base station according to claim 7, further comprising means for receiving a response to the polling signal from the radio terminal and transmitting the information to the radio terminal. A program for causing a computer to execute an operation of a radio base station,
If the wireless terminal is in the doze state when receiving information from the communication network that can be in a communicable active state or a dosing state incapable of communication, a ZigBee wireless communication standard signal is transmitted to the wireless terminal by polling The computer-readable program characterized by including the process to perform.

Images