JP2005295186A - Radio lan terminal, radio communication system and communication control method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To avoid useless loss of a radio LAN frame when a host module operates in a power saving mode. <P>SOLUTION: A radio communication system is provided with the host module for processing a radio LAN frame and temporarily stopping processing the radio LAN frame in the power saving mode, a radio LAN module for receiving the radio LAN frame from a radio communication medium and transferring the radio LAN frame to the host module, a storing means for storing whether the host module is in the power saving mode, a detecting means for detecting an incoming call fo the radio LAN frame, and a notifying means for notifying restart of processing the temporarily stopped radio LAN frame if the host module is in the power saving mode when the incoming call of the radio LAN frame is detected. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a wireless LAN terminal having a wireless LAN module operating in a power save mode and a host module having a suspend / resume function, a wireless communication system including the wireless LAN terminal and the wireless LAN base station, and a communication control method.

  In the IEEE802.11 wireless LAN, specifications relating to the power save mode are defined for the purpose of realizing power saving during standby of the wireless LAN terminal (see Non-Patent Document 1).

  A communication procedure when the wireless LAN terminal is operating in the power save mode will be described. Specifically, it is assumed that the wireless LAN terminal shifts to the power save mode after connecting to the wireless LAN base station and receives data transmitted from other terminals. It is assumed that the other terminal that transmits data is, for example, a wired LAN terminal connected to the wireless LAN base station by wire.

  First, the wireless LAN terminal and the wireless LAN base station perform IEEE 802.11 connection processing. In the connection processing, in addition to normal frame exchange, information indicating a listen interval when the wireless LAN terminal operates in the power save mode is exchanged. The listen interval defines the frequency at which the wireless LAN terminal wakes up, and specifically corresponds to a parameter representing the beacon period. The period during which the wireless LAN base station buffers data addressed to the wireless LAN terminal that periodically performs reception processing is based on the listen interval. The buffering capability of the wireless LAN base station depends on the capacity of the buffer provided in the wireless LAN base station and the amount of data addressed to the STA operating in the power save mode per unit time.

  First, the wireless LAN terminal starts operation in the power save mode in accordance with an instruction or initial setting from the user. In order to notify the wireless LAN base station of the transition to the power save mode, the wireless LAN terminal transmits a null data frame in which the power save bit included in the header field of the IEEE 802.11 frame is set to On. .

  The wireless LAN base station that has received the null data frame from the wireless LAN terminal stores that the wireless LAN terminal operates in the power save mode. Thereafter, the operation when the wireless LAN base station receives the data addressed to the wireless LAN terminal is defined in the power save mode specification.

  Subsequently, the wireless LAN base station transmits a beacon frame. A wireless LAN terminal operating in the power save mode does not normally receive a beacon frame at a timing other than the listen interval.

When the wired LAN terminal transmits a data frame addressed to the wireless LAN terminal according to the conventional example, the wireless LAN base station receives the data frame. If the destination address of this data frame indicates a wireless LAN terminal operating in the power save mode, the wireless LAN base station once buffers this data frame. Next, in order to notify the wireless LAN terminal that the data addressed to the wireless LAN terminal is buffered, the wireless LAN base station adds a traffic indication map (TIM; Traffic Indication Map) to a beacon frame transmitted at a later timing. ) Include the element. Hereinafter, the traffic notification map element is abbreviated as “TIM element”. Information indicating which terminal is buffered data is expressed by setting an association ID (AID) bit of the corresponding terminal in a partial virtual bitmap (Partial Virtual Bitmap) field included in the TIM element. Is done.
The wireless LAN terminal operating in the power save mode repeats the return to the reception mode at a normal listening interval. At this time, when the beacon frame transmitted from the wireless LAN base station is received, the wireless LAN terminal checks the presence and content of the TIM field. Here, when recognizing that a frame addressed to the wireless LAN terminal (addressed to the own station) is buffered, the wireless LAN terminal transmits a PS-Poll frame indicating a frame transfer request to the wireless LAN base station. The PS-Poll (Power Save-Poll) frame is a special control frame used for a wireless LAN terminal in the power save mode operation to request the wireless LAN base station to transmit a frame addressed to itself. is there.

  When the wireless LAN base station receives the PS-Poll frame, it reads out the buffered data frame addressed to the wireless LAN terminal and transmits it to the wireless LAN terminal. The wireless LAN terminal receives the data addressed to the wireless LAN terminal, passes the data to the corresponding upper communication application, and completes the processing.

  In addition, when the wireless LAN terminal described above transmits a data frame to the wired LAN terminal, the wireless LAN terminal needs to operate in an active mode other than the power save mode. Follow the sending procedure.

  The outline of the communication procedure when the wireless LAN terminal is operating in the power save mode has been described above. If the wireless LAN terminal capable of operating in such a power save mode is a personal computer (PC), for example, personal It is common to configure a computer with a host module and a wireless LAN module that is responsible for communication with a wireless medium. The host module includes a motherboard on which a CPU and a memory are mounted, and input / output devices such as a display and a keyboard.

In such a configuration, a host module that operates in a so-called power saving mode such as suspend or hibernation is often used in a portable PC (notebook PC) or the like.
"Information technology-Telecommunications and information exchange between systems-Local and metropolitan area networks-Specific requirements-Part 11: Wireless LAN Medium Access Control (MAC) and Physical Layer (PHY) specification", ISO / IEC 8802-11: 1999 (E ), ANSI / IEEE, Std 802.11, 1999 edition

  When the host module of a wireless LAN terminal (for example, PC) operates in a power saving mode such as suspend or hibernation, the following can be considered as the energization control to the wireless LAN module and the behavior of the wireless LAN module.

  (1) The power supply to the wireless LAN module is cut off according to the control of suspend or hibernation. That is, the wireless LAN module stops operating (Off). In the case of the configuration example taking the state (1), it is obvious that communication by wireless LAN cannot be performed at all. Therefore, even if the data frame addressed to the wireless LAN terminal reaches the wireless LAN base station, the wireless LAN module cannot receive the data frame from the wireless LAN base station. Depending on the implementation, the wireless LAN base station may operate to unilaterally disconnect the wireless LAN terminal that cannot receive at all.

  (2) The wireless LAN module continues to be energized and operates (On) without receiving control of suspend or hibernation. In the configuration example taking the state (2), when the data frame addressed to the wireless LAN terminal reaches the wireless LAN base station, the wireless LAN module can receive the data frame from the wireless LAN base station. This data frame can be received even when the wireless LAN module is operating in the power save mode. For this purpose, the communication procedure for data reception during the power save mode described above may be followed.

  However, since the host module is in the suspend or hibernation state, the information cannot be passed from the wireless LAN module to the communication application that is the final recipient of the information stored in the data frame. This does not depend on whether the wireless LAN module is operating in the power save mode or the normal mode.

  Conventionally, in both cases (1) and (2), the data frame addressed to the wireless LAN terminal is non-arrival and is discarded without undergoing expected communication application processing.

  The present invention has been made in view of such circumstances, and a wireless LAN terminal capable of avoiding useless loss of a wireless LAN frame when the host module is operating in the power saving mode, the wireless LAN terminal, and An object is to provide a wireless communication system having a wireless LAN base station and a communication control method.

  A wireless LAN terminal according to an aspect of the present invention receives a wireless LAN frame from a wireless communication medium and a host module that processes the wireless LAN frame and temporarily stops processing the wireless LAN frame in the power saving mode state. A wireless LAN module delivered to the host module; storage means for storing whether or not the host module is in a power saving mode; detection means for detecting incoming of the wireless LAN frame; and the wireless LAN frame If the host module is in a power saving mode state, a notification means for notifying the resumption of processing of the wireless LAN frame that has been temporarily stopped is provided.

  According to the present invention, a wireless communication system having a wireless LAN terminal, a wireless LAN terminal, and a wireless LAN base station that can avoid useless loss of a wireless LAN frame when the host module is operating in the power saving mode. And a communication control method can be provided.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings.

  FIG. 1 is a diagram showing a local area network (LAN) according to an embodiment of the present invention, in which the physical layer of the LAN is wireless and wired (for example, Ethernet (registered trademark)), and the MAC layer is IEEE802.11. It has a general network configuration such as IEEE802.3. As shown in the figure, the LAN according to this embodiment includes a wireless LAN (WLS) and a wired LAN (WRD). In a wireless LAN (WLS), wireless LAN terminals 100 and 300 (hereinafter referred to as STA 100 and STA 300, respectively) are connected to a wireless LAN base station 200 (hereinafter referred to as AP 200) via a wireless medium. The presence of the STA 300 means that two or more terminals can be connected to the AP 200. The AP 200 is connected to a wired LAN (WRD) via a cable. A wired LAN terminal 400 (hereinafter referred to as STA 400) is connected to the wired LAN (WRD). A plurality of wired LAN terminals and router devices may be installed via LAN switches and hubs.

  The STAs 100 and 300 are terminals that operate in accordance with the IEEE 802.11 wireless LAN specifications, and each has a unique MAC ID (MACID_STA100, MACID_STA300). MAC ID is an abbreviation for Media Access Control ID. The AP (access point) 200 is a base station that operates according to the wireless LAN specification of IEEE802.11, and a data frame transmitted / received between a wireless LAN and a wireless LAN or between a wireless LAN and a wired LAN can be specified by a MAC ID. Has a function of forwarding to a destination. The STA 400 is a terminal that operates according to wired LAN specifications such as IEEE 802.3 and Ethernet (registered trademark), has a unique MAC ID (MACID_STA 400), and can communicate with the STA 100 or the STA 300 via the AP 200. is there.

  FIG. 2 is a block diagram showing a wireless LAN terminal (STA). As shown in the figure, the STA 100 includes a wireless LAN module 110, a host module 120, a power supply unit 130, and an incoming call notification unit 140.

  The wireless LAN module 110 passes a data frame received from the wireless LAN of IEEE 802.11 to the communication application 121, or conversely, transmits / receives data passed from the communication application to the wireless LAN, including power saving. A management unit 112 that performs various management of IEEE802.11, a terminal management table 113 that stores various mode states of the wireless LAN module 110 and the host module 120, and a data buffer 114 that temporarily buffers data frames during the power save mode operation. It has.

  The host module 120 is a power saving management unit for changing / managing the communication application 121 and the power saving mode of the wireless LAN module 110 and the power saving mode (suspend or hibernation) of the host module 120 according to user instructions or system settings. 122.

  The communication application 121 includes, for example, computer software that processes data transmitted and received in wireless LAN communication, is stored in a memory or the like provided in the host module 120, and is executed by the CPU. When the host module 120 is in the power saving mode (suspend / hibernation), the communication application 121 temporarily stops its execution, and cannot receive the received data frame from the wireless LAN module 110. Can not be processed.

  The power supply unit 130 supplies and stops power to the wireless LAN module 110 and the host module 120 in accordance with instructions from the management unit 112 and the power saving management unit 122.

  The incoming call notification unit 140 has a function of notifying the user that the wireless LAN module 110 has received data when the host module 120 is in the suspend operation based on the notification from the management unit 112. The notification method may be a visual notification using an LED, an audible notification using a bell or the like, a tactile notification using vibration (vibration), and the like, and the notification method is arbitrary.

  FIG. 3 is a diagram showing a terminal management table provided in the wireless LAN terminal. The terminal management table 113 includes a MAC ID field 30 for uniquely indicating the wireless LAN module 110, a power save mode field 31 for indicating the power save mode (On / Off) of the wireless LAN module 110, and power saving of the host module 120. A power saving mode field 32 for indicating a mode (Off / Suspend); a notification mode field 33 indicating how to process a data frame received during the suspend operation of the host module 120 (Off / Resume / Incoming notification); The buffer mode field 34 indicates where (STA / AP) the data frame is buffered during the suspend operation.

  Although the power saving mode field 32 indicates only suspend, hibernation or other power saving modes may be used. As for the notification mode field 33, when the host module 120 is not operating in the power saving mode, that is, when operating in the normal mode, the communication application 121 of the host module 120 receives the received data frame from the wireless LAN module 110. Therefore, the notification mode field 33 is set to Off. In this case, an incoming call notification may be set in the notification mode field 33. In addition, the notification mode field 33 may be set to Off according to the convenience of the user who does not want to be aware of reception of wireless LAN data during the suspend operation.

  FIG. 4 is a block diagram showing a wireless LAN base station (AP). As shown in the figure, the AP 200 includes a wireless LAN module 210, a wired LAN module 220, a transfer unit 230, and a second data buffer 240.

  Here, one wired LAN module and one wireless LAN module 210 are provided, but a plurality of wired or wireless LAN modules may be provided in implementation. The wireless LAN module 210 transmits / receives a data frame received from the IEEE802.11 wireless LAN to the transfer unit 230, or conversely transmits a frame passed from the transfer unit 230 via the wireless LAN. .11 for various management, a terminal management table 213 for storing various mode states of the wireless LAN terminal 100, and a first data buffer 214 for buffering data frames when the wireless LAN terminal performs a power saving operation. To do.

  FIG. 5 is a diagram showing a terminal management table provided in the wireless LAN base station. As shown in the figure, the terminal management table 213 shows a MAC ID field 50 for uniquely indicating a wireless LAN terminal operating in the power save mode, and a power save mode (On / Off) of the wireless LAN terminal. Power saving mode field 51 and a power saving mode field 52 for indicating a power saving mode (Off / Suspend) of the wireless LAN terminal.

  However, when the wireless LAN base station 200 is a normal wireless LAN base station supporting only IEEE802.11, that is, the latency problem of the resume operation in the host module in the wireless LAN terminal as described in the second embodiment is solved. In the case where the buffering function is not provided, the power saving mode field 52 of the host module does not exist. Also, the second data buffer 240 is not necessary.

  The wired LAN module 220 passes a data frame received from a wired LAN such as IEEE802.3 or Ethernet (registered trademark) to the transfer unit 230, or conversely transmits a frame passed from the transfer unit 230 to the wired LAN. A transmission / reception unit 211 is provided.

  The transfer unit 230 has a function of transferring data passed from the transmission / reception unit 211 of the wireless LAN module 210 or the transmission / reception unit 221 of the wired LAN module according to the destination MAC ID.

  The second data buffer 240 performs temporary buffering of data frames when the wireless LAN terminal 100 is in the suspend operation, and the period required for the wireless LAN terminal 100 to recover from resume or hibernation (recovery). The data frame addressed to the wireless LAN terminal 100 must be able to be buffered for a period sufficiently longer than the required period), and is composed of, for example, a hard disk having a larger capacity than the first data buffer 214 included in the wireless LAN module 210. Of course, the present invention is not limited to a magnetic disk device such as a hard disk, and may be another mass storage device.

  In communication between terminals (wireless / wireless or wired / wireless) located at the edge in the LAN configured as described above, a data frame is transmitted from the STA 400 to the STA 100 operating in the power save mode, and the AP 200 An operation example when it is assumed that this is received and transmitted to the STA 100 in the power save mode operation will be described with reference to the first and second embodiments.

  In the first embodiment, referring to FIG. 6 to FIG. 9, when a data frame addressed to the STA 100 operating in the power saving mode arrives at the AP 200, the STA 100 detects this based on reception of the beacon and finally determines the data frame. The first operation example (FIGS. 7 and 8) for resume control of the host module 120 so that it can be passed to the communication application 121, and when the data frame addressed to the STA 100 operating in the power save mode arrives at the AP 200, the STA 100 similarly A second operation example (FIG. 9) that detects this and notifies the operator (user) of an incoming call will be described.

  In the second embodiment, a case where the AP 200 executes a buffering function for solving the latency problem of the resume operation in the host module 120 in the STA 100 will be described with reference to FIGS. 10 to 12.

  Note that the first and second embodiments both assume that the STA 100 operates in the power save mode. However, the first and second implementations of the operation in the normal mode other than the power save mode are assumed. A person skilled in the art can guide the form with obvious modifications.

  First Embodiment FIG. 6 is a diagram illustrating a message sequence according to a communication procedure of the first embodiment. The communication procedure except for the notification mode change process (S3000) and the beacon frame reception process (S3015) in the figure is the same as the communication procedure during the power save mode operation of the wireless LAN terminal already described. 7 and 8 show an internal operation procedure of the wireless LAN terminal (STA) 100 according to the first embodiment. This relates to a first operation example including mode switching in which the power save mode of the wireless LAN module 110 is set to On, the power saving mode of the host module 120 is set to suspend, and the notification mode is set to resume.

  As shown in FIG. 7, first, in the host module 120 of the STA 100, the notification mode is changed to resume by an operation from the user (S3000). In the notification mode changing process (SS3100), the power saving management unit 122 notifies the management unit 112 of that fact. Next, the management unit 112 updates (MACID_STA100, Off, Off, Resume, STA) to the terminal management table 113 (SS3102). Here, regarding the buffer mode, it is possible to select buffering in the AP 200 only when the AP 200 has a buffering function at the time of the resume operation, but whether or not these functions are supported depends on the wireless LAN. It is possible to transmit in advance at the time of connection or the like. In the first embodiment, the AP 200 operates as a normal wireless LAN base station, and buffering at the STA is selected.

  Similarly, the power saving mode of the wireless LAN module is changed to On and the power saving mode of the host module 120 is changed to suspend by the user's operation or automatic control by the system due to battery consumption or the like (S3001). Here, it is possible to set the power save mode of the wireless LAN module to Off, but for the purpose of reducing the overall power consumption, only the case where the power save mode is set to On is assumed here. These change processes (SS3110) are notified to the management unit 112 by the power saving management unit 122. The management unit 112 updates (MACID_STA100, On, suspend, resume, STA) to the terminal management table 113 (SS3112). The management unit 112 also notifies the AP 200 that the wireless LAN module has transitioned to the power save mode (On), so that the null data frame in which the power save bit included in the header field of the IEEE 802.11 frame is set to On. Is created (SS3113) and transmitted to the AP 200 via the transmission / reception unit 111 (SS3114, SS3115). Further, a change notification of the power save mode (On) is received from the management unit 112 (SS3116), and the operation in the power save mode is started (SS3117). On the other hand, the power saving management unit 122 notifies the power supply unit 130 of the power saving mode change (suspend) (SS3118). In response to this, the power supply unit 130 stops the power supply to the host module 120 other than the part necessary for the resume (for example, main memory) (SS3119).

  Upon receiving a null data frame with the power save bit set to On from the STA 100, the AP 200 detects that the STA 100 operates in the power save mode (SS3003), and thereafter, when receiving data addressed to the STA 100, the power save is performed. Operates according to the mode specifications.

  The AP 200 transmits a beacon frame (S3004 to S3006), but the STA 100 operating in the power save mode does not receive the beacon frame at a timing other than the listen interval.

  When a data frame is transmitted from the STA 400 on the wired LAN to the STA 100 (S3010), the AP 200 receives it. Since the destination address (MACID_STA100) is addressed to the STA100 operating in the power save mode, the AP 200 buffers this data frame (S3011). In order to notify the STA 100 that the data addressed to the STA 100 is buffered, the AP 200 includes a TIM element in a beacon frame transmitted at a subsequent timing (S3012, S3014).

  Information on which terminal is buffering data is indicated by setting the AID bit of the corresponding terminal in the partial virtual bitmap field included in the TIM element.

  The STA 100 returns to the reception mode at the listen interval (S3013) and receives a beacon frame (S3015). Upon receiving the beacon frame, the STA 100 (SS3120) passes the beacon frame from the transmission / reception unit 111 to the management unit 112 (SS3121), and the management unit 112 checks the presence and content of the TIM field of the beacon frame (SS3122) Is recognized, the terminal management table 113 (MACID_STA100, On, Suspend, Resume, STA) is searched (SS3123) to confirm that the notification mode is resume and the buffering mode is STA. (SS3124). The management unit 112 sends a resume processing command to the power supply unit 130 (SS3125), generates a PS-Poll frame indicating a data frame transfer request (SS3127), and transmits the PS-Poll frame to the AP 200 via the transmission / reception unit ( SS3128, SS3129, S3016). On the other hand, the power supply unit 130 supplies power to the host module 120 and starts the resume operation.

  The AP 200 that has received the PS-Poll frame reads the buffered data addressed to the STA 100 (S3017), and transmits the data frame to the STA 100 (S3018).

  The STA 100 receives data addressed to itself (S3019). At this time, if the host resume operation is not completed, the transmission / reception unit 111 temporarily stores the received data frame in the data buffer 114. Further, the management unit 112 is notified of the reception of the data frame (SS3132). When the management unit 112 recognizes the completion of the resume of the host (SS3135), the management unit 112 updates (MACID_STA100, Off, Off, resume, STA) to the terminal management table 113 (SS3136), and also communicates with the transmission / reception unit 111. Is notified of data delivery to (SS3137).

  Upon receiving the notification, the transmission / reception unit 111 reads the buffered data frames from the data buffer 114 (SS3138), and delivers them to the communication application (SS3139).

  Next, an internal operation procedure of the wireless LAN terminal (STA) 100 in the second operation example will be described with reference to FIG. The second operation example is different from the first operation example in that the notification mode is not incoming resume but incoming call notification. Accordingly, the operation of the management unit 112 in the data frame reception process (S3019) from the STA 400 is different from that in the first operation example.

  As shown in FIG. 9, the STA 100 receives the data buffered in the AP 200 by transmitting the PS-Poll frame (S3016) (S3019). When receiving the data frame (SS3230), the transmission / reception unit 111 stores the received data frame in the data buffer 114 (SS3231). In addition, the management unit 112 is notified of the reception of the data frame (SS 3232). The management unit 112 confirms the data content (this includes information such as the data transmission source) (SS3233), and notifies the incoming call notification unit 140 that data has been received (SS3234).

  The incoming notification unit 140 notifies the user of an incoming wireless LAN frame by the above-described notification method (LED lighting, bell, vibration, etc.). At this time, for example, information on the transmission source may be displayed. The received data frames are buffered in the data buffer 114, but these data frames are kept buffered as long as the capacity permits, and passed to the communication application 121 when the user resumes the host module 120. Alternatively, it may be discarded at an appropriate timing after the incoming call notification.

  The STA 100 can also operate as follows. That is, since the STA 100 can detect that data addressed to the STA 100 is buffered in the AP 200 when receiving a beacon, it is possible to perform control so as to omit subsequent data reception processing by PS-Poll. Become. Thereby, useless transmission / reception of data can be avoided, and efficient use of radio resources can be realized. Further, a message frame that prompts the data buffered in the AP 200 to be discarded may be transmitted from the STA 100 to the AP 200.

  Second Embodiment FIG. 10 is a diagram illustrating a message sequence according to a communication procedure of the second embodiment. This embodiment is different from the first embodiment in that the AP 200 executes a buffering function for solving the latency problem of the resume operation in the host module 120 in the STA 100 (S4003, S4011). The power saving mode is set to suspend and the notification mode is set to resume, as in the first embodiment.

  FIG. 11 shows an internal operation procedure of the wireless LAN terminal (STA) 100 according to the second embodiment. As shown in the figure, the notification mode is changed to resume by a user operation in the STA 100 (S4000). At this time, using the setting change by the user (SS4100) as a trigger, the power saving management unit 122 notifies the management unit 112 of the notification mode change (resume) (SS4101). Further, the management unit 112 updates the terminal management table 113 (MACID_STA100, Off, Off, resume, AP) (SS4102).

  Similarly, the power saving mode of the wireless LAN module 110 is changed to On and the power saving mode of the host module 120 is changed to suspend by the user's operation or automatic control by the system due to battery consumption or the like (S4001). . These change processes (SS4110) are notified to the management unit 112 by the power saving management unit 122 (SS4111). The management unit 112 updates the terminal management table 113 (MACID_STA100, On, suspend, resume, AP) (SS4112). In addition, the management unit 112 sets the power save bit included in the header information of the IEEE802.11 frame in order to notify the AP 200 that the power save mode of the wireless LAN module 110 is turned on and the power save mode has changed to suspend. On, and a data frame including information for notifying that the power saving mode has transitioned to suspend is created (SS4113) and transmitted to the AP 200 via the transmission / reception unit 111 (SS4114, SS4115). The message for power saving notification may be in any format as long as it is agreed between the STA 100 and the AP 200. Further, a change notification that the power save mode is On is received from the management unit 112 (SS4116), and the operation in the power save mode is started (SS4117). On the other hand, the power saving management unit 122 notifies the power supply unit 130 of the power saving mode change (suspend) (SS4118), and the power supply unit 130 sends to the host module 120 other than the part necessary for resuming (for example, main memory). Is stopped (SS4119).

  FIG. 12 shows an internal operation procedure of the wireless LAN base station (AP) 200 according to the second embodiment. As shown in the figure, the AP 200 receives a power saving notification data frame in which the power save bit is set to On from the STA 100 (S4003). The transmission / reception unit 211 passes the received change notification data frame (SS4200) to the management unit 212 (SS4201), and the management unit 212 updates the terminal management table 213 (MACID_STA100, On, suspend) (SS4202).

  AP 200 transmits beacon frames (S4004 to S4006), but STA 100 operating in the power save mode does not receive those frames.

  When a data frame is transmitted from the STA 400 on the wired LAN to the STA 100 (S4010), the AP 200 receives the data frame (S4011). Upon receiving the data frame addressed to the STA 100 (SS4210), the transmission / reception unit 221 of the wired module 220 delivers the data frame to the transfer unit 230 (SS4211).

  Since the destination address of the data frame is MACID_STA100, the transfer unit 230 delivers the data frame to the transmission / reception unit 211 of the wireless LAN module 210 (SS4213). The transmission / reception unit 212 searches the terminal management table 213 (MACID_STA100, On, Suspend) (SS4214), and confirms that the STA100 is in the power save mode and is suspended (SS4215), and then sends the data frame to the first data buffer 214. Deliver (SS4216). Since the received data frame is addressed to the suspended terminal, the first data buffer 214 delivers the data frame to the second data buffer 240 (SS4217).

  As shown in FIG. 10, in order to notify the STA 100 that the data addressed to the STA 100 is buffered, the AP 200 includes a TIM element in a beacon frame transmitted at a subsequent timing (S4012, S4014).

  The STA 100 returns to the reception mode at the listen interval (S4013) and receives a beacon frame (S4015). Upon receiving the beacon frame, the STA 100 (SS4120) passes the beacon frame from the transmission / reception unit 111 to the management unit 112 (SS4121), and the management unit 112 checks the presence and content of the TIM field of the beacon frame (SS4122). Recognize that other frames are buffered. Next, the management unit 112 searches the status (MACID_STA100, On, suspend, resume, AP) of the terminal management table 113 (SS4123), confirms that the notification mode is resume and the buffer mode is AP (SS4124), The power supply unit 130 is instructed to resume the host module 120 (SS4125). As a result, the power supply unit 130 resumes the host module 120 (SS4126). When the management unit 112 recognizes that the host module 120 has resumed (SS4127), the management unit 112 updates the terminal management table 113 (MACID_STA100, On, Off, resume, AP) (SS4128), and indicates a frame transfer request PS- A poll frame is generated (SS4129) and transmitted to the AP 200 via the transmission / reception unit (SS4130, SS4131, S4016).

  In the AP 200 (S4017, SS4230) that has received the PS-Poll frame, the transmission / reception unit 211 reads the data frame addressed to the STA 100 from the second data buffer via the first data buffer 214 (SS4231), and the data frame to the STA100. Is transmitted (S4018, SS4232).

  The STA 100 receives data addressed to itself (S4019, SS4140). At this time, the transmission / reception unit 111 delivers to the communication application 121 (SS4141).

  According to the embodiment of the present invention described above, even when the wireless LAN terminal is in a suspended state by the cooperative operation of the wireless LAN module management unit, the host module power saving management unit, and the power supply unit. Thus, communication can be performed without discarding the received data frame. Alternatively, the user can be notified that data has been received. Further, the wireless LAN base station side grasps the power saving state of the wireless LAN terminal, and when the wireless LAN terminal is suspended, the wireless LAN terminal is configured by buffering data in a larger capacity buffer. Even in the case where is not equipped with a buffer, it is possible to prevent the data frame addressed to the wireless LAN terminal from being discarded.

  Note that the present invention is not limited to the above-described embodiment as it is, and can be embodied by modifying the constituent elements without departing from the scope of the invention in the implementation stage. In addition, various inventions can be formed by appropriately combining a plurality of components disclosed in the embodiment. For example, some components may be deleted from all the components shown in the embodiment. Furthermore, constituent elements over different embodiments may be appropriately combined.

1 is a diagram showing a local area network (LAN) according to an embodiment of the present invention. 1 is a block diagram showing a wireless LAN terminal (STA) according to an embodiment of the present invention. The figure which shows the terminal management table with which the wireless LAN terminal concerning one Embodiment of this invention is provided. 1 is a block diagram showing a wireless LAN base station (AP) according to an embodiment of the present invention. The figure which shows the terminal management table with which the wireless LAN base station concerning one Embodiment of this invention is provided. The figure which shows the message sequence which concerns on the communication procedure of the 1st Embodiment of this invention. The figure which shows a part of internal operation | movement procedure of the wireless LAN terminal concerning the 1st operation example in the 1st Embodiment of this invention. The figure which shows the other part of the internal operation | movement procedure of the wireless LAN terminal concerning the 1st Embodiment of this invention. The figure which shows the internal operation | movement procedure of the wireless LAN terminal concerning the 2nd operation example in the 1st Embodiment of this invention. The figure which shows the message sequence which concerns on the communication procedure of the 2nd Embodiment of this invention. The figure which shows the internal operation | movement procedure of the wireless LAN terminal concerning the 2nd Embodiment of this invention. The figure which shows the internal operation | movement procedure of the wireless LAN base station concerning the 2nd Embodiment of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 100,300 ... Wireless LAN terminal (STA), 111 ... Transmission / reception unit, 112 ... Management unit, 113 ... Terminal management table, 114 ... Data buffer, 120 ... Host module, 121 ... Communication application, 122 ... Power saving management unit, 130 ... Power supply unit, 140 ... Incoming call notification unit, 200 ... Wireless LAN base station, 400 ... Wired LAN terminal

Claims (6)

A host module that processes a wireless LAN frame and temporarily stops processing of the wireless LAN frame in the power saving mode state;
A wireless LAN module that receives the wireless LAN frame from a wireless communication medium and delivers the frame to the host module;
Storage means for storing whether the host module is in a power saving mode;
Detecting means for detecting incoming of the wireless LAN frame;
A wireless LAN terminal comprising: notification means for notifying resumption of processing of a wireless LAN frame that has been temporarily stopped if the host module is in a power saving mode state when an incoming of the wireless LAN frame is detected. A power supply unit that energizes the host module in the non-power-saving mode state, and temporarily interrupts energization of the host module in the power-saving mode state;
The wireless LAN terminal according to claim 1, wherein the notifying unit includes a unit that outputs a control signal for controlling the power supply unit so as to resume energization of the host module. The wireless LAN terminal according to claim 1, wherein the notification unit includes a unit that emits at least one of light, sound, and vibration. The wireless LAN terminal according to any one of claims 1 to 3, wherein an incoming of the wireless LAN frame is detected based on a beacon signal transmitted from a wireless LAN base station. A host module that processes a wireless LAN frame and temporarily stops processing of the wireless LAN frame in the power saving mode state; a wireless LAN module that receives the wireless LAN frame from a wireless communication medium and delivers the wireless LAN frame to the host module; Storage means for storing whether or not the host module is in a power saving mode; detection means for detecting incoming of the wireless LAN frame; and when the incoming of the wireless LAN frame is detected, the host module A wireless LAN terminal having notification means for notifying resumption of processing of a wireless LAN frame temporarily stopped if the power saving mode state;
Storage means for storing whether or not the host module of the wireless LAN terminal is in a power saving mode state; and if the host module of the wireless LAN terminal is in a power saving mode state, a wireless to be transmitted to the wireless LAN terminal A wireless communication system comprising: a wireless LAN base station having buffer control means for temporarily saving a LAN frame in a frame buffer. A host module that processes a wireless LAN frame and temporarily stops processing of the wireless LAN frame in the power saving mode state; a wireless LAN module that receives the wireless LAN frame from a wireless communication medium and delivers the wireless LAN frame to the host module; In a communication control method for a wireless LAN terminal comprising:
A storage step of storing whether or not the host module is in a power saving mode;
A detecting step of detecting an incoming of the wireless LAN frame;
A communication control method comprising: a notification step of notifying a restart of processing of a wireless LAN frame that has been temporarily stopped if the host module is in a power saving mode state when an incoming of the wireless LAN frame is detected.

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