JP2005341296A - Mobile terminal and radio communication system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a mobile terminal which is capable of suppressing power consumption if a beacon can be received from an access point. <P>SOLUTION: If a mobile terminal 3 is located within a range from an OFF period change point A to an OFF period change point B, an OFF period of the mobile terminal 3 in a power save mode is made longer than a predetermined OFF period (in the case where the mobile terminal 3 is located within a range from a radio wave arrival limit point 1 to the OFF period change point A or from a radio wave arrival limit point 2 to the OFF period change point B). <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a radio communication system including an access point and a mobile terminal, and more particularly to a power save mode in the mobile terminal.

  In general, an access point transmits a beacon indicating communication information (for example, the presence / absence of a frame and a support rate) in a wireless communication network to a mobile terminal at predetermined intervals, and the mobile terminal obtains communication information obtained from the beacon. Frame transmission / reception and other communication operations.

  In addition, when the mobile terminal switches from the active mode (a state where power is always supplied to all circuits) to the power save mode, the mobile terminal is in an awake state (power is supplied to all circuits) according to the beacon transmission timing. A state in which a beacon or a frame can be received) and a sleep state (a state in which power supply to some circuits is turned off and a beacon or a frame cannot be received) are alternately repeated. As described above, when the mobile terminal does not receive a beacon, a frame, or the like, the power supply to some circuits is turned off to reduce power consumption.

By the way, in the conventional power save mode, there is a case in which the on / off cycle (hereinafter referred to as an intermittent cycle) of power supply to some circuits is changed according to the movement state of the mobile terminal (for example, Patent Document 1). reference).
That is, in the power save mode, for example, when the mobile terminal can receive a beacon from an access point, the mobile terminal receives a beacon at a normal intermittent period, and the mobile terminal cannot receive a beacon from the access point. If the mobile terminal is moving, the mobile terminal cannot receive a beacon from the access point in preparation for receiving a beacon from the access point by shortening the intermittent period from the normal period. In addition, when the mobile terminal is not moving, reception of a beacon cannot be expected, so control is performed to set the intermittent cycle longer than usual.

As described above, when the mobile terminal cannot receive a beacon from the access point and the mobile terminal is not moving, the intermittent cycle is lengthened, so that power consumption can be suppressed.
JP-A-10-84308 (Pages 2-4, FIGS. 1-2)

  As described above, in the conventional power save mode, power consumption is reduced when a beacon cannot be received from an access point. However, when a beacon can be received from an access point, power consumption is reduced. There was no control.

  Therefore, an object of the present invention is to provide a mobile terminal and a wireless communication system capable of suppressing power consumption when a beacon can be received from an access point.

In order to solve the above problems, the present invention adopts the following configuration.
That is, the mobile terminal of the present invention is a mobile terminal that performs wireless communication with an access point and repeatedly turns on and off power supply to some circuits in accordance with the transmission timing of a notification signal from the access point. A mobile terminal location information acquisition unit that acquires location information of the mobile terminal, location information of the access point transmitted from the access point, and a radio wave indicating a reachable limit distance of a radio wave transmitted from the access point A radio wave arrival limit range recognizing means for recognizing a radio wave arrival limit range indicating a radio wave arrival limit range based on the reach limit distance, and the mobile terminal in a predetermined range within the radio wave arrival limit range When present, the off period of power supply to the part of the circuit is set to an off period longer than a predetermined off period, When serial the mobile terminal outside the predetermined range is present, characterized in that it comprises a OFF period changing means for setting the off period of the power supply of the to part of the circuit to the predetermined off period.

  Thus, when a mobile terminal exists in a predetermined range within the radio wave arrival limit range, an off period of power supply to some circuits of the mobile terminal is set to a predetermined off period (when a mobile terminal exists outside the predetermined range). The off-period is set longer than the off-period), so that when the mobile terminal exists within a predetermined range within the radio wave arrival limit range, the power supply time to some circuits is out of the predetermined range. The power supply time for a part of the circuits in the case where it exists can be shortened.

  In addition, when a mobile terminal exists outside a predetermined range within the radio wave arrival limit range, the off period of power supply to some of the circuits of the mobile terminal is set to a predetermined off period, so a link break is detected. The timing is not delayed, and it is possible to prevent the time required for roaming with another access point from becoming long.

  The mobile terminal of the present invention is a mobile terminal that performs radio communication with an access point and repeatedly turns on and off power supply to some circuits in accordance with the transmission timing of a notification signal from the access point. A mobile terminal location information acquisition unit that acquires location information of the mobile terminal, a travel speed calculation unit that calculates a travel speed of the mobile terminal, location information of the access point transmitted from the access point, and Radio wave arrival limit range recognition means for recognizing a radio wave arrival limit range indicating a radio wave arrival limit range based on a radio wave arrival limit distance indicating a radio wave arrival limit distance transmitted from the access point; , Based on the moving speed of the mobile terminal and the position of the mobile terminal within the radio wave arrival limit range, Characterized in that it comprises a OFF period changing means for setting the off period of the power supply of the to part of the circuit.

  Further, in the mobile terminal, the moving speed of the mobile terminal when the mobile terminal is within a predetermined range within the radio wave arrival limit range, and the mobile terminal when the mobile terminal is outside the predetermined range When the moving speed is the same, the off period changing means indicates that the mobile terminal is out of the predetermined range when the mobile terminal is in the predetermined range. You may comprise so that it may become more than the time set when doing.

Further, in the mobile terminal, the outside of the predetermined range is set to be a range on the movement straight line of the mobile terminal from a point of intersection of the movement straight line and the outer periphery of the radio wave arrival limit range to a point inside a predetermined distance. May be.
The wireless communication system of the present invention includes an access point and a mobile terminal that alternately turns on and off power supply to some circuits in accordance with the transmission timing of a notification signal from the access point. In the wireless communication system, the access point includes an access point location information acquisition unit that acquires location information of the access point, location information of the access point, and an arrival limit distance of radio waves transmitted from the access point. Transmitting means for transmitting to the mobile terminal, the mobile terminal, the mobile terminal location information acquisition means for acquiring location information of the mobile terminal, and the access transmitted from the access point Based on the location information of the point and the radio wave arrival limit distance, A radio wave arrival limit range recognizing means for recognizing a radio wave arrival limit range indicating a radio wave arrival limit range; and when the mobile terminal is in a predetermined range within the radio wave arrival limit range, The off period of power supply is set to an off period longer than a predetermined off period, and when the mobile terminal exists outside the predetermined range, the off period of power supply to the some circuits is set to the predetermined off period. And an off period changing means for setting.

  The wireless communication system of the present invention includes an access point and a mobile terminal that alternately turns on and off power supply to some circuits in accordance with the transmission timing of a notification signal from the access point. In the wireless communication system, the access point includes an access point position information acquisition unit that acquires position information of the access point, position information of the access point, and a reach limit distance of a radio wave transmitted from the access point. Transmitting means for transmitting to the mobile terminal a radio wave arrival limit distance that is indicated, and the mobile terminal calculates mobile terminal location information acquisition means for acquiring location information of the mobile terminal, and a moving speed of the mobile terminal A moving speed calculating means; position information of the access point transmitted from the access point; Radio wave arrival limit range recognizing means for recognizing a radio wave arrival limit range indicating a radio wave arrival limit range transmitted from the access point based on a radio wave reach limit distance; and a moving speed of the mobile terminal and the radio wave reach limit range And an off period changing means for setting an off period of power supply to the partial circuit of the mobile terminal based on the position of the mobile terminal.

  Further, in the wireless communication system, a moving speed of the mobile terminal when the mobile terminal is within a predetermined range within the radio wave arrival limit range, and the mobile terminal when the mobile terminal is outside the predetermined range When the moving speed of the mobile terminal is the same, the off-period changing means sets the off-period of power supply to the part of the circuit when the mobile terminal is in the predetermined range. You may comprise so that it may become more than the time set when it exists.

  Further, in the above wireless communication system, the outside of the predetermined range is set to be a range from an intersection of the movement straight line and the outer periphery of the radio wave arrival limit range to a point inside a predetermined distance on the movement straight line of the mobile terminal. May be.

  According to the present invention, when a mobile terminal exists in a predetermined range within the radio wave arrival limit range, the power supply time to some circuits in the mobile terminal is a part of the case where the mobile terminal exists outside the predetermined range. Therefore, when the beacon can be received from the access point, the power consumption of the mobile terminal can be suppressed.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1A shows a wireless communication system according to an embodiment of the present invention.
As shown in FIG. 1A, the wireless communication system 1 includes an access point (AP: Access Point) 2 and a mobile terminal (STA: Station) 3. Note that the wireless communication system 1 according to the present embodiment is based on, for example, an IEEE 802.11 wireless LAN.

The access point 2 transmits a beacon (notification signal) indicating the communication status of the wireless communication network (for example, the presence / absence of a frame and a support rate) to the mobile terminal 3 at predetermined intervals.
The mobile terminal 3 performs transmission / reception of frames and other communication operations based on communication information obtained from beacons.

Further, when the mobile terminal 3 is switched from the active mode to the power save mode, the awake state and the sleep state are alternately repeated according to the beacon transmission timing, and a beacon, a frame, and the like are received in the awake state.
FIG. 1B shows the access point 2.

As shown in FIG. 1B, the access point 2 includes a position information acquisition unit 4 (access point position information acquisition unit) and a transmission / reception unit 5 (transmission unit).
The location information acquisition unit 4 is, for example, a GPS (Global Positioning System) receiver, and obtains location information of the access point 2.

  The transmission / reception unit 5 transmits a beacon, a frame, and the like to the mobile terminal 3 and receives a frame, an ACK (Acknowledgement), and the like from the mobile terminal 3. Further, the transmission / reception unit 5 transmits the radio wave arrival limit distance indicating the position information acquired by the position information acquisition unit 4 and the arrival limit distance of the radio wave transmitted from the access point 2 to the mobile terminal 3.

FIG. 1C shows the mobile terminal 3.
As shown in FIG. 1 (c), the mobile terminal 3 includes a transmission / reception unit 6, a position information acquisition unit 7 (mobile terminal position information acquisition unit), a movement speed calculation unit 8 (movement speed calculation unit), and radio wave arrival. A limit range recognizing unit 9 (radio wave arrival limit range recognizing unit), a recording unit 10, an off period changing unit 11 (off period changing unit), and a counter 12 are provided.

The transmission / reception unit 6 receives a beacon, a frame, or the like from the access point 2 or transmits a frame, an ACK, or the like to the access point 2. Further, the transmission / reception unit 6 receives the radio wave arrival limit distance and the position information of the access point 2 from the access point 2.
The location information acquisition unit 7 is a GPS receiver, for example, and acquires location information of the mobile terminal 3.

The moving speed calculation unit 8 calculates the moving speed V and the moving direction (vector) of the mobile terminal 3 based on the position information acquired by the position information acquiring unit 7 and the like.
The radio wave arrival limit range recognition unit 9 recognizes a radio wave reach limit range indicating the reach limit range of the radio wave transmitted from the access point 2 based on the position information of the access point 2 and the radio wave reach limit distance.

In the recording unit 10, the moving speed of the mobile terminal 3, the range in which the mobile terminal 3 exists, and the power supply off period (LI: Listen Interval) to some circuits of the mobile terminal 3 are associated in advance. Records the database.
Here, FIG. 2 is a diagram illustrating an example of a database recorded in the recording unit 10.

  In the database 20 shown in FIG. 2, the uppermost row shows a range where the mobile terminal 3 exists. In the example shown in FIG. 2, two ranges of “Section AB” (range 1) and “Radio wave arrival limit point−A / B−Radio wave arrival limit point” (range 2) are shown from the left. In the database 20, the leftmost column shows the moving speed of the mobile terminal 3. In the example shown in FIG. 2, “0: stop”, “0-10 km / h”, “10-50 km / h”, “50-90 km / h”, “80-120 km / h”, “ Six moving speeds of “120 km / h or more” are shown. In the database 20, an appropriate off period in the power save mode is shown in an area where the moving speed of the mobile terminal 3 corresponds to the range in which the mobile terminal 3 exists. In the example illustrated in FIG. 2, the off period corresponding to “Section AB” and “10 to 50 km / h” indicates “16” (period during which 16 beacons are transmitted), The off period corresponding to “Point-A / B-Radio wave arrival limit point” and “10 to 50 km / h” indicates “2” (a period during which two beacons are transmitted).

Further, the off period changing unit 11 refers to the recording unit 10 to select an off period corresponding to the range in which the mobile terminal 3 exists and the moving speed of the mobile terminal 3, and has been set up to now. Change the off period to the selected off period.
Next, the off period changing operation in the mobile terminal 3 will be described.

FIG. 3 is a flowchart for explaining the off-period changing operation in the mobile terminal 3.
First, in step S1, the mobile terminal 3 sets the counter value (Timecount) of the counter 12 to zero.

Next, in step S <b> 2, the mobile terminal 3 has a counter value of the counter 12 that is smaller than a period (hereinafter referred to as an STA information acquisition interval) for acquiring a range where the mobile terminal 3 exists that is recorded in the recording unit 10 or the like in advance. Determine whether or not.
When the counter value of the counter 12 is smaller than the STA information acquisition interval (step S2 is Yes), in step S3, the mobile terminal 3 adds 1 to the counter value of the counter 12, and returns to step S2.

On the other hand, when the counter value of the counter 12 is not smaller than the STA information acquisition interval (No in step S2), the mobile terminal 3 sets the counter value of the counter 12 to zero in step S4.
Next, in step S <b> 5, the mobile terminal 3 acquires the position information of the mobile terminal 3 from the position information acquisition unit 7.

Here, FIG. 4 is a diagram illustrating an example of movement of the mobile terminal 3.
In the example shown in FIG. 4, the mobile terminal 3 is assumed to have moved from the STA position (X1, Y1) at time 1 to the STA position (X2, Y2) at time 2, and the STA position at time 2 is the current position.

Next, in step S6, the mobile terminal 3 updates the acquired position information.
Next, in step S <b> 7, the mobile terminal 3 calculates an equation of the movement line of the mobile terminal 3 from the previously acquired position information and the currently acquired position information.
For example, as shown in FIG. 4, when the mobile terminal 3 moves from the STA position at time 1 to the STA position at time 2, the previously acquired position information is the STA position (X1, Y1) at time 1, this time When the acquired position information is the STA position (X2, Y2) at time 2, the movement straight line of the mobile terminal 3 is Y = AX + B (1). It should be noted that A = (Y1-Y2) / (X1-X2) (2), B = (X1 * Y2-X2 * Y1) / (X1-X2) (3).

Next, in step S8, the mobile terminal 3 moves the mobile terminal 3 from the movement distance D of the mobile terminal 3 calculated from the previously acquired position information and the current position information acquired this time and the STA information acquisition interval. The speed V is calculated.
For example, as shown in FIG. 4, the movement distance D when the mobile terminal 3 moves from the STA position at time 1 to the STA position at time 2 is D = ((X2 ² −X1 ² ) + (Y2 ² −Y1). ² )) ^1/2 ... (4)

For example, if the STA information acquisition interval is T, the moving speed V is V = D / T (5).
Next, in step S9, the mobile terminal 3 determines whether or not it is before a join (a state in which the mobile terminal 3 and the access point 2 are connected).

When it is before joining (step S9 is Yes), in step S10, the mobile terminal 3 performs the process before joining, and returns to step S2.
On the other hand, when it is not before joining (step S9 is No), in step S11, the mobile terminal 3 performs processing after joining, and returns to step S2.

Although not shown in FIG. 3, since there is no position information acquired last time when the mobile terminal 3 is turned on, the process returns to step S2 after the position information is updated (step S6).
FIG. 5 is a flowchart showing the process before join (step S10 in FIG. 3).
First, in step ST <b> 1, the mobile terminal 3 receives a beacon from a certain access point 2 or a plurality of access points 2, and determines a join destination access point 2.

Next, in step ST2, the mobile terminal 3 receives the beacon transmission interval (BI: Beacon Interval), the location information of the access point 2, and the radio wave arrival limit distance from the access point 2 determined as the join destination access point 2. To do.
Next, in step ST3, the mobile terminal 3 calculates the radio wave arrival limit range of the access point 2 based on the location information of the access point 2 and the radio wave arrival limit distance.

For example, as illustrated in FIG. 4, the radio wave arrival limit range of the access point 2 when the mobile terminal 3 receives the position information (X0, Y0) of the access point 2 and the radio wave arrival limit distance L of the access point 2 is From the equation of the circle, (X−X0) ² + (Y−Y0) ² = L ² (6)

  Next, in step ST4, the mobile terminal 3 determines the radio wave arrival limit point on the movement line of the mobile terminal 3 based on the radio wave arrival limit range of the access point 2 and the movement line of the mobile terminal 3 (the movement of the mobile terminal 3). Two points are calculated on the straight line (intersection of the radio wave arrival limit outer circumference of the access point 2 and the moving straight line of the mobile terminal 3).

For example, radio wave arrival limit points 1 and 2 as shown in FIG. 4 are calculated.
Hereinafter, a specific example of a method for calculating the radio wave arrival limit points 1 and 2 will be described.
First, substituting (1) into (6) yields (X−X0) ² + (AX + B−Y0) ² = L ² (7). When X is obtained from (7), X = X0− A × (B−Y0) ± ((A × (B−Y0) −X0) ² − (A ² +1) × (X0 ² + (B−Y0) ² −L ² )) ^1/2 / A ² +1 (8)

Further, substituting (8) into (1) and obtaining Y, Y = A × (X0−A × (B−Y0) ± ((A × (B−Y0) −X0) ² − (A ² ). +1) × (X0 ² + (B−Y0) ² −L ² )) ^1/2 / A ² +1) + B (9)
Thus, the two solutions obtained from (8) correspond to the X coordinates of the radio wave arrival limit points 1 and 2, respectively. The two solutions obtained from (9) correspond to the Y coordinates of the radio wave arrival limit points 1 and 2, respectively.

Next, in step ST5, the mobile terminal 3 calculates a distance D1 from the current location of the mobile terminal 3 to the radio wave arrival limit point 1 and a distance D2 from the current location of the mobile terminal 3 to the radio wave arrival limit point 2.
For example, distances D1 and D2 as shown in FIG. 4 are calculated.

Hereinafter, a specific example of a method for calculating the distances D1 and D2 will be described. In FIG. 4, the radio wave arrival limit point 1 is (NX1, NY1), and the radio wave arrival limit point 2 is (NX2, NY2).
First, the distance D1 is D1 = ((X2−NX1) ² + (Y2−NY1) ² ) ^1/2 (10).

The distance D2 is D2 = ((X2−NX2) ² + (Y2−NY2) ² ) ^1/2 (11).
Next, in step ST6, the mobile terminal 3 determines whether or not the distance D2 is shorter than the distance D4 from the radio wave arrival limit point 2 to the off period change point B. That is, the mobile terminal 3 determines whether or not the mobile terminal 3 exists in a predetermined range (range from the radio wave arrival limit point 2 to the off period change point B) within the radio wave arrival limit range. The off-period change point B is a point on the moving straight line of the mobile terminal 3 that is a predetermined distance inside from the radio wave arrival limit point 2, and the predetermined distance is arbitrarily determined in advance by the designer of the wireless communication system 1. It is what. For example, the off-period change point B may be set as a point that travels a certain distance from the radio wave arrival limit point 2 in the direction opposite to the moving direction of the mobile terminal 3 on the moving straight line of the mobile terminal 3. The distance D4 may be calculated by the same calculation method as (10) or (11).

  If the distance D2 is shorter than the distance D4 (Yes in step ST6), that is, if the mobile terminal 3 exists in the range from the radio wave arrival limit point 2 to the off period change point B, in step ST7, the mobile terminal 3 Selects the off period based on the moving speed of the mobile terminal 3.

When the mobile terminal 3 is stopped (step ST7 is stopped), in step ST8, the mobile terminal 3 selects an off period in the stop-radio wave reach-A (B) mode.
When the mobile terminal 3 is moving at a low speed (step ST7 is a low speed), in step ST9, the mobile terminal 3 selects an off period in the low speed-radio wave reach-A (B) mode.

When the mobile terminal 3 is moving at medium speed (step ST7 is medium speed), in step ST10, the mobile terminal 3 selects an off period in the medium speed-radio wave reach-A (B) mode.
When the mobile terminal 3 is moving at high speed (step ST7 is high speed), in step ST11, the mobile terminal 3 selects an off period in the high speed-radio wave reach-A (B) mode.

  For example, when the mobile terminal 3 moves at a medium speed and the mobile terminal 3 exists in the section from the radio wave arrival limit point 2 to the off period change point B, “10 to 10” of the database 20 shown in FIG. When “50 km / h” is set as a medium speed, “2” corresponding to “Radio wave arrival limit point-A / B-Radio wave arrival limit point” and “10-50 km / h” corresponds to medium speed—radio wave arrival range— It is selected as the off period in the A (B) mode.

When the selection of the off period ends, in step ST12, the mobile terminal 3 sets the selected off period as a future off period and starts joining.
If the distance D2 is not shorter than the distance D4 (No in step ST6), in step ST13, the mobile terminal 3 determines whether the distance D1 is shorter than the distance D3 from the radio wave arrival limit point 1 to the off period change point A. Judge whether or not. That is, the mobile terminal 3 determines whether or not the mobile terminal 3 exists in a predetermined range (range from the radio wave arrival limit point 1 to the off period change point A) within the radio wave arrival limit range. The off-period change point A is a point on the moving straight line of the mobile terminal 3 that is a predetermined distance inside the radio wave arrival limit point 1 and is arbitrarily determined in advance by the designer of the wireless communication system 1. The off-period change point A may be set as a point that is advanced from the radio wave arrival limit point 1 by a certain distance in the moving direction of the mobile terminal 3 on the moving straight line of the mobile terminal 3, for example. The distance D3 may be calculated by the same calculation method as (10) or (11).

  If the distance D1 is shorter than the distance D3 (Yes in step ST13), that is, if the mobile terminal 3 exists in the range from the radio wave arrival limit point 1 to the off period change point A, in step ST7, the mobile terminal 3 Selects the off period based on the moving speed of the mobile terminal 3.

  Further, when the distance D1 is not shorter than the distance D3 (No in step ST13), that is, when the mobile terminal 3 exists in the range (section AB) from the off period change point A to the off period change point B, In step ST14, the mobile terminal 3 selects an off period based on the moving speed of the mobile terminal 3.

When the mobile terminal 3 is stopped (step ST14 is stopped), in step ST15, the mobile terminal 3 selects an off period in the stop-section AB mode.
When the mobile terminal 3 is moving at a low speed (step ST14 is low speed), in step ST16, the mobile terminal 3 selects an off period in the low speed-section AB mode.

When the mobile terminal 3 is moving at medium speed (step ST14 is medium speed), in step ST17, the mobile terminal 3 selects an off period in the medium speed-section AB mode.
When the mobile terminal 3 is moving at high speed (step ST14 is high speed), in step ST18, the mobile terminal 3 selects an off period in the high speed-section AB mode.

  For example, when the mobile terminal 3 moves at medium speed and the mobile terminal 3 exists in the section AB, and “10 to 50 km / h” of the database 20 shown in FIG. “16” corresponding to “Section AB” and “10-50 km / h” is selected as the off period in the medium speed-Section AB mode.

When the selection of the off period ends, in step ST12, the mobile terminal 3 sets the selected off period as a future off period and starts a join.
The mobile terminal 3 notifies the access point of the set off period at the start of the joint (step ST12).

  Next, FIG. 6 is a flowchart showing processing after the mobile terminal 3 has joined the access point 2 (step ST11 in FIG. 3). Since steps STP1 to STP14 shown in FIG. 6 are the same processes as steps ST4 to ST18 shown in FIG. 5, description of STP1 to STP14 will be omitted and will be described from step STP15.

  In step STP15, the mobile terminal 3 determines whether or not the selected off period coincides with the currently set off period (Listen Interval). For example, when the mobile terminal 3 moves from the range from the off-period change point A to the off-period change point B shown in FIG. 7 to the range from the radio wave arrival limit point 2 to the off-period change point A or B. It is determined whether or not the movement speed of the mobile terminal 3 has changed.

  When the selected off period coincides with the currently set off period (step STP15 is Yes), for example, when the mobile terminal 3 has not moved from one range to another range, or the moving speed has changed. If not, the mobile terminal 3 ends the flow operation of FIG. 6 and performs the power save mode in the currently set off period until the next off period setting timing.

  On the other hand, when the selected off period does not match the currently set off period (step STP15 is No), for example, when the mobile terminal 3 moves from one range to another range, or the moving speed changes. In this case, in step STP16, the mobile terminal 3 sets the selected off period as a future off period.

Next, in step STP17, the mobile terminal 3 notifies the access point 2 of the changed off period. And the mobile terminal 3 complete | finishes the flow operation | movement of FIG. 6, and performs power save mode by the OFF period after a change until the setting timing of the next OFF period.
Here, for example, consider a case where the moving speed of the mobile terminal 3 is moving at 40 km / h.

FIG. 7 is a diagram illustrating an example of changing the off period when the mobile terminal 3 is moving at a moving speed of 40 km / h.
As shown in FIG. 7, the off period when the mobile terminal 3 exists in the range from the off period change point A to the off period change point B is “section AB” when referring to the database 20 shown in FIG. And “10 to 50 km / h” correspond to “16”.

Further, when the mobile terminal 3 exists in the range from the radio wave arrival limit point 2 to the off period change point B, the “radio wave arrival limit point-A / B-” is referred to when the database 20 shown in FIG. “Radio wave arrival limit point” and “10 to 50 km / h” correspond to “2”.
As described above, in the power save mode according to the present embodiment, when the mobile terminal 3 exists in the range (section A-B) from the radio wave arrival limit point A to the radio wave arrival limit point B within the radio wave arrival limit range, a predetermined value is set. The off period is longer than the off period (off period when the mobile terminal 3 is in the range from the radio wave arrival limit point 2 to the off period change point B).

Thereby, in the power save mode in this embodiment, when the access point 2 and the mobile terminal 3 are connected, the power consumption of the mobile terminal 3 can be suppressed.
FIG. 8 is a diagram comparing the off period of the conventional power save mode and the off period of the power save mode in the present embodiment, and FIG. 8A shows the on and off periods of the conventional power save mode. FIG. 8B shows an on / off period of the power save mode in the present embodiment.

  As shown in FIG. 8, in the conventional power save mode, when the mobile terminal 3 exists within the radio wave arrival limit range, the off period is always constant no matter where the mobile terminal 3 is located. In the mode, when the mobile terminal 3 exists in the range 1 (section AB) that is relatively close to the access point 2 within the radio wave arrival limit range, the off period is set to the predetermined off period (the mobile terminal 3 exists in the range 2). If you want to be longer than off period).

Therefore, the power save mode of this embodiment can suppress the power consumption of the mobile terminal 3 compared to the conventional power save mode.
Further, in the power save mode of the present embodiment, when the mobile terminal 3 exists in the vicinity of the outer periphery of the radio wave arrival limit range, the off period is set to a predetermined off period, so that the off period is longer than the predetermined off period. Compared to the case, it is possible to prevent the timing for detecting a broken link from being delayed and to prevent the time required for roaming with another access point 2 from increasing.

For example, there are the following three methods for recognizing that the link between the mobile terminal 3 and the access point 2 that has been connected so far is broken.
(1) When the number of times a beacon cannot be received continuously exceeds a threshold value (times).
(2) A case in which a beacon reception success history or a beacon reception failure history is retained, and the average value of the reception success rates falls below a threshold (%).
(3) When the time waiting for the next beacon exceeds the threshold (ms).

Moreover, in the said embodiment, when the mobile terminal 3 exists in the range 2, it is the structure which sets an off period to a predetermined | prescribed off period, but when the mobile terminal 3 exists in the range 2, an off period is set to predetermined off period. You may comprise so that it may set to the off period shorter than a period.
Thus, when the off period is set to an off period shorter than the predetermined off period, the link break can be detected earlier than when the off period is set to the predetermined off period. The time required for roaming with the access point can be reduced.

  Moreover, in the said embodiment, it is the structure which sets the OFF period of the power supply to the one part circuit in the mobile terminal 3 based on the moving speed of the mobile terminal 3, and the position of the mobile terminal 3 within the radio wave arrival limit range. However, it may be configured to set an off period of power supply to some circuits in the mobile terminal 3 based only on the position of the mobile terminal 3 within the radio wave arrival limit range.

  That is, in FIG. 4, the mobile terminal 3 exists in a range from the radio wave arrival limit point 1 to the off period change point A or a range from the radio wave arrival limit point 2 to the off period change point B on the movement line of the mobile terminal 3. When the mobile terminal 3 exists in the range from the off-period change point A to the off-period change point B on the movement straight line of the mobile terminal 3, the off-period of the mobile terminal 3 is set to a predetermined off-period You may comprise so that the OFF period of the terminal 3 may be set longer than the said predetermined OFF period.

  Thereby, when the access point 2 and the mobile terminal 3 are connected, the power consumption of the mobile terminal 3 can be suppressed.

It is a figure which shows the radio | wireless communications system of embodiment of this invention. It is a figure which shows an example of the database recorded on a recording part. It is a flowchart for demonstrating operation | movement of a mobile terminal. It is a figure which shows the example of a movement of a mobile terminal. It is a flowchart which shows operation | movement of the mobile terminal before joining. It is a flowchart which shows operation | movement of the mobile terminal after joining. It is a figure which shows the example of a change of an off period when a mobile terminal is moving at 40 km / h. It is a figure which compares the power save mode in the past with the power save mode in this embodiment.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Wireless communication system 2 Access point 3 Mobile terminal 4 Location information acquisition part 5 Transmission / reception part 6 Transmission / reception part 7 Position information acquisition part 8 Movement speed calculation part 9 Radio wave arrival limit range recognition part 10 Recording part 11 Off period change part 12 Counter

Claims (8)

A mobile terminal that performs wireless communication with an access point and repeatedly turns on and off power supply to some circuits in accordance with the transmission timing of a notification signal from the access point,
Mobile terminal location information acquisition means for acquiring location information of the mobile terminal;
Based on the position information of the access point transmitted from the access point, and the radio wave arrival limit distance indicating the reach limit distance of the radio wave transmitted from the access point, the reach limit range of the radio wave transmitted from the access point is determined. A radio wave arrival limit range recognition means for recognizing the radio wave reach limit range shown,
When the mobile terminal exists within a predetermined range within the radio wave arrival limit range, an off period of power supply to the some circuits is set to an off period longer than a predetermined off period, and the mobile terminal is moved outside the predetermined range. Off period changing means for setting an off period of power supply to the part of circuits to the predetermined off period when a terminal exists;
A mobile terminal comprising: A mobile terminal that performs wireless communication with an access point and repeatedly turns on and off power supply to some circuits in accordance with the transmission timing of a notification signal from the access point,
Mobile terminal location information acquisition means for acquiring location information of the mobile terminal;
Moving speed calculating means for calculating the moving speed of the mobile terminal;
Based on the position information of the access point transmitted from the access point, and the radio wave arrival limit distance indicating the reach limit distance of the radio wave transmitted from the access point, the reach limit range of the radio wave transmitted from the access point is determined. A radio wave arrival limit range recognition means for recognizing the radio wave reach limit range shown,
Off period changing means for setting an off period of power supply to the partial circuit of the mobile terminal based on the moving speed of the mobile terminal and the position of the mobile terminal within the radio wave arrival limit range;
A mobile terminal comprising: The mobile terminal according to claim 2, wherein
When the moving speed of the mobile terminal when the mobile terminal exists in the predetermined range within the radio wave arrival limit range and the moving speed of the mobile terminal when the mobile terminal exists outside the predetermined range,
The off period changing means sets an off period of power supply to the some circuits when the mobile terminal is in the predetermined range, a time set when the mobile terminal is outside the predetermined range A mobile terminal characterized by being set as described above. The mobile terminal according to any one of claims 1 to 3,
The outside of the predetermined range is a range from the intersection of the movement line and the outer periphery of the radio wave arrival limit range to a point on the inside of a predetermined distance on the movement line of the mobile terminal. A wireless communication system comprising an access point and a mobile terminal that alternately repeats on / off of power supply to some circuits in accordance with the transmission timing of a notification signal from the access point,
The access point is
Access point location information acquisition means for acquiring location information of the access point;
Transmission means for transmitting the location information of the access point and a radio wave arrival limit distance indicating a radio wave arrival limit distance transmitted from the access point to the mobile terminal;
With
The mobile terminal
Mobile terminal location information acquisition means for acquiring location information of the mobile terminal;
Radio wave arrival limit range recognition for recognizing a radio wave arrival limit range indicating a radio wave arrival limit range transmitted from the access point based on position information of the access point transmitted from the access point and the radio wave reach limit distance Means,
When the mobile terminal exists in a predetermined range within the radio wave arrival limit range, an off period of power supply to the some circuits is set to an off period longer than a predetermined off period, and the movement is out of the predetermined range. Off period changing means for setting an off period of power supply to the part of circuits to the predetermined off period when a terminal exists;
A wireless communication system comprising: A wireless communication system comprising an access point and a mobile terminal that alternately repeats on / off of power supply to some circuits in accordance with the transmission timing of a notification signal from the access point,
The access point is
Access point location information acquisition means for acquiring location information of the access point;
Transmission means for transmitting the location information of the access point and a radio wave arrival limit distance indicating a radio wave arrival limit distance transmitted from the access point to the mobile terminal;
With
The mobile terminal
Mobile terminal location information acquisition means for acquiring location information of the mobile terminal;
A moving speed calculating means for calculating a moving speed of the mobile terminal;
Radio wave arrival limit range recognition for recognizing a radio wave arrival limit range indicating a radio wave arrival limit range transmitted from the access point based on position information of the access point transmitted from the access point and the radio wave reach limit distance Means,
Off period changing means for setting an off period of power supply to the partial circuit of the mobile terminal based on the moving speed of the mobile terminal and the position of the mobile terminal within the radio wave arrival limit range;
A wireless communication system comprising: The wireless communication system according to claim 6,
When the moving speed of the mobile terminal when the mobile terminal exists in a predetermined range within the radio wave arrival limit range and the moving speed of the mobile terminal when the mobile terminal exists outside the predetermined range,
The off period changing means sets an off period of power supply to the part of circuits when the mobile terminal is in the predetermined range, and a time set when the mobile terminal is outside the predetermined range A wireless communication system, characterized by being set as described above. A wireless communication system according to any one of claims 5 to 7,
The wireless communication system is characterized in that the outside of the predetermined range is a range from an intersection of the movement straight line and the outer periphery of the radio wave arrival limit range to a point inside a predetermined distance on the movement straight line of the mobile terminal.

Images