JP5846633B2 - Wireless communication method - Google Patents

Description

  The present invention relates to a wireless communication method suitable for reducing power consumption when wirelessly communicating data between two or more communication devices.

  In designing each communication device in a wireless personal area communication network (for example, see Patent Document 1) such as WPAN (Wireless Personal Area Network), it is particularly required to extend the power life. When attention is paid to the power consumption mechanism in the communication device, one of the major factors affecting this is an operation for detecting a signal transmitted from another communication device.

  Since wireless communication is started only between the two devices by receiving a signal from another communication device, it is necessary to detect the signal without omission. However, there is no reason for one communication device to know at what timing a signal is transmitted from another communication device. For this reason, it is necessary for one communication device to start up a constant detection mode so that signals from other communication devices can be detected at any time. By starting up the detection mode for a long time in the communication device, the power consumption is increased accordingly. If the power consumption increases, the life of the battery will be shortened, making it difficult to use the device continuously for a long time.

Special table 2009-500958

  Therefore, the present invention has been devised in view of the above-described problems, and the object of the present invention is to reduce power consumption when wirelessly communicating data between two or more communication devices. Is to provide a simple wireless communication method.

In order to solve the above-described problems, a wireless communication method to which the present invention is applied uses a common communication method in the physical layer and the MAC layer, and performs wireless communication with each other using a plurality of different frequency bands. In a wireless communication method in a wireless personal area communication network having a question side communication device and a response side communication device that can be performed, desired information indicating whether data transmission or reception is desired from the question side communication device; , A plurality of notification frames including communication time information related to the communication time of the data are transmitted at predetermined intervals, the response side communication device waits for the notification frames in a plurality of detection periods set at predetermined time intervals, and the notification When a frame is received, the desired information and the communication time information included in the notification frame are read. When the data transmission request is indicated, the response side communication device waits for data transmitted from the question side communication device in the data standby period set based on the communication time information, and the question side communication device In the communication period according to the communication time information, the data is transmitted at the communication time according to the communication time information. Data is transmitted, and data transmitted from the responding communication device is awaited in a data standby period set based on the communication time information by the interrogating communication device.

Further, in order to solve the above-described problems, a wireless communication method to which the present invention is applied uses a common communication method in the physical layer and the MAC layer, and wirelessly communicates with each other using a plurality of different frequency bands. In a wireless communication method in a wireless personal area communication network having a question-side communication device and a response-side communication device capable of performing communication, the response-side communication device performs the above-mentioned in a plurality of detection periods set at predetermined time intervals. Waiting for the notification frame, a single notification frame including desired information indicating whether to transmit or receive data from the interrogating communication device and communication time information regarding the communication time of the data is sent to the responding side. When the notification frame is transmitted to the communication device in advance according to the detection period identified via the beacon and the notification frame is received by the response communication device Data set based on the communication time information by the responding communication device when the desired information and the communication time information included in the notification frame are read and the read request information indicates that data transmission is desired Waiting for data transmitted from the interrogating communication device during the standby period, transmitting data during the communication time corresponding to the communication time information by the interrogating communication device, and requesting data reception in the read desired information Is transmitted in the communication period according to the communication time information by the response side communication device, and the data waiting period set based on the communication time information by the question side communication device It is characterized by waiting for data transmitted from the responding communication device.

  According to the present invention having the above-described configuration, the detection period is set so as to be plural with a time interval therebetween, instead of always starting the detection period on the response side communication device side. That is, the detection period is provided intermittently. As a result, according to the present invention, it is possible to reduce power consumption when wirelessly communicating data between two or more communication devices, and to extend the life of the battery. Even if the detection period is provided intermittently, the notification frames are also transmitted at intervals over a plurality of intervals, so that this can be detected without omission.

1 is a wireless communication system to which the present invention is applied. (A) is a block diagram which shows an example of the function which a wireless device has, (b) is a figure which shows the relationship between a protocol stack and an interface. It is a time chart of the radio | wireless communication method to which this invention is applied. It is a flowchart which shows operation | movement of the response side communication apparatus. 7 is a flowchart when the operation of case 1 is performed between a question side communication device and a response side communication device in a wireless communication method to which the present invention is applied. It is a flowchart at the time of performing operation | movement of case 2 between a question side communication apparatus and a response side communication apparatus in the radio | wireless communication method to which this invention is applied. It is another time chart of the radio | wireless communication method to which this invention is applied.

  DESCRIPTION OF EMBODIMENTS Hereinafter, a mode for carrying out a wireless communication method to which the present invention is applied will be described in detail with reference to the drawings.

  As shown in FIG. 1, the wireless communication system 1 includes a wireless communication network 10.

  The wireless communication network 10 includes a plurality of wireless terminals 11 and a coordinator 12. The wireless communication network 10 is configured to be able to perform wireless communication in both directions by transmitting and receiving radio waves between wireless devices 13 such as the wireless terminal 11 and the coordinator 12. The wireless communication network 10 performs wireless communication based on a wireless communication standard such as WPAN (Wireless Personal Area Network) or WLAN (Wireless Local Area Network). The present invention is particularly preferably used for a wireless communication network 10 that performs wireless communication based on WPAN of the IEEE 802.15.4 standard. The wireless communication network 10 is preferably used as a sensor network such as SUN, for example.

  In the illustrated example, the wireless communication network 10 has a one-to-multiple star configuration. In addition to this, the wireless communication network 10 may have any network configuration such as a tree type or a mesh type, or may have a one-to-one network configuration. In the wireless communication network 10, the wireless terminal 11 and the coordinator 12 may be connected to another wired communication network.

  The wireless communication network 10 performs wireless communication using a channel belonging to a predetermined frequency band assigned in advance according to the purpose of wireless communication or the like according to laws and regulations. The frequency band used by the wireless communication network 10 is, for example, a UHF frequency band, a VHF frequency band, a sub 1 GHz frequency band, a 2.4 GHz frequency band, a 5 GHz band, or the like.

  The wireless terminal 11 includes various information terminals such as a sensor terminal, a remote controller, and a mobile phone. The wireless terminal 11 is configured to be able to perform wireless packet communication with at least the coordinator 12.

  The coordinator 12 plays a role of controlling wireless communication between the wireless devices 13 including itself in the wireless communication network 10. The coordinator 12 plays a role of synchronizing each other in order to connect the wireless terminals 11 in the wireless communication network 10.

  FIG. 2A is a block diagram illustrating an example of functions that the wireless device 13 has in the wireless communication system 1.

  The wireless device 13 establishes a communication link with another wireless device 13 based on a protocol stack having at least a physical layer (PHY layer) 21 and a MAC layer 22, as shown in FIG. To do. The wireless device 13 includes an antenna 31 that transmits and receives radio waves, a physical layer management unit (PLME) 32 that performs a predetermined operation related to the physical layer 21, and a MAC layer that executes a predetermined operation related to the MAC layer 22. And a management unit (MLME: MAC Layer Management Entity) 33. In addition, the wireless device 13 is a device management unit that plays a role as an interface for exchanging state information and control signals of each layer independently with each layer such as the physical layer 21 and the MAC layer 22. It further has a DME (Device Management Entity) 34.

  Data input from the upper layer is processed via the MLME 33 and the PLME 32, and transmitted from the antenna 31 to another wireless device 13 as a wireless signal. A radio signal received from the antenna 31 is processed via the PLME 32 and the MLME 33 and output to the upper layer.

  Here, as the at least two wireless devices 13 among the plurality of wireless devices 13 trying to wirelessly communicate with each other in the wireless communication network 10, wireless devices 13 corresponding to multiband are used. The plurality of wireless devices 13 corresponding to the multiband are common to some of the communication methods of the physical layer 21 and the MAC layer 22 so that wireless communication can be performed using a plurality of different frequency bands. It is used. That is, the one wireless device 13 corresponding to the multi-band, for example, the first communication method necessary for wireless communication using the first frequency band of 2.4 GHz band, and the second frequency band of 955 MHz band, for example. And a second communication method necessary for wireless communication using the. In addition, the other wireless device 13 that is trying to wirelessly communicate with one wireless device 13 is required to perform wireless communication with the one wireless device 13 using the first frequency band of 2.4 GHz band. A communication method and a second communication method necessary for wireless communication with one wireless device 13 using the second frequency band of 955 MHz. The wireless communication network 10 may include a wireless device 13 that does not support multiband. The wireless device 13 not corresponding to multiband here refers to a wireless device 13 having only one of the first communication method and the second communication method. The communication system here refers to a protocol of the physical layer 21 such as a modulation system, a coding system, and a spreading system used for wireless communication between a plurality of wireless devices 13, or a protocol of the MAC layer 22 such as CSMA / CA. I mean.

  FIG. 2B shows the relationship between the protocol stack and the interface. The MAC layer 22 covers the MLME 33, and the physical layer 21 covers the PLME 32. MLME 33 and PLME 32 are connected to each other via MLME-PLME interface 51, MLME 33 and DME 34 are connected to each other via MLME interface 52, and PLME 32 and DME 34 are connected to each other via PLME interface 53.

  Next, the operation of the wireless communication system 1 to which the present invention is applied will be described. In the following description, description will be made assuming that any one of the above-described wireless terminal 11 and coordinator 12 is assigned to the question side communication device 4 and the response side communication device 5. When wireless communication is performed between the wireless terminal 11 and the coordinator 12, either one may be assigned to the interrogating communication device 4 and the other to the response communication device 5. When ad hoc wireless communication is performed between the wireless terminals 11, one of the wireless terminals 11 is assigned to the interrogating communication device 4 and the other wireless terminal 11 is assigned to the responding communication device 5. Good.

FIG. 3 is a time chart of the wireless communication method to which the present invention is applied. The responding communication apparatus 5 waits for a notification frame in the detection period T _LD set at a predetermined time interval. That is, the response communication device 5, only in the detection period T _LD, it is possible to detect awaits notification frame from the inquiry communication device 4. The detection period T _LD is intermittently provided at the time interval T _LI . The detection period T _LD is assumed to be constant, but is not limited to this, and may be variable. As a result of intermittently forming such a detection period T _LD, there is always a period during which no notification frame is actually waiting during the detection period T _LD .

The question side communication device 4 is classified into a case 1 for transmitting its own data to the response side communication device 5 and a case 2 for receiving data from the response side communication device 5. In any case, the interrogating communication device 4 does not particularly transmit the notification frame while not transmitting / receiving data to / from the responding communication device 5. In such a case, the detection of the detection period T _LD at the time interval _TLI is simply continued on the response side communication device 5 side.

When the inquiry side communication device 4 wishes to transmit / receive data to / from the response side communication device 5, the inquiry side communication device 4 wirelessly transmits a notification frame. The notification frame is transmitted in both case 1 and case 2. Notification frame, and is transmitted for a period of T _WD at intervals T _WI. This notification frame is in a period of T _WD is composed of a plurality, and intermittently what follows at a mutual spacing. In the example shown in FIG. 3, the number of notification frames is four in the period of _TWD , but is not limited to this, and may be any number.

  Incidentally, in the notification frame transmitted from the question side communication device 4, whether the question side communication device 4 desires to transmit data to the response side communication device 5, or the question side communication device 4 responds to the response side communication device. 5 includes request information indicating whether or not data reception is desired, and communication time information related to the communication time of the data.

When such a notification frame group is transmitted from the inquiry side communication device 4, this notification frame is captured in the detection period in the response side communication device 5. Notification frame is intended to be transmitted by intermittently over a plurality, since it is intended to be transmitted over a period of T _WD, likely to be captured in the detection period T _LD is increased.

When the response side communication device 5 can detect the notification frame from the question side communication device 4 in the detection period _TLD , the response side communication device 5 first reads the desired information in the notification frame. Thereby, the response-side communication device 5 has notified the response-side communication device 5 that the question-side communication device 5 wishes to transmit data, or the question-side communication device 4 has transmitted from the response-side communication device 5. It is possible to identify whether the user has notified that the data is desired to be received. In other words, the response side communication device 5 reads the desired information described in the notification frame to determine whether the question side communication device 4 desires the wireless communication based on the case 1 or the wireless communication based on the case 2. It becomes possible to identify whether it is desired.

Here, in case 1, the responding communication apparatus 5 sets a data waiting period configured with a predetermined length after _{TRZ1 has} elapsed since the end of the detection period in which the notification frame was detected. Incidentally, this _TRZ1 is set so that the response side communication device 5 that has identified the communication time information can set the data standby period in a time zone in which the question side communication device 4 will transmit data. The question side communication device 4 transmits data. The transmission time of this data is based on the communication time information included in the notification frame by the inquiry side communication device 4. For this reason, in case 1, the timing at which data is transmitted on the question communication device 4 side and the data standby period set by the response communication device 5 are both based on the communication time information. For this reason, the response side communication apparatus 5 should just set a data waiting period so that the data transmitted from the question side communication apparatus 4 can be received based on communication time information. This makes it possible to capture data from the responding communication device 5 without omission during the data standby period.

In case 2 here, the responding communication apparatus 5 transmits data after _{TRZ2 has} elapsed since the end of the detection period in which the notification frame was detected. Incidentally, this _TRZ2 is set in the responding communication device 5 that has identified the communication time information so as to be consistent with the data standby time set by the interrogating communication device 4. Thereby, the data transmission time by the response side communication device 5 is based on the data standby time by the question side communication device 4. For this reason, also in case 2, the timing of transmitting data on the response side communication device 5 side and the data standby period set by the question side communication device 4 are both based on the communication time information. Thereby, the inquiry side communication device 4 can capture the data from the response side communication device 5 without omission in the data standby period.

Note that this notification frame can be detected without omission by setting T _LI ≦ T _WD and T _LD ≧ T _WI .

FIG. 4 shows an operation flow of the response side communication device 5. The first detection period in step S11 T _LD attempt intermittently notification frame detection at predetermined time intervals. Next, the process proceeds to step S12, and it is confirmed whether or not the notification frame has been detected in the detection period _TLD . As a result, if the notification frame can be detected, the process proceeds to step S13. If the notification frame cannot be detected, the processing from step S11 is repeated.

  Next, the process proceeds to step S13, and the desired information included in the notification frame is confirmed. Next, the process proceeds to step S14. If it is determined from the desired information confirmed in step S13 that it is case 2, the process proceeds to step S15, and if this cannot be determined, the process proceeds to step S16.

If the process _proceeds to step S15, data is transmitted after _{TRZ2 has} elapsed. The transmitted data is captured during the data standby period in the inquiry side communication device 4.

  When the process proceeds to step S16, it is determined whether or not it is case 1 from the desired information confirmed in step S13. If it is case 1, the process proceeds to step S17. Otherwise, the process from step S11 is repeated.

In step 17, a data standby period is set after _{TRZ1 has} elapsed. As a result, it is possible to capture the data transmitted from the question side communication device during the data standby period.

  Incidentally, after executing the processes of steps S15 and S17, the process returns to step S11 again.

  FIG. 5 shows a flowchart when the operation of case 1 is performed between the question side communication device 4 and the response side communication device 5 in the wireless communication method to which the present invention is applied. Here, it is assumed that the question side communication device 4 has MLME 33a and DME 34a, and the response side communication device 5 has MLME 33b and DME 34b.

  First, in step S21, a scanning start request is transmitted from the DME 34b to the MLME 33b in the responding communication apparatus 5. This scanning start request is a request for attempting to acquire a notification frame by providing a detection period. The MLME 33b that has received this scanning start request tries to detect the notification frame in the detection period of a predetermined length.

  First, in step S22, the DME 34a of the interrogating communication apparatus 4 transmits a notification frame transmission request to the MLME 33a. This notification frame transmission request is a request for transmitting a notification frame to be transmitted first when the interrogating communication device 4 desires to transmit data.

  Next, the process proceeds to step S23, where a notification frame is transmitted from the question side communication device 4 to the response side communication device 5. Specifically, a notification frame is transmitted from the MLME 33 a in the question side communication device 4 to the MLME 33 b in the response side communication device 5.

  The MEME 33b in the response side communication device 5 receives the notification frame in the detection period, moves to step S24, and transmits the notification data output from the MLME 33b to the DME 34b. Through the notification data output, it is possible to determine that the control to be performed from now is case 1, not case 2, and it is possible to determine how to start the data standby time.

Further, from the detection period end time until the T _RZ1 elapses, the scanning completion notice to the effect that the detection period has finished sending to DME34b from MLME33b (step S25). Further, the DME 34b notifies the MLME 33b of a data standby request (step S26). This data standby request is sent based on the desired information in the notification frame and the communication time information in response to the notification data output in step S24 described above. MLME33b receives the request for the data waiting, it becomes possible to know the start time of the data standby time (the length of the T _RZ1).

  Next, in step S27, next, a data transmission request (step S27) is transmitted from the DME 34a of the question side communication device 4 to the MLME 33a. In response to the data transmission request, the MLME 33a transmits the data to the MLME 33b of the response side communication device 5 (step S28). Since the data standby period is set based on the communication time information as described above, the data transmitted in step S28 is captured in the data standby period. When the MLME 33b has received such data, the MLME 33b transmits an ACK to the MLME 33a in step S29 (step S29). The MLME 33a receives this ACK and confirms data transmission in the DME 34a (step S30).

  On the response side communication device 5 side, in step S31, the MLME 33b notifies the DME 34b that the data standby period has ended (step S31). In step S32, data is transmitted from the MLME 33b to the DME 34b.

  FIG. 6 shows a flowchart when the operation of case 2 is performed between the question side communication device 4 and the response side communication device 5 in the wireless communication method to which the present invention is applied.

  First, in step S41, a scanning start request is transmitted from the DME 34b to the MLME 33b in the responding communication apparatus 5. This scanning start request is a request for attempting to acquire a notification frame by providing a detection period. The MLME 33b that has received this scanning start request tries to detect the notification frame in the detection period of a predetermined length.

  First, in step S42, the DME 34a of the interrogating communication apparatus 4 transmits a notification frame transmission request to the MLME 33a. This notification frame transmission request is a request for transmitting a notification frame to be transmitted first when the interrogating communication device 4 desires to transmit data.

  Next, the process proceeds to step S43, where a notification frame is transmitted from the question side communication device 4 to the response side communication device 5. Specifically, a notification frame is transmitted from the MLME 33 a in the question side communication device 4 to the MLME 33 b in the response side communication device 5.

  The MEME 33b in the responding communication apparatus 5 receives the notification frame in the detection period, moves to step S44, and transmits the notification data output from the MLME 33b to the DME 34b. Through the notification data output, it is possible to determine that the control to be performed from now is not case 1, but case 2, and it is possible to determine the start point of the data standby time in the question side communication device 4.

  Also, a scanning end notification indicating that the detection period has ended is transmitted from the MLME 33b to the DME 34b (step S45). Further, the DME 34b notifies the MLME 33b of a data transmission request (step S46). This data transmission request is made based on the desired information in the notification frame and the communication time information in response to the notification data output in step S44 described above. In response to this data transmission request, the MLME 33b transmits the data to the MLME 33a of the interrogating communication device 4 (step S47). The data transmitted in step S47 is captured during the data standby period in the question side communication device 4. If the MLME 33a has received such data, the MLME 33a transmits an ACK to the MLME 33b in step S48. The MLME 33b receives this ACK and confirms data transmission in the DME 34b (step S49).

  The question side communication device 4 transmits data from the MLME 33a to the DME 34a in step S50 (step S50).

In the present invention consisting of such the above configuration, sets the detection period T _LD spaced from one another time interval rather than launch detection period T _LD always in the responding communication device 5 side so as to more. That is, the detection period T _LD is provided intermittently. As a result, according to the present invention, it is possible to reduce power consumption when wirelessly communicating data between two or more communication devices, and to extend the life of the battery.

The present invention is not limited to the embodiment described above. FIG. 7 is a time chart showing another embodiment. In this time chart, a plurality of notification frames are not transmitted at predetermined intervals, but only a single notification frame is transmitted. If the detection period T _LD in the response side communication apparatus 5 is already known through a beacon transmitted and received in advance, for example, the interrogating communication apparatus 4 matches the detection period T _LD without transmitting a plurality of notification frames. If one notification frame is transmitted, it is possible to achieve the same effects as expected in the present invention.

  Incidentally, the acquisition of the detection period in the response side communication device 5 through this beacon is a beacon sent from the response side communication device 5 to the question side communication device 4 or from the question side communication device 4 to the response side communication device 5. Of course, it may be performed through any of the transmitted beacons.

DESCRIPTION OF SYMBOLS 1 Wireless communication system 4 Question side communication apparatus 5 Response side communication apparatus 10 Wireless communication network 11 Wireless terminal 12 Coordinator 13 Wireless device 21 Physical layer (PHY layer)
22 MAC layer 31 Antenna 32 Physical layer manager 33 MAC layer manager (MLME)
34 Device Management Department (DME)

Claims (3)

A wireless personal area having a question-side communication device and a response-side communication device that are common to a part of the communication method of the physical layer and the MAC layer and can perform wireless communication with each other using a plurality of different frequency bands In a wireless communication method in a communication network,
A plurality of notification frames including desired information indicating whether transmission or reception of data is desired and communication time information related to the communication time of the data are transmitted at predetermined intervals from the question side communication device,
The responding communication device waits for the notification frame in a plurality of detection periods set at predetermined time intervals, and when the notification frame is received, the desired information and the communication time information included in the notification frame are reading,
If the read request information indicates that data transmission is desired, the response side communication device waits for data transmitted from the question side communication device during the data standby period set based on the communication time information. The data transmission is performed at the communication time corresponding to the communication time information by the question side communication device,
If the read desired information indicates that data is desired to be received, the responding communication device transmits data during the communication period corresponding to the communication time information, and the interrogating communication device adds the communication time information. A wireless communication method characterized by waiting for data transmitted from the responding side communication device in a data standby period set based on the wireless communication method. From the question side communication device transmits over a period of T _WD of the notification frame at intervals T _WI,
The wireless communication method according to claim 1, wherein the responding communication device waits for the notification frame in a detection period T _LD (≧ T _WI ) at a time interval T _LI (≦ T _WD ). A wireless personal area having a question-side communication device and a response-side communication device that are common to a part of the communication method of the physical layer and the MAC layer and can perform wireless communication with each other using a plurality of different frequency bands In a wireless communication method in a communication network,
The responding communication device waits for the notification frame in a plurality of detection periods set at predetermined time intervals,
A single notification frame including request information indicating whether data transmission or reception is desired from the question side communication device and communication time information regarding the communication time of the data is transmitted between the response side communication device and the response side communication device. In accordance with the above detection period identified in advance via a beacon,
When the notification frame is received by the responding communication device, the desired information and the communication time information included in the notification frame are read,
If the read request information indicates that data transmission is desired, the response side communication device waits for data transmitted from the question side communication device during the data standby period set based on the communication time information. The data transmission is performed at the communication time corresponding to the communication time information by the question side communication device,
If the read desired information indicates that data is desired to be received, the responding communication device transmits data during the communication period corresponding to the communication time information, and the interrogating communication device adds the communication time information. A wireless communication method characterized by waiting for data transmitted from the responding side communication device in a data standby period set based on the wireless communication method.

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