JP2018101986A - Radio access device, radio communication system, and power supply control method for radio access device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a radio communication device that can reduce power consumption, and a radio communication system, and a power supply control method for the radio communication device.SOLUTION: A radio communication device 1 includes: a first communication processing unit 11 for processing radio communication with a terminal device 3; a second communication processing unit 15 for processing radio communication with one or more sensor devices 2; and a control unit 12 for controlling power supply of the first communication processing unit 11 on the basis of detection information received by the second communication processing unit 15 from one or more sensor devices 2 and at least one of communication statistical information, time information, date information, and day-of-the-week information held by its own device.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a radio communication device, a radio communication system, and a power control method for the radio communication device.

  For example, with the widespread use of household electrical appliances having communication functions compatible with wireless LAN (Local Area Network) such as flat-screen televisions, wireless access devices are widely used not only in offices but also in general households. The user can access the Internet using the terminal device when the wireless access device establishes communication with the terminal device such as a home appliance.

  The wireless access device periodically transmits a polling signal to accept access requests from a plurality of terminal devices. This polling signal is referred to as a beacon frame in wireless communication conforming to, for example, IEEE 802.11a / b / g / n (IEEE: The Institute of Electrical and Electronics Engineers, Inc.). The terminal device detects a communicable wireless access device by receiving the beacon frame. Therefore, the wireless access device always consumes power because it transmits a beacon frame regardless of whether or not there is an access request, and operates the receiving circuit in preparation for the access request.

  For example, Patent Literature 1 discloses a wireless communication system in which an access point and an information communication terminal communicate via high-speed and low-speed wireless interfaces. This access point notifies the information communication terminal of the start of communication through the high-speed wireless interface via the low-speed wireless interface in advance. According to the disclosure of Patent Document 1, the information communication terminal is supposed to reduce power consumption by setting the processing unit of the low-speed wireless interface to the power-on state and setting the processing unit of the high-speed wireless interface to the power-off state.

  Regarding power saving technology, Patent Document 2 discloses an electronic device that controls the power supply of an external device in accordance with the detection result of a sensor.

JP 2008-99010 A JP 2010-176307 A

  In the wireless communication system, since the terminal device is directly operated by the user, it is easy to determine the usage state. For this reason, the power consumption of the terminal device is reduced by controlling the power supply of the terminal device to be off when not being used. On the other hand, the wireless access device is not directly operated by the user and is always in a standby state in preparation for an access request from the terminal device, so it is difficult to determine the usage state and it is difficult to reduce power consumption. is there.

  Therefore, the present invention has been made in view of the above problems, and an object thereof is to provide a wireless communication device, a wireless communication system, and a power control method for the wireless communication device that can reduce power consumption.

  In order to solve the above-described problem, a wireless communication device according to the present invention includes a first communication processing unit that processes wireless communication with a terminal device and a second communication that processes wireless communication with one or more sensor devices. Based on the processing unit, the detection information received from the one or more sensor devices by the second communication processing unit, and at least one of communication statistical information, time information, date information, and day of week information held in the own device And a control unit for controlling the power supply of the first communication processing unit.

  The wireless communication device according to the present invention can communicate with the terminal device and one or more sensor devices by the first and second communication processing units, respectively. The second communication processing unit receives detection information from one or more sensor devices. Therefore, by using various sensor devices, the wireless communication device can obtain detection information useful for determining the usage state.

  The wireless communication device according to the present invention performs first communication processing based on detection information received from the sensor device and at least one of communication statistical information, time information, date information, and day information stored in the device. Control the power supply of the unit. Therefore, the wireless communication device can comprehensively determine the usage state from a plurality of pieces of information, and can turn on or off the first communication processing unit according to the determination result. Therefore, the power consumption of the wireless communication apparatus is reduced by selecting a communication unit that consumes less power than the first communication processing unit as the second communication processing unit.

  In the above wireless communication apparatus, the control unit supplies power to the first communication processing unit with respect to the detection information and at least one of the communication statistical information, the time information, the date information, and the day information. A condition for turning on or off may be set according to a user operation.

  A wireless communication system according to the present invention includes the above wireless communication device and one or more sensor devices. The one or more sensor devices include a communication processing unit that processes wireless communication with the second communication processing unit, and the detection information obtained by a sensing operation is transmitted to the wireless communication device by the communication processing unit. Transmit to the second communication processing unit.

  Since the wireless communication system according to the present invention includes the wireless communication device and one or more sensor devices, the above-described effects can be obtained.

  In the wireless communication system, the one or more sensor devices include an illuminance sensor that detects illuminance, and the illuminance sensor transmits illuminance information indicating the illuminance to the second communication processing unit as the detection information. May be.

  In the above wireless communication system, the one or more sensor devices include a human sensor that detects a person, and the human sensor detects the detection information indicating the detection result as the detection information in the second communication process. You may transmit to a part.

  In the wireless communication system, the one or more sensor devices include a power sensor that detects power consumption of a device, and the power sensor includes power consumption information indicating the power consumption as the detection information. You may transmit to a communication processing part.

  Also, the power control method for a wireless communication device according to the present invention is configured such that the power of the first communication processing unit that processes wireless communication with the terminal device is the second communication that processes wireless communication with one or more sensor devices. The processing unit performs control based on detection information received from the one or more sensor devices and at least one of communication statistical information, time information, date information, and day of week information held in the own device.

  The power control method for a wireless communication apparatus according to the present invention includes the same configuration as that of the wireless communication apparatus, and thus has the above-described effects.

  In the power control method, the one or more sensor devices may include an illuminance sensor that detects illuminance, and the detection information may include illuminance information indicating the illuminance.

  In the above power supply control method, the one or more sensor devices may include a human sensor for detecting a person, and the detection information may include sensing information indicating the sensing result.

  In the power supply control method, the one or more sensor devices may include a power sensor that detects power consumption of the device, and the detection information may include power consumption information indicating the power consumption.

  As described above, according to the present invention, it is possible to provide a wireless communication device, a wireless communication system, and a power control method for the wireless communication device that can reduce power consumption.

It is a block diagram which shows the structure of a radio | wireless communications system. It is a block diagram which shows the function structure of a sensor apparatus. It is a flowchart which shows the process of a control part. It is a table | surface which shows the example of the information used for the determination process of a use state. It is a table | surface which shows the example of a determination table. It is a graph which shows the example of communication statistical information. It is a flow which shows the determination process of the use condition in another Example.

  FIG. 1 is a configuration diagram illustrating a configuration of a wireless communication system. The wireless communication system includes a wireless access device 1, one or more terminal devices 3, and one or more sensor devices 2. The wireless access device 1 communicates with the terminal device 3 via the wireless LAN 30 according to a standard such as IEEE802.11a / b / g / n or a Wi-Fi standard. The wireless access device 1 has a router function and enables the terminal device 3 to access a WAN (World Area Network) such as the Internet. In the present embodiment, the wireless access device 1 is given as an example of the wireless communication device, but is not limited to this, and other wireless communication devices may be used.

  The terminal device 3 is a device having a function of communicating with the wireless access device 1 via the wireless LAN 30. Examples of such devices include portable information terminal devices such as personal computers and smart phones, household electric appliances such as flat-screen televisions and recording / playback devices, video game devices, and portable game devices. The terminal device 3 can access the WAN by establishing communication with the wireless access device 1 according to a predetermined protocol.

  The sensor device 2 is a device that detects a specific state by executing a sensing operation. Examples of such an apparatus include an illuminance sensor that detects illuminance, a human sensor that senses a person, and a power sensor that detects power consumption of an apparatus. The sensor device 2 shown in FIG. 1 includes at least one type of device. An example of the power sensor is a smart outlet (registered trademark) that detects the power consumption of a device connected to the outlet through the outlet.

  The sensor device 2 has a function of performing wireless communication with the wireless access device 1 using a communication unit different from that of the terminal device 3. Examples of this communication means include, but are not limited to, Bluetooth (registered trademark, the same applies hereinafter). Each sensor device 2 transmits detection information obtained by the sensing operation to the wireless access device by the communication means.

  FIG. 2 is a configuration diagram showing a functional configuration of the sensor device 2. The sensor device 2 includes a sensor side control unit 20, a sensor side communication processing unit 21, a sensing processing unit 22, and a switch 23.

  The control unit 20 is an arithmetic processing circuit such as a CPU (Central Processing Unit), and controls the overall operation of the device 2. But the control part 20 is not limited to what functions in software in this way, You may comprise by hardware, such as an application specific integrated circuit.

  The communication processing unit 21 processes wireless communication with the wireless access device 1 in accordance with, for example, the Bluetooth standard. The sensing processing unit 22 performs a sensing operation. Specifically, the sensing processing unit 22 detects illuminance in the case of an illuminance sensor, and senses a person in the case of a human sensor. In the case of a power sensor, the sensing processing unit 22 detects the power consumption of the device. The sensing processing unit 22 outputs detection information obtained by the sensing operation to the control unit 20.

  Then, the control unit 20 transmits the detection information to the wireless access device 1 via the communication processing unit 21. In the case of an illuminance sensor, the transmitted detection information is illuminance information indicating illuminance, and in the case of a human sensor, the detection information is detection information indicating a detection result. In the case of a power sensor, it is power consumption information indicating the power consumption of the device.

  The switch 23 is used for setting detection information, and a plurality of switches 23 may be provided. Examples of the setting contents include a period when the detection information is periodically transmitted and a time when the information is treated as valid in the wireless access device 1. The control unit 20 detects the setting content by the switch 23 and transmits detection information to the wireless access device 1 according to the setting. At this time, the control unit 20 also transmits information accompanying the detection information according to the setting.

  Referring again to FIG. 1, the wireless access device 1 includes a communication port 10, a wireless LAN communication processing unit 11 as a first communication processing unit, a control unit 12, a calendar / clock function unit 13, and a memory 14. And a power control communication processing unit 15 as a second communication processing unit.

  The wireless LAN communication processing unit 11 processes wireless communication with one or more terminal devices 3. The communication processing unit 11 establishes communication with the terminal device 3 according to a predetermined protocol, and processes communication between the terminal device 3 and the WAN via the communication port 10. The communication port 10 is a wired LAN port, and has an RJ-45 connector and functions of a PHY layer and a MAC layer.

  The power control communication processing unit 15 processes wireless communication with one or more sensor devices 2. The power control communication processing unit 15 includes communication means different from the wireless LAN communication processing unit 11. As described above, for example, Bluetooth can be used as the communication unit, but the communication unit is not limited to this, and the average power consumption (especially the power consumption during standby) is lower than that of the wireless LAN communication processing unit 11. Other communication means may be used.

  The power control communication processing unit 15 establishes communication with the sensor device 2 according to a predetermined protocol. Then, the communication processing unit 15 receives detection information from each of the one or more sensor devices 2 and outputs the detection information to the control unit 12. That is, the one or more sensor devices 2 transmit the detection information obtained by the sensing operation to the power control communication processing unit 15 of the wireless access device 1 by the sensor side communication processing unit 21.

  The control unit 12 is an arithmetic processing circuit such as a CPU, for example, and controls the overall operation of the apparatus 1. But the control part 12 is not limited to what functions in software in this way, You may comprise by hardware, such as an application specific integrated circuit.

  The control unit 12 controls the power supply of the wireless LAN communication processing unit 11 based on the detection information and at least one of communication statistical information, time information, date information, and day of week information held in the own device 1. For example, the control unit 12 performs control by turning on or off a switch in the communication processing unit 11 connected to a power source (power supply wiring).

  The control unit 12 acquires time information, date information, and day information from the calendar / clock function unit 13. The calendar / clock function unit 13 includes a real-time clock module, and holds date information, day information, and time information indicating the current date, day of the week, and time, respectively.

  Further, the control unit 12 acquires communication statistical information and detection information from the memory 14. The memory 14 is a nonvolatile storage unit such as a FRAM (Flash Random Access Memory (registered trademark)). The memory 14 stores communication statistical information 142, detection information 141, and a determination table 140.

  The communication statistical information 142 is a communication volume statistics regarding access from the terminal device 3 to the WAN. The control unit 12 acquires the data amount between the wireless LAN communication processing unit 11 and the communication port, thereby generating communication statistical information 142 and writing it in the memory 14. The communication statistical information 142 will be described in detail in an embodiment described later.

  The control unit 12 writes the memory 14 each time the detection information 141 is received from each sensor device 2 by the communication processing unit 15. Accordingly, the detection information 141 is updated to the latest state for each sensor device 2. The update cycle is determined according to the transmission cycle set by the switch 23 of the sensor device 2 described above, for example.

  In the determination table 140, at least one of date information, day information, and time information, detection information, and a usage state that is a determination result are registered in association with each other. In the present embodiment, the control unit 12 refers to the determination table 140 and comprehensively determines the usage state based on the acquired information. Then, according to the determination result, the control unit 12 turns on or off the power of the wireless LAN communication processing unit 11.

  Further, the control unit 12 has a function of editing the contents of the determination table 140. That is, the control unit 12 sets a condition for turning on or off the power of the wireless LAN communication processing unit 11 regarding the detection information and at least one of the communication statistical information, time information, date information, and day information. Set according to the operation.

  The editing operation of the determination table 140 by the user is performed from the setting terminal device 19 connected to the communication port 10. The setting terminal device 19 is a device having a LAN communication function such as a personal computer. It is preferable that the control unit 12 has a function of accepting a user's editing operation through a screen such as a web browser because the operation is simple. Although FIG. 1 shows a form in which the communication port 10 is connected to one of the WAN and the setting terminal device 19, a dedicated port may be provided for each.

  Next, a power control method for the wireless access device 1 will be described. FIG. 3 is a flowchart showing the processing of the control unit 12.

  When receiving the detection information from the sensor device 2 (YES in step St1), the control unit 12 updates the detection information 141 held in the memory 14 based on the detection information (step St2). When the received detection information is accompanied by valid time information based on the setting of the switch 23 of the sensor device 2, the detection information 141 in the memory 14 becomes invalid after the valid time elapses. The invalid detection information 141 is not used for power control.

  Next, the control part 12 determines a use state with reference to the determination table 140 (step St3). FIG. 4 shows an example of information used as a determination condition in the determination table 140. In FIG. 4, “item” is the name of information used for determination, and “content” is the content indicated by the information. “Acquisition source” indicates an object from which the control unit 12 acquires the information, that is, an information source.

  The time information and day information are acquired from the calendar / clock function unit 13. In the control unit 12, the time information is handled by distinguishing, for example, “morning”, “daytime”, “night”, and “midnight” based on a specific time. For example, AM 5:00 to 9:00 is “morning”, AM 9:00 to PM 6:00 is “daytime”, PM 6:00 to AM 12:00 is “night”, and AM 12:00 to 5:00 is “midnight”. Also good.

  In the control unit 12, the day of the week information is handled by distinguishing, for example, “weekdays” and “holidays” based on specific days of the week. For example, Saturdays, Sundays, and holidays may be “holidays”, and Monday through Friday excluding holidays may be “weekdays”.

  The illuminance information is acquired from the illuminance sensor in the sensor device 2. In the control unit 12, the illuminance information is handled by distinguishing between “bright” and “dark” based on specific illuminance. For example, “bright” may be set when the illuminance is higher than a threshold, and “dark” may be set when the illuminance is lower than the threshold. The distinction between “bright” and “dark” may be made in the illuminance sensor.

  Sensing information is acquired from a human sensor in the sensor device 2. The sensing information indicates “present” when a person is sensed, and “none” when no person is sensed.

  The power information is acquired from the power sensor in the sensor device 2. In the control unit 12, the power information is handled by distinguishing between “present” and “absent” based on specific power. The power information indicates “present” when the power is equal to or higher than the threshold, and indicates “none” when the power is lower than the threshold. The distinction between “present” and “absent” may be made in the power sensor.

  FIG. 5 shows an example of a determination table. In FIG. 5, “No.” is a management number assigned to each determination condition. “Use state” indicates the result of the determination process St3. When the “use state” is “use”, it indicates that the wireless access device 1 is in use or is likely to be used, while when the “use state” is “not use”, This indicates that there is a high possibility that the wireless access device 1 will not be used. In addition, “time”, “day of the week”, “illuminance”, “sensing (1)”, “sensing (2)”, and “power consumption” are logical conditions of the determination result indicated by “use state”. These correspond to the contents indicated by the above-described information.

  In this example, it is assumed that one or more sensor devices 2 include one illuminance sensor, one power sensor, and two human sensors (1) and (2). “Sensing (1)” and “Sensing (2)” indicate the conditions of the human sensors (1) and (2), respectively. One human sensor (1), power sensor, and illuminance sensor are arranged in a room A (for example, a study or a living room) in which the terminal device 3 is installed, and the other human sensor (2) is the terminal device 3. It is assumed that it is arranged in a room B (for example, a bathroom or a bedroom) where there is no room. Here, the power sensor detects the power consumption of the terminal device 3. In this example, it is assumed that there is one user and one terminal device 3, but the number of users and the number of users are not limited.

  No. In the first example, the user is absent from the rooms A and B at noon on weekdays (“sense (1), (2)” is “none”), so the user is considered to be out. In this setting, it is determined that the terminal device 3 is not used (“not used”). Note that the illuminance information is not included in the determination condition because the time is noon and the sunlight hits the room A.

  No. In the second example, the user is away from the rooms A and B at night, and the user is out because the lights in the room A are turned off (“illuminance” is “dark”). This is a setting for determining that the terminal device 3 is not used (“not used”). No. In the example 3, since the user is present in the room B at midnight on weekdays and the light in the room A is turned off, it is assumed that the user is sleeping or taking a bath. This is a setting for determining that it is not used (“not used”). No. In the example of 4, the user is in room B on a holiday morning and the room A has low illumination. Therefore, the user is assumed to be sleeping with the curtains and shutters closed to block the sun. In this setting, it is determined that the terminal device 3 is not used (“not used”).

  No. In the example of 5, since the user is present in the room A at noon on a holiday, it is considered that the user is likely to use the terminal device 3, and the terminal device 3 is used (“use”). ). No. The example of 6 is a setting for determining that the terminal device 3 is used (“use”) because the user is absent from the room B at night and the room A is lit.

  No. In the example 7, since the terminal device 3 is operating (“power consumption” is “present”), the user is using the terminal device 3 regardless of other information, or the terminal device 3 Is a setting that determines that the terminal device 3 is used (“use”). As a case where the terminal device 3 operates autonomously, for example, an operation in which a flat-screen television detects an update of its own firmware based on a notification from a server in the WAN and downloads the latest firmware from the server. Is mentioned. In addition, No. No. 7 for setting no. Power consumption information is not included in the determination conditions 5 and 6.

  In this way, the control unit 12 determines the usage state of the terminal device 3 by integrating the contents of the detection information based on the determination table 140. As described above, the content of the determination table 140 is edited by the user operating the setting terminal device 19. Therefore, the user can set conditions according to the family structure and lifestyle. For this reason, this setting also provides a security advantage that prevents a user from accessing the WAN via the device 1 without permission when the user goes out. In the determination table 140, unique identification information for the control unit 12 to identify each sensor device 2 is set.

  The condition setting in the determination table 140 is preferably performed easily from the sensor device 3. For example, the user may set the logical condition of the illuminance information with the switch 23 provided in the sensor device 2. For example, the “illuminance” information is determined according to the room in which the illuminance sensor is installed, which indicates whether the “bright” state is likely to be “used” or “not used”. . That is, when the illuminance sensor is installed in the room A, the “bright” state indicates that the possibility of “use” is high as in this example, but on the other hand, when the illuminance sensor is installed in the room B, Indicates that there is a high possibility of “not in use”. When this logical condition can be selected by the switch 23, logical information indicating the selected logical condition (for example, “1” for “use” and “0” for “not use”) is attached to the detection information. Sent to the device 1. Then, the control unit 12 sets a condition corresponding to the detection information in the determination table 140 according to the received logical information.

  Further, in this example, it is assumed that there is one terminal device 3, but a plurality of terminal devices may be used. In this case, the sensor device 2 may be provided for each room in which the terminal device 3 is provided, and the determination table 140 may include detection information of each sensor device 2 as a condition. For example, when the human sensor is in each room in which the terminal device 3 is provided, the determination table 140 indicates that “use state” indicates that at least one “sensing” information of each human sensor is “present”. May be set to be determined as “use”.

  Referring to FIG. 3 again, the control unit 12 turns off the power of the wireless LAN communication processing unit 11 (step St5) when it is determined as “not used” as a result of the determination processing St3 (NO in step St4). At this time, if the power supply is already off, the control unit 12 may perform control to extend the off period. In this case, the control unit 12 may have a predetermined effective time (for example, the power is turned off for one hour) in the power-off control.

  On the other hand, when it is determined as “use” as a result of the determination process St3 (YES in step St4), the control unit 12 turns on the power of the wireless LAN communication processing unit 11 (step St6). At this time, if the power is already on, the control unit 12 does not control the power so that the on state is maintained.

  For example, when the process is ended by turning off the power of the apparatus 1 (YES in Step St7), the control unit 12 ends the process. On the other hand, if not (NO in Step St7), the control unit 12 starts from Step St1. Resume processing. In this way, the control unit 12 controls the power supply of the wireless LAN communication processing unit 11. Note that the example of FIG. 3 executes the process with the detection information reception process St1 as an opportunity, but is not limited to this, and the control unit 12 may periodically perform the processes St3 to St7. .

  The control unit 12 according to the present embodiment performs the determination based on the determination table 140 in the use state determination process St3, but is not limited thereto, and the determination is performed using the communication statistical information 142 held in the memory 14. You may go. FIG. 6 is a graph showing an example of the communication statistical information 142.

  As described above, the control unit 12 generates communication statistical information 142 by monitoring data input / output between the communication port 10 and the wireless LAN communication processing unit 11 and writes the communication statistical information 142 in the memory 14. The communication statistics information 142 shown in FIG. 6 is a record of the cumulative value of the daily traffic volume in a certain period divided into weekdays (see symbol G1) and holidays (see symbol G2). The horizontal axis of the graph represents the time of one day, and is divided into “morning”, “daytime”, “night”, and “midnight” in the same manner as the above time information classification. On the other hand, the vertical axis of the graph represents the traffic (Byte). Note that the update processing of the communication statistical information 142 may be performed periodically or according to a user operation.

  In this example, the amount of communication during nighttime on weekdays and in the daytime and late night hours on holidays is increasing. Therefore, the possibility that the terminal device 3 is used is that the time zone is higher than other time zones. In the present embodiment, the control unit 12 treats this usability (or use probability) as a numerical value for each piece of information, and determines the usage state based on the sum of the numerical values of each piece of information. This numerical value will be referred to as a “determination point” in the following description.

  FIG. 7 is a flow showing the use state determination process St3 in the present embodiment. First, the control unit 12 determines a determination point for each piece of information (step St11).

  Determination points for day information and time information are determined based on the communication statistical information 142 of FIG. For example, according to a predetermined rule, the determination points are assigned in the order of the highest traffic volume, 50 points for holiday late night, 40 points for weekday night, and 10 points for holiday day. It should be noted that, regarding the daytime of holidays, the amount of communication increases only in a part of the time zone of the entire daytime, so the determination point becomes relatively low.

  On the other hand, determination points are similarly determined for other information. In the example of FIG. 5, when the illuminance information indicates “bright”, the usability of the terminal device 3 is high, and when it indicates “dark”, the usability is low. Accordingly, the determination points of the illuminance information are assigned, for example, 10 points for “bright” and 0 points for “dark”. Similarly, a high determination point may be assigned to the sensing information when the possibility is high. As for the power consumption information, if “present”, it indicates a state in which the terminal device 3 is already used, and therefore an upper limit value of the determination point may be assigned.

  Next, the control part 12 calculates the sum total of the determination points of each information (step St12). In the case of the example in FIG. 5, the control unit 12 calculates the sum of the determination points of time information, day information, illuminance information, sensing information (1), (2), and power consumption information. Note that the determination point of time information and day information is based on the communication statistical information 142 as described above.

  Next, the control unit 12 compares the sum of the determination points obtained in step St12 with a predetermined threshold value (step St13). When the sum of the determination points is smaller than the threshold (NO in step St13), the control unit 12 determines that “not used”, that is, the possibility of use is low (step St14). On the other hand, when the sum of the determination points is equal to or greater than the threshold (YES in step St13), the control unit 12 determines that “use”, that is, the possibility of use is high (step St15). As shown in FIG. 3, in the former case, the power supply of the wireless LAN communication processing unit 11 is turned off or the off period is extended, and in the latter case, the power supply is turned on or kept on.

  In this way, the control unit 12 performs a use state determination process. In the present embodiment, it is preferable that the determination points and threshold values of each information can be set from the setting terminal device 19 in accordance with the user's operation because fine adjustment can be made according to the user's lifestyle.

  As described above, the wireless access device 1 can communicate with the terminal device 3 and one or more sensor devices 2 by the two communication processing units 11 and 15. The power control communication processing unit 15 receives detection information from one or more sensor devices 2. Therefore, by using various sensor devices 2, the wireless access device 1 can obtain detection information useful for determining the usage state.

  The wireless access device 1 controls the power supply of the wireless LAN communication processing unit 11 based on the detection information and at least one of the communication statistical information 142, time information, date information, and day information stored in the device 1. To do. Therefore, the wireless access device 1 can comprehensively determine the usage state from a plurality of pieces of information, and can turn on or off the power of the wireless LAN communication processing unit 11 according to the determination result. Therefore, the power consumption of the wireless access device 1 is reduced by selecting a communication unit that consumes less power than the wireless LAN communication processing unit 11 as the power supply control communication processing unit 15. This effect can be obtained in the same way for the wireless communication system shown in FIG. 1 and the power supply control method shown in FIG.

  Although the contents of the present invention have been specifically described above with reference to the preferred embodiments, it is obvious that those skilled in the art can take various modifications based on the basic technical idea and teachings of the present invention. It is.

1 Wireless access device (wireless communication device)
11 Communication processing unit for wireless LAN (first communication processing unit)
15 Communication control unit for power control (second communication processing unit)
12 control unit 2 sensor device 3 terminal device

The present invention relates to a radio access device, a radio communication system, and a power control method for the radio access device.

The present invention has been made in view of the above problems, an object of the wireless access device that can reduce power consumption, a wireless communication system, and to provide a power control method of a wireless access device.

In order to solve the above-described problem, a wireless access device according to the present invention detects a first communication processing unit that processes wireless communication with a terminal device and a state related to the possibility of using the terminal device by a sensing operation. A second communication processing unit that processes wireless communication with one or more sensor devices to be detected as information, at least one of time information, date information, and day information indicating time zone, date, and day of the week, and the detection information and a storage unit that stores a table and use state is registered in association of the own device, the current time, date, and time information indicating the day of the week, respectively, date information, and at least one day of the week information, The second communication processing unit refers to the table based on the combination with the detection information received from the one or more sensor devices, thereby determining the use state of the own device. Constant, and a control unit for controlling the power of the first communication processing unit according to the determination result.

The wireless access device according to the present invention can communicate with the terminal device and one or more sensor devices by the first and second communication processing units. The second communication processing unit receives detection information from one or more sensor devices. Therefore, by using various sensor devices, the wireless access device can obtain detection information useful for determining the usage state.

The wireless access device according to the present invention includes a detection information received from the sensor device, time information when it is held in its own device, based at least early in life date information, and day information, power of the first communication processing unit To control. Therefore, the wireless access device can comprehensively determine the usage state from a plurality of pieces of information, and can turn on or off the first communication processing unit according to the determination result. Therefore, the power consumption of the wireless access device is reduced by selecting a communication unit that consumes less power than the first communication processing unit as the second communication processing unit.

In the radio access unit, the control unit, the detection information and the previous SL time information, the date information, and at least one bright and early relates, turn on the first communication processing unit of the week information or off, The condition to be performed may be set according to the user's operation.

A wireless communication system according to the present invention includes the wireless access device described above and one or more sensor devices. The one or more sensor devices include a communication processing unit that processes wireless communication with the second communication processing unit, and the detection information obtained by a sensing operation is transmitted to the wireless access device by the communication processing unit. Transmit to the second communication processing unit.

Since the wireless communication system according to the present invention includes the above-described wireless access device and one or more sensor devices, the above-described effects can be obtained.

Also, the power control method for a wireless communication apparatus according to the present invention uses the terminal apparatus in the power control method for a wireless access apparatus that controls the power of the first communication processing unit that processes wireless communication with the terminal apparatus. The second communication processing unit processes wireless communication with one or more sensor devices that detect the state relating to the possibility of detection as detection information by a sensing operation, and includes time information, date information, Time information, date information, and day of the week using a table registered in association with at least one of the day information and the detection information, and the usage status of the device itself At least one of the information, to refer to the table based on the combination of the said detection information the second communication processing unit is received from the one or more sensor devices Determining a use state of the apparatus by a method of controlling the power of the first communication processing unit according to the determination result.

Since the power control method for the wireless access device according to the present invention includes the same configuration as that of the wireless access device described above, the above-described effects can be obtained.

Above As mentioned, according to the present invention, the wireless access device that can reduce power consumption, it is possible to provide a power supply control method of a wireless communication system, and a wireless access device.

Claims (10)

A first communication processing unit for processing wireless communication with the terminal device;
A second communication processing unit for processing wireless communication with one or more sensor devices;
Based on the detection information received by the second communication processing unit from the one or more sensor devices, and at least one of communication statistical information, time information, date information, and day information stored in the device, the second communication processing unit And a control unit that controls a power source of one communication processing unit.   The control unit relates to at least one of the detection information, the communication statistical information, the time information, the date information, and the day information, and sets a condition for turning on or off the power of the first communication processing unit. The wireless communication apparatus according to claim 1, wherein the wireless communication apparatus is set according to a user operation. A wireless communication device according to claim 1 or 2,
One or more sensor devices,
The one or more sensor devices include a communication processing unit that processes wireless communication with the second communication processing unit, and the detection information obtained by a sensing operation is transmitted to the wireless communication device by the communication processing unit. A wireless communication system, wherein the wireless communication system transmits to a second communication processing unit. The one or more sensor devices include an illuminance sensor that detects illuminance,
The wireless communication system according to claim 3, wherein the illuminance sensor transmits illuminance information indicating the illuminance to the second communication processing unit as the detection information. The one or more sensor devices include a human sensor for detecting a person,
5. The wireless communication system according to claim 3, wherein the human sensor transmits sensing information indicating the sensing result to the second communication processing unit as the detection information. The one or more sensor devices include a power sensor that detects power consumption of the device,
The wireless communication system according to claim 3, wherein the power sensor transmits power consumption information indicating the power consumption to the second communication processing unit as the detection information.   A power source of a first communication processing unit that processes wireless communication with a terminal device, detection information received from the one or more sensor devices by a second communication processing unit that processes wireless communication with one or more sensor devices, and A method for controlling the power supply of a wireless communication device, characterized in that control is performed based on at least one of communication statistical information, time information, date information, and day-of-week information held in the device itself. The one or more sensor devices include an illuminance sensor that detects illuminance,
The power detection method for a wireless communication apparatus according to claim 7, wherein the detection information includes illuminance information indicating the illuminance. The one or more sensor devices include a human sensor for detecting a person,
The method according to claim 7 or 8, wherein the detection information includes sensing information indicating the sensing result. The one or more sensor devices include a power sensor that detects power consumption of the device,
10. The power control method for a wireless communication apparatus according to claim 7, wherein the detection information includes power consumption information indicating the power consumption.

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