JP5787944B2 - Wireless communication apparatus, wireless communication system, wireless communication quality measurement method, and program - Google Patents

Description

  The present invention relates to a technique for measuring communication quality between wireless communication devices.

In an information home appliance network in a house, a sensor network in a building, etc., wireless communication is often used because it is easy to install and wiring costs are reduced.
In this wireless communication, since the transmission path is invisible and the communication state changes greatly depending on the surrounding environment and the like, it is difficult to determine whether or not stable communication is possible between wireless communication devices.
Therefore, conventionally, a method for measuring communication quality between wireless communication devices has been proposed.

  For example, Patent Document 1 discloses a system that transmits test data from a wireless station A to a wireless station B and then calculates an error rate based on test data returned from the wireless station B to the wireless station A ( An error rate measurement system) is disclosed. Patent Document 2 discloses a system (printing) in which test data is transmitted from a terminal device to a printer, and the received printer checks a test data error by a CRC (Cyclic Redundancy Check) method, a parity bit method, or the like. System).

JP 2002-232432 A JP 2002-264431 A

  The above-described conventional technology enables measurement of wireless communication quality by performing a specific operation in a specific system configuration and a wireless communication device configuration. That is, in the system of Patent Document 1, it is assumed that each wireless station can communicate bidirectionally. In the system of Patent Document 2, wireless communication quality is checked by checking an error at the physical layer level. Measurement is possible.

  However, in the present day when the use of wireless communication is expanding, not only the configuration of the wireless communication system but also the configuration and functions of the wireless communication device are diverse. For this reason, in the conventional technique for measuring wireless communication quality by a specific operation in a specific configuration, it is necessary to develop a different measurement method (software or the like) for each wireless system, resulting in an increase in development cost.

  The present invention has been made to solve the above problems, and a wireless communication apparatus capable of appropriately measuring communication quality between wireless communication apparatuses by a general-purpose sequence having a minimum configuration. An object of the present invention is to provide a wireless communication system, a wireless communication quality measuring method, and a program.

In order to achieve the above object, a wireless communication device according to the present invention provides:
Wireless communication means for transmitting and receiving wireless data to and from other wireless communication devices that evaluate wireless communication quality ;
Measuring means for measuring received radio wave intensity when the wireless communication means receives test data sent to measure wireless communication quality;
Control means for generating wireless communication quality information including the received radio field intensity measured by the measuring means, and the number of reception times of the test data received by the wireless communication means;
A database for storing the wireless communication quality information generated by the control means,
The measuring means further measures related wireless information including the wireless communication frequency of wireless communication devices existing in the surroundings,
The control means stores the related wireless information measured by the measuring means in the database, and when the wireless communication means receives request data, reads the related wireless information together with the wireless communication quality information from the database, The read wireless communication quality information and related wireless information are transmitted from the wireless communication means to another wireless communication device, and the other wireless communication device is allowed to evaluate the wireless communication quality corrected based on the related wireless information.
It is characterized by that.

  ADVANTAGE OF THE INVENTION According to this invention, the communication quality between radio | wireless communication apparatuses can be measured appropriately by the general purpose sequence which consists of a minimum structure.

It is a block diagram which shows an example of a structure of the radio | wireless communication apparatus which concerns on the 1st Embodiment of this invention. It is a schematic diagram for demonstrating an example of the wireless communication quality information memorize | stored in a wireless communication quality database. It is a flowchart which shows an example of the radio | wireless communication quality measurement process which concerns on the 1st Embodiment of this invention. It is a block diagram which shows an example of a structure of the radio | wireless communications system which concerns on the 2nd Embodiment of this invention. It is a sequence diagram which shows the procedure of the radio | wireless communication quality measurement which concerns on the 2nd Embodiment of this invention. It is a block diagram which shows an example of a structure of the radio | wireless communications system which concerns on the 3rd Embodiment of this invention. It is a sequence diagram which shows the procedure of the radio | wireless communication quality measurement which concerns on the 3rd Embodiment of this invention.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. In the drawings, the same or corresponding parts are denoted by the same reference numerals.

FIG. 1 is a block diagram showing an example of the configuration of the wireless communication device 100 according to the first embodiment of the present invention. This wireless communication device 100 is a device that receives a test frame (test data) sent to measure wireless communication quality and measures the wireless communication quality.
The wireless communication device 100 that receives the test frame is referred to as a passive side (the side that performs passive operation). On the other hand, another wireless communication device that transmits the test frame is referred to as the active side (active side). It shall be called the operation side).
Further, as an example, a case will be described in which the wireless communication device 100 transmits and receives wireless data compliant with the Wi-Fi (registered trademark) standard. Note that the wireless data to be transmitted and received may be based on other wireless standards.

  As illustrated in FIG. 1, the wireless communication device 100 includes an antenna 110, a wireless communication processing unit 120, a wireless communication quality database 130, and a control unit 140.

As an example, the antenna 110 includes a dipole antenna or the like, converts a transmission electric signal into a radio signal and radiates it, and receives a radio signal transmitted from another radio communication device.
That is, the antenna 110 converts transmission data (more specifically, an electrical signal) supplied from the wireless communication processing unit 120 into a wireless signal and radiates it, and receives a wireless signal transmitted from another wireless communication device. Then, it is converted into reception data (more specifically, an electric signal) and supplied to the wireless communication processing unit 120.

The wireless communication processing unit 120 performs wireless communication according to a predetermined protocol.
More specifically, the wireless communication processing unit 120 includes a wireless communication unit 121 and a measurement unit 122.

The wireless communication unit 121 transmits and receives wireless data to and from other wireless communication devices (such as active wireless communication devices).
For example, the wireless communication unit 121 receives a test frame sent from an active wireless communication device. In addition to this, the wireless communication unit 121 receives an initialization command (initialization data) or a request command (request data) sent from another wireless communication device (which may be other than the active wireless communication device as will be described later). Receive.
The initialization command is data for instructing initialization (for example, zero clear) of information stored in the wireless communication quality database 130, and the request command is information on information stored in the wireless communication quality database 130. This is data for requesting transmission. Details of the information stored in the wireless communication quality database 130 will be described later together with the description of the wireless communication quality database 130.
Further, when receiving the request command, the wireless communication unit 121 reads information stored in the wireless communication quality database 130 and transmits the information to another wireless communication device.

The measuring unit 122 measures the received signal strength (RSSI: Receive Signal Strength Indication) of the received wireless data.
For example, the measurement unit 122 measures the received radio wave intensity when a test frame sent from the active wireless communication apparatus is received.

The wireless communication quality database 130 stores information (wireless communication quality information) based on the measurement result by the wireless communication processing unit 120.
As an example, the wireless communication quality database 130 stores wireless communication quality information 131 (131-1 to 131-n) as shown in FIG.
The wireless communication quality information 131 includes, for example, the number of receptions, RSSI maximum, RSSI minimum, RSSI sum, RSSI square sum, and the like. Note that the identifier in the figure is information (for example, an IP address or a MAC address) for identifying the active wireless communication device. That is, the wireless communication quality database 130 individually stores the wireless communication quality information 131 corresponding to the active wireless communication apparatus that has sent the test frame.

The number of receptions in the wireless communication quality information 131 indicates the number of times the wireless communication unit 121 has received a test frame. As will be described later, the active wireless communication apparatus transmits a test frame 1000 times as an example at the time of one test.
The RSSI maximum in the wireless communication quality information 131 indicates the maximum value of the received radio wave intensity measured by the measurement unit 122. The RSSI minimum indicates the minimum value of the received radio wave intensity measured by the measurement unit 122.
The RSSI total in the wireless communication quality information 131 indicates the total value of the received radio wave intensity measured by the measurement unit 122. The RSSI sum of squares indicates the total value of the sum of squares of the received radio wave intensity measured by the measurement unit 122.

Such wireless communication quality information 131 is initialized (for example, zero-cleared) by the control unit 140 when the wireless communication unit 121 receives the initialization command described above. For example, the initialization command includes an identifier, and the wireless communication quality information 131 that matches the identifier is initialized.
When the wireless communication unit 121 receives a test frame, the measurement unit 122 measures the received radio wave intensity of the test frame. Then, the wireless communication quality information 131 is updated by the control unit 140. For example, an identifier is included in the test frame, and the number of receptions of the radio communication quality information 131 that matches the identifier, the RSSI maximum, the RSSI minimum, the RSSI sum, and the RSSI square sum are updated as appropriate.
Furthermore, when the wireless communication unit 121 receives the request command described above, the target wireless communication quality information 131 is read by the control unit 140 and transmitted from the wireless communication unit 121. For example, an identifier is included in the request command, and the wireless communication quality information 131 that matches the identifier is read out and transmitted to the transmission source of the request command.

Returning to FIG. 1, the control unit 140 includes, as an example, a CPU (Central Processing Unit), a ROM (Read Only Memory), a RAM (Random Access Memory), and the like (all not shown), and the entire wireless communication apparatus 100. To control. Specifically, the control unit 140 controls the entire wireless communication apparatus 100 by appropriately executing various programs stored in the ROM using the RAM as a work memory by the CPU.
For example, the control unit 140 appropriately controls the wireless communication quality database 130 and the measurement unit 122 according to the initialization command, the test frame, and the request command received by the wireless communication unit 121 to measure the wireless communication quality. Etc.

  Hereinafter, the operation of the wireless communication apparatus 100 having such a configuration will be described with reference to FIG. FIG. 3 is a flowchart showing an example of the wireless communication quality measurement process according to the first embodiment of the present invention. In this wireless communication quality measurement process, a case where the active wireless communication apparatus transmits an initialization command, a test frame, and a request command will be described as an example. As will be described later, the initialization command and the request command other than the test frame may be transmitted from another wireless communication apparatus.

First, the wireless communication device 100 determines whether data has been received (step S1). That is, the wireless communication unit 121 determines whether or not wireless data transmitted from the active wireless communication device has been received.
When it is determined that data is not received (step S1; No), the wireless communication device 100 determines again whether data has been received. That is, the wireless communication device 100 stands by until data is received.

On the other hand, when it is determined that data has been received (step S1; Yes), the wireless communication device 100 determines whether or not the received command is an initialization command (step S2). That is, the wireless communication unit 121 determines whether or not the information transmitted from the active wireless communication apparatus is an initialization command that instructs information initialization.
If the wireless communication device 100 determines that the received command is not an initialization command (step S2; No), the process proceeds to step S4 described later.

On the other hand, when it is determined that the received command is the initialization command (step S2; Yes), the wireless communication device 100 initializes the information in the wireless communication quality database 130 (step S3).
For example, the control unit 140 refers to an identifier included in the initialization command, searches the wireless communication quality database 130 for wireless communication quality information 131 that matches the identifier, and initializes (as an example, zero clear).
And the control part 140 returns a process to step S1 mentioned above.

If the initialization command has not been received in step S2 described above, the wireless communication apparatus 100 determines whether or not the received command is a test frame (step S4). That is, the wireless communication unit 121 determines whether or not what is sent from the active-side wireless communication device is a test frame for measuring wireless communication quality.
If the wireless communication apparatus 100 determines that the received frame is not a test frame (step S4; No), the process proceeds to step S6 described later.

On the other hand, when it is determined that the received frame is the test frame (step S4; Yes), the wireless communication device 100 measures the received radio wave intensity and updates the information in the wireless communication quality database 130 (step S5). .
For example, the measurement unit 122 measures the received radio wave intensity of the test frame sent from the active wireless communication device. Then, the control unit 140 refers to the identifier included in the test frame, and appropriately updates the number of receptions of the wireless communication quality information 131 that matches the identifier, the RSSI maximum, the RSSI minimum, the RSSI sum, and the RSSI square sum. To do.
And the control part 140 returns a process to step S1 mentioned above.

When the test frame is not received in step S4 described above, the wireless communication device 100 determines whether or not the received request command is a request command (step S6). That is, the wireless communication unit 121 determines whether or not a request command for requesting transmission of information is sent from the active wireless communication apparatus.
When determining that the received command is not a request command (step S6; No), the wireless communication device 100 returns the process to step S1 described above. Note that, before returning the processing to step S1, the wireless communication device 100 may return to the active wireless communication device that the received data is invalid data (for example, an error response).

On the other hand, when it is determined that the received command is a request command (step S6; Yes), the wireless communication device 100 reads information from the wireless communication quality database 130 and transmits it to the active wireless communication device (step S6). S7).
For example, the control unit 140 refers to the identifier included in the request command, reads the wireless communication quality information 131 that matches the identifier from the wireless communication quality database 130, and then reads the wireless communication quality information 131 from the wireless communication unit 121. Transmit to the active wireless communication device.
And the control part 140 returns a process to step S1 mentioned above.

By such wireless communication quality measurement processing, the wireless communication quality between the active-side wireless communication device and the wireless communication device 100 can be appropriately measured. At that time, the wireless communication device 100 uses an initialization command, a wireless communication processing unit 120, a wireless communication quality database 130, and a control unit 140 with a minimum necessary configuration (a configuration essential for a device that performs wireless communication), By performing a general-purpose sequence according to the test frame and the request command, the wireless communication quality between devices is measured.
As a result, the communication quality between the wireless communication devices can be appropriately measured by a general-purpose sequence having a minimum configuration.

  In the first embodiment described above, the wireless communication device 100 as the passive side has been mainly described. In the following embodiment, a more specific wireless communication system will be described.

First, the case where the present invention is applied to a wireless communication system in a house (information home appliance network or the like) will be described.
FIG. 4 is a block diagram showing an example of the configuration of the wireless communication system 10 according to the second embodiment of the present invention. The wireless communication system 10 includes an adapter 200 as a passive side, a home appliance 300 to which the wireless adapter 200 is attached, a control device 400 as an active side, and an operation terminal 500 operated by a user. Yes. Among these, the adapter 200 and the control device 400 can perform wireless communication, and the control device 400 and the operation terminal 500 can also perform wireless communication.

The adapter 200 is a passive-side wireless communication device that is used by being attached to the home appliance 300 that does not have a wireless communication function, and includes an antenna 110, a wireless communication processing unit 120, a wireless communication quality database 130, and a control unit 140. And an adapter I / F (interface) 250.
That is, the adapter 200 has a configuration in which the adapter I / F 250 is added to the configuration of the wireless communication apparatus 100 according to the first embodiment described above.
Therefore, the antenna 110, the wireless communication processing unit 120, the wireless communication quality database 130, and the control unit 140 are the same as the respective configurations of the first embodiment.

  Adapter I / F 250 exchanges data with home appliance 300. For example, the adapter I / F 250 converts a protocol on the adapter 200 side and a protocol on the home appliance 300 side.

The home appliance 300 is, for example, various electric appliances (for example, an air conditioner, a lighting device, an IH cooker, a refrigerator, floor heating, a TV, etc.) disposed in a house, and is used with the adapter 200 attached.
The home appliance 300 includes an adapter I / F 310, a control unit 320, and a main function unit 330.

  The adapter I / F 310 exchanges data with the adapter 200. For example, the adapter I / F 310 converts a protocol on the home appliance 300 side and a protocol on the adapter 200 side.

The control unit 320 includes a CPU, a RAM, a ROM, and the like (all not shown), and controls the home appliance 300 as a whole.
For example, the control unit 320 controls the adapter I / F 310 to control data exchange with the adapter 200. Further, the control unit 320 controls the main function unit 330 to realize the original function of the home appliance 300 as will be described later.

  The main function unit 330 is a configuration for realizing an original function of the home appliance 300 (for example, an air conditioning function for an air conditioner, a lighting function for a lighting device, etc.), and is appropriately controlled by the control unit 320.

Control device 400 controls home appliance 300 through adapter 200 in response to an instruction from operation terminal 500. In addition, the control device 400 also serves as a router in the wireless communication system 10.
The control device 400 is an active-side wireless communication device, and includes an antenna 410, a wireless communication processing unit 420, and a control unit 430.

The antenna 410 includes, for example, a dipole antenna and the like, converts an electric signal for transmission into a radio signal and radiates it, and receives a radio signal transmitted from another radio communication device.
That is, the antenna 410 converts transmission data (more specifically, an electrical signal) supplied from the wireless communication processing unit 420 into a wireless signal and radiates it, and also transmits a wireless signal transmitted from the adapter 200 or the operation terminal 500. The received data is converted into received data (more specifically, an electrical signal) and supplied to the wireless communication processing unit 420.

The wireless communication processing unit 420 performs wireless communication according to a predetermined protocol. In more detail, the wireless communication processing unit 420 transmits and receives wireless data to and from the adapter 200.
For example, the wireless communication processing unit 420 transmits a test frame to the adapter 200 as a passive-side wireless communication device. In addition, the wireless communication processing unit 420 transmits an initialization command and a request command to the adapter 200.
In addition, the wireless communication processing unit 420 transmits and receives wireless data to and from the operation terminal 500. For example, the wireless communication processing unit 420 receives a measurement request sent from the operation terminal 500 and instructing quality measurement of wireless communication between the control device 400 and the adapter 200.

The control unit 430 includes a CPU, a RAM, a ROM, and the like (all not shown), and controls the entire control device 400.
For example, the control unit 430 controls the wireless communication processing unit 420 in response to a measurement request sent from the operation terminal 500 to transmit an initialization command, a test frame, and a request command to the adapter 200.
Then, when receiving the wireless communication quality information sent from the adapter 200, the control unit 430 evaluates the quality of the wireless communication based on the information.
Specifically, control unit 430 obtains the average received radio wave intensity using the total received radio wave intensity (RSSI total) and the number of receptions included in the wireless communication quality information. As an example, the average received radio wave intensity is obtained by the following formula 1.

[Equation 1]
Av = Sm / Rc
Av: Average received radio wave intensity Sm: Total received radio wave intensity Rc: Number of receptions

  Control unit 430 obtains the standard deviation of the received radio wave intensity using the total received radio wave intensity (RSSI total), the square sum (RSSI square sum), and the number of receptions included in the wireless communication quality information. As an example, the standard deviation of the received radio wave intensity is obtained by the following formula 2.

[Equation 2]
Sd ² = Sq / Rc− (Sm / Rc) ²
Sd: standard deviation of received radio wave intensity Sq: sum of squares of received radio wave intensity Rc: number of receptions Sm: total received radio wave intensity

  Further, the control unit 430 obtains an error rate (PER: Packet Error Rate) using the number of receptions included in the wireless communication quality information and the number of transmissions known (or stored in the RAM or the like). As an example, the error rate of the test frame is obtained by the following Equation 3.

[Equation 3]
Er = (Sc−Rc) / Sc
Er: Error rate Sc: Number of transmissions Rc: Number of receptions

  The control unit 430 evaluates the quality of wireless communication between the control device 400 and the adapter 200 using the average and standard deviation of the received radio wave intensity, the error rate, and the like obtained in this way.

The operation terminal 500 is a portable terminal such as a tablet terminal or a smartphone, and is used by a user.
The operation terminal 500 includes an antenna 510, a wireless communication processing unit 520, a control unit 530, and an input receiving unit 540.

As an example, the antenna 510 includes a dipole antenna or the like, converts an electric signal for transmission into a radio signal and radiates it, and receives a radio signal transmitted from another radio communication device.
In other words, the antenna 510 converts transmission data (more specifically, an electrical signal) supplied from the wireless communication processing unit 520 into a radio signal and radiates it, and receives a radio signal transmitted from the data aggregation device 600. The received data (more specifically, an electrical signal) is converted and supplied to the wireless communication processing unit 520.

The wireless communication processing unit 520 performs wireless communication according to a predetermined protocol. In more detail, the wireless communication processing unit 520 transmits and receives wireless data to and from the control device 400.
For example, the wireless communication processing unit 520 transmits a measurement request for instructing quality measurement of wireless communication between the control device 400 and the adapter 200 to the control device 400. Then, wireless communication processing unit 520 receives the measurement result sent from control device 400.

The control unit 530 includes a CPU, a RAM, a ROM, and the like (all not shown), and controls the entire operation terminal 500.
For example, when receiving an instruction from the user at the input receiving unit 540, the control unit 530 controls the wireless communication processing unit 520 and the like according to the content of the instruction.

As an example, the input receiving unit 540 includes a touch panel, a touch pad, and the like, and receives an instruction input from a user.
For example, the input reception unit 540 receives a measurement request for instructing quality measurement of wireless communication between the control device 400 and the adapter 200.

  Hereinafter, the operation of wireless communication quality measurement in the wireless communication system 10 having such a configuration will be described with reference to FIG. FIG. 5 is a sequence diagram showing a procedure for measuring wireless communication quality.

First, the operation terminal 500 transmits a measurement request to the control device 400 in accordance with a user operation (Sq101).
That is, when control unit 530 receives a measurement request for instructing quality measurement of wireless communication between control device 400 and adapter 200 from input receiving unit 540, control unit 530 receives the measurement request from wireless communication processing unit 520. 400.

In response to this measurement request, the control device 400 transmits an initialization command to the adapter 200 (Sq102).
That is, the control unit 430 controls the wireless communication processing unit 420 to transmit an initialization command to the adapter 200.

The adapter 200 receives this initialization command and initializes information in the wireless communication quality database 130 (Sq103).
For example, the control unit 140 refers to the identifier included in the initialization command, searches the wireless communication quality database 130 for the wireless communication quality information 131 that matches the identifier, and initializes it.
Then, the adapter 200 transmits an initialization response to the control device 400 (Sq104).
That is, the control unit 140 controls the wireless communication processing unit 420 to return an initialization response indicating that initialization has been performed to the control device 400.

In response to the initialization response, the control device 400 transmits a test frame to the adapter 200 (Sq105).
That is, the control unit 430 controls the wireless communication processing unit 420 to transmit a test frame to the adapter 200. The test frame is transmitted a predetermined number of times (for example, 1000 times).

The adapter 200 receives this test frame and updates the information in the wireless communication quality database 130 (Sq106).
For example, the measurement unit 122 measures the received radio wave intensity of the test frame sent from the control device 400. Then, the control unit 140 refers to the identifier included in the test frame, and appropriately updates the number of receptions of the wireless communication quality information 131 that matches the identifier, the RSSI maximum, the RSSI minimum, the RSSI sum, and the RSSI square sum. To do.

When the transmission of the series of test frames is completed, the control device 400 transmits a request command to the adapter 200 (Sq107).
That is, the control unit 430 controls the wireless communication processing unit 420 to transmit a request command to the adapter 200.

In response to this request command, the adapter 200 reads the wireless communication quality information from the wireless communication quality database 130 (Sq108).
For example, the control unit 140 refers to an identifier included in the request command, and reads the wireless communication quality information 131 that matches the identifier from the wireless communication quality database 130.
Then, the adapter 200 transmits the read wireless communication quality information to the control device 400 (Sq109).

The control device 400 receives the wireless communication quality information and evaluates the quality of wireless communication between the control device 400 and the adapter 200 (Sq110).
That is, the control unit 430 evaluates the quality of wireless communication based on the wireless communication quality information received from the adapter 200.
Specifically, control unit 430 obtains the average, standard deviation, and error rate of the received radio wave intensity using Equations 1 to 3 described above, and evaluates the quality of wireless communication between control device 400 and adapter 200. .

Then, the control device 400 transmits a measurement result response to the operation terminal 500 (Sq111).
For example, the control unit 430 controls the wireless communication processing unit 420 to transmit a measurement result response including wireless communication quality information and evaluation results to the operation terminal 500.

With this wireless communication quality measurement operation, the wireless communication quality between the active control device 400 and the passive adapter 200 can be appropriately measured. At that time, the adapter 200 has an initialization command, a test frame, and a configuration such as a wireless communication processing unit 120, a wireless communication quality database 130, and a control unit 140 (configuration essential for a device that performs wireless communication). By executing a general-purpose sequence according to the request command, the wireless communication quality between devices is measured.
As a result, the communication quality between the wireless communication devices can be appropriately measured by a general-purpose sequence having a minimum configuration.

  In said 2nd Embodiment, the control apparatus 400 (control part 430) calculates | requires the average of a received radio wave intensity, a standard deviation, and an error rate using Numerical formula 1-3, and between the control apparatus 400 and the adapter 200 Although the case where the quality of wireless communication between the two is evaluated has been described, other than the control device 400 may evaluate the quality of wireless communication. For example, the average, standard deviation, and error rate of the received radio wave intensity are obtained by the operation terminal 500 (control unit 530), and the wireless communication between the control device 400 and the adapter 200 is performed on the operation terminal 500 side. Communication quality may be evaluated.

Next, a case where the present invention is applied to a wireless communication system (such as a sensor network) in a building will be described.
FIG. 6 is a schematic diagram illustrating an example of a configuration of the wireless communication system 20 according to the third embodiment of the present invention. The wireless communication system 20 includes a data aggregation device 600 as a passive side, a plurality of sensor terminals 700 as an active side, and an operation terminal 500 operated by a user. Among these, wireless transmission (one-way wireless communication) from each sensor terminal 700 to the data aggregation device 600 is possible, and the data aggregation device 600 and the operation terminal 500 are capable of wireless communication.

The data aggregating apparatus 600 is arranged on the back of a ceiling in a building, and receives and holds sensor measurement values sent from the sensor terminal 700 at a constant period.
The data aggregation device 600 is a passive-side wireless communication device, and includes an antenna 110, a wireless communication processing unit 120, a wireless communication quality database 130, a control unit 140, and a sensor measurement value holding unit 650.
That is, the data aggregation device 600 has a configuration in which the sensor measurement value holding unit 650 is added to the configuration of the wireless communication device 100 according to the first embodiment described above.
Therefore, the antenna 110, the wireless communication processing unit 120, the wireless communication quality database 130, and the control unit 140 are the same as the respective configurations of the first embodiment.
Note that the wireless communication processing unit 120 further receives wireless data (such as sensor measurement values) transmitted from the sensor terminal 700.

The sensor measurement value holding unit 650 includes, for example, a flash memory, and holds the sensor measurement value received by the wireless communication processing unit 120.
That is, the center measurement values measured at each sensor terminal 700 are collected and held in the sensor measurement value holding unit 650.

The sensor terminals 700 are arranged at various locations in a building, for example, are driven by a battery as a power source, and sensor values such as temperature, humidity, and illuminance are measured at a certain period (for example, a period of 10 minutes). The value (sensor measurement value) is transmitted to the data aggregation device 600.
The sensor terminal 700 is an active-side wireless communication device, and includes an antenna 710, a wireless transmission unit 720, a control unit 730, a sensor 740, and a test button 750.

As an example, the antenna 710 includes a dipole antenna or the like, and converts an electric signal for transmission into a radio signal and radiates it.
That is, the antenna 710 converts transmission data (more specifically, an electrical signal) supplied from the wireless transmission unit 720 into a wireless signal and radiates it.

  The wireless transmission unit 720 transmits the sensor measurement value to the data aggregation device 600 at regular intervals (for example, a cycle of 10 minutes).

The control unit 730 includes a CPU, a RAM, a ROM, an RTC (Real Time Clock) and the like (all not shown), and controls the entire sensor terminal 700.
For example, the control unit 730 shifts from the sleep mode to the normal mode at regular intervals (for example, a cycle of 10 minutes), and transmits the sensor measurement values measured by the sensor 740 from the wireless transmission unit 720 to the data aggregation device 600. To do. And after transmission is complete | finished, the control part 730 transfers to sleep mode for power consumption reduction.
In addition, when the test button 750 is pressed, the control unit 730 shifts to the test mode, controls the wireless transmission unit 720, and transmits a test frame to the data aggregation device 600. For example, the control unit 730 transitions to the sleep mode again after transmitting the test frame 1000 times.

  The sensor 740 includes sensor elements such as temperature, humidity, and illuminance, and supplies the measured sensor value (sensor measurement value) to the control unit 730.

  The test button 750 is a button switch for instructing transmission of a test frame. When the test button 750 is pressed by the user, a press signal is supplied to the control unit 730.

The operation terminal 500 is the same as the operation terminal 500 according to the second embodiment described above.
Therefore, the antenna 510, the wireless communication processing unit 520, the control unit 530, and the input reception unit 540 are the same as the respective configurations of the second embodiment.
Note that the wireless communication processing unit 520 transmits an initialization command and a request command to the data aggregation device 600.
In addition, when receiving the wireless communication quality information sent from the data aggregation device 600, the control unit 530 evaluates the quality of the wireless communication based on the information.
That is, the control unit 530 obtains the average, standard deviation, and error rate of the received radio wave intensity using the above-described formulas 1 to 3, and evaluates the quality of wireless communication between the sensor terminal 700 and the data aggregation device 600. To do.

  Hereinafter, the operation of the wireless communication quality measurement of the wireless communication system 20 having such a configuration will be described with reference to FIG. FIG. 7 is a sequence diagram showing a procedure for measuring wireless communication quality.

First, the operation terminal 500 transmits an initialization command to the data aggregation device 600 in accordance with a user operation (Sq201).
That is, the control unit 530 controls the wireless communication processing unit 520 to transmit an initialization command to the data aggregation device 600.

In response to this initialization command, the data aggregation device 600 initializes information in the wireless communication quality database 130 (Sq202).
For example, the control unit 140 refers to the identifier included in the initialization command, searches the wireless communication quality database 130 for the wireless communication quality information 131 that matches the identifier, and initializes it.
Then, the data aggregation device 600 transmits an initialization response to the operation terminal 500 (Sq203).
That is, the control unit 140 controls the wireless communication processing unit 420 to return an initialization response indicating that initialization has been performed to the operation terminal 500.

When the test button 750 is pressed, the sensor terminal 700 transmits a test frame to the data aggregation device 600 (Sq204).
That is, the control unit 730 controls the wireless transmission unit 720 to transmit a test frame to the data aggregation device 600. The test frame is transmitted a predetermined number of times (for example, 1000 times).

The data aggregating apparatus 600 receives this test frame and updates the information in the wireless communication quality database 130 (Sq205).
For example, the measurement unit 122 measures the received radio wave intensity of the test frame sent from the sensor terminal 700. Then, the control unit 140 refers to the identifier included in the test frame, and appropriately updates the number of receptions of the wireless communication quality information 131 that matches the identifier, the RSSI maximum, the RSSI minimum, the RSSI sum, and the RSSI square sum. To do.

The operation terminal 500 transmits a request command to the data aggregation device 600 according to the user's operation (Sq206).
That is, the control unit 530 controls the wireless communication processing unit 520 to transmit a request command to the data aggregation device 600.

In response to this request command, the data aggregation device 600 reads the wireless communication quality information from the wireless communication quality database 130 (Sq207).
For example, the control unit 140 refers to an identifier included in the request command, and reads the wireless communication quality information 131 that matches the identifier from the wireless communication quality database 130.
Then, the data aggregation device 600 transmits the read wireless communication quality information to the operation terminal 500 (Sq208).

The operation terminal 500 receives the wireless communication quality information and evaluates the quality of wireless communication between the sensor terminal 700 and the data aggregation device 600 (Sq209).
That is, the control unit 530 evaluates the quality of wireless communication based on the wireless communication quality information received from the data aggregation device 600.
Specifically, the control unit 530 obtains the average, standard deviation, and error rate of the received radio wave intensity by using the above-described formulas 1 to 3, and determines the quality of wireless communication between the sensor terminal 700 and the data aggregation device 600. evaluate.

With this wireless communication quality measurement operation, the wireless communication quality between the sensor terminal 700 and the data aggregation device 600 can be appropriately measured. At that time, the data aggregating apparatus 600 has an initialization command, a test frame, a configuration such as the wireless communication processing unit 120, the wireless communication quality database 130, and the control unit 140 (a configuration essential for a device that performs wireless communication). And the wireless communication quality between apparatuses is measured by implementing the general purpose sequence according to a request command.
As a result, the communication quality between the wireless communication devices can be appropriately measured by a general-purpose sequence having a minimum configuration.

In the third embodiment, each sensor terminal 700 transmits a sensor measurement value to the data aggregation device 600 at regular intervals (for example, a 10-minute cycle). For this reason, there may be a case where it collides with the transmission of the test frame. Therefore, the communication quality may be evaluated after correcting the error rate or the like according to the surrounding wireless communication status or the like.
Hereinafter, a modified example of the third embodiment, which is characterized by correcting an error rate or the like according to surrounding wireless communication conditions or the like, will be described.

In this modification, the wireless communication processing unit 120 (measurement unit 122) of the data aggregation device 600 measures, for example, related wireless information. Specifically, the measurement unit 122 measures related wireless information such as the number of surrounding wireless communication devices, the transmission time of the surrounding wireless communication devices, and the transmission frequency of the surrounding wireless communication devices.
The number of surrounding wireless communication devices indicates the number of wireless communication devices existing within the communication range of the sensor terminal 700 as the active side and the data aggregation device 600 as the passive side.
Then, the control unit 140 stores the related wireless information measured in this way in the wireless communication quality database 130.
If it is not easy to detect the number of surrounding wireless communication devices or the like, the number of wireless communication devices with which the active side and the passive side communicate, and the wireless devices participating in the wireless communication system 20 including the active side and the passive side are included. The number of communication devices may be obtained and stored in the wireless communication quality database 130 as related wireless information.

In this modified example, when the data aggregating apparatus 600 receives a request command, the related wireless information is read out together with the wireless communication quality information from the wireless communication quality database 130 and transmitted to the operation terminal 500.
Then, the operation terminal 500 evaluates the wireless communication quality corrected based on the received related wireless information. For example, the control unit 530 obtains the error rate using Equation 3 described above, and then calculates the error rate based on the transmission time, transmission interval, and number of transmissions of the test frame transmitted by the active side and the surrounding wireless communication devices. It is corrected by the number, the transmission time of the surrounding wireless communication devices, and the transmission frequency of the surrounding wireless communication devices.

Hereinafter, a modification of the third embodiment will be described with a specific example.
It is assumed that there are five wireless communication devices in addition to the active side sensor terminal 700 and the passive side data aggregation device 600, and the five wireless communication devices regularly communicate. At this time, if the sensor terminal 700 on the active side transmits a test frame to the data aggregation device 600 on the passive side, there is a possibility of colliding with communication of five wireless communication devices. The collision probability is estimated based on the test frame transmission conditions and the transmission conditions of the five wireless communication apparatuses, and the error rate is corrected.
For example, the correction method is converted into an error rate in the case where there are no other five wireless communication apparatuses. In this case, it is possible to correct to a pure error rate between two points on the active side and the passive side.
In addition to this, there is a method of converting the error rate to the case where the active side and the passive side operate as a normal system. In this case, the error rate when operating the real system can be corrected.

  As a result, the wireless communication quality between the sensor terminal 700 and the data aggregation device 600 can be more appropriately evaluated.

  In the modification of the third embodiment, the case where the related wireless information is held (stored) in the passive-side data aggregation device 600 (wireless communication quality database 130) has been described. It may be the active side or another wireless communication device.

  In the above embodiment, the case where the dedicated wireless communication device 100, the adapter 200, and the data aggregation device 600 are used has been described. However, the operation that defines the operations of the wireless communication device 100, the adapter 200, and the data aggregation device 600 is described. By applying the program to an existing personal computer, information terminal device, or the like, it is possible to cause the personal computer or the like to function as the wireless communication device 100, the adapter 200, and the data aggregation device 600 according to the present invention.

  Further, the distribution method of such a program is arbitrary. For example, the program can be read by a computer such as a CD-ROM (Compact Disk Read-Only Memory), a DVD (Digital Versatile Disk), an MO (Magneto Optical Disk), or a memory card. It may be distributed by storing in a recording medium, or distributed via a communication network such as the Internet.

10, 20 Wireless communication system, 100 Wireless communication device, 200 Adapter, 300 Home appliance, 400 Control device, 500 Operation terminal, 600 Data aggregation device, 700 Sensor terminal, 110, 410, 510, 610, 710 Antenna, 120, 420 , 520 Wireless communication processing unit, 720 Wireless transmission unit, 130 Wireless communication quality database, 140, 320, 430, 530, 730 Control unit, 250, 310 Adapter I / F, 330 Main function unit, 540 Input reception unit, 650 Sensor Measurement value holding unit, 740 sensor, 750 test button

Claims (10)

Wireless communication means for transmitting and receiving wireless data to and from other wireless communication devices that evaluate wireless communication quality ;
Measuring means for measuring received radio wave intensity when the wireless communication means receives test data sent to measure wireless communication quality;
Control means for generating wireless communication quality information including the received radio field intensity measured by the measuring means, and the number of reception times of the test data received by the wireless communication means;
A database for storing the wireless communication quality information generated by the control means,
The measuring means further measures related wireless information including the wireless communication frequency of wireless communication devices existing in the surroundings,
The control means stores the related wireless information measured by the measuring means in the database, and when the wireless communication means receives request data, reads the related wireless information together with the wireless communication quality information from the database, The read wireless communication quality information and related wireless information are transmitted from the wireless communication means to another wireless communication device, and the other wireless communication device is allowed to evaluate the wireless communication quality corrected based on the related wireless information.
A wireless communication apparatus. The wireless communication means receives the test data sent from each of a plurality of other wireless communication devices,
The database individually stores the wireless communication quality information according to an identifier for identifying another wireless communication device that has sent the test data.
The wireless communication apparatus according to claim 1. When the wireless communication means receives initialization data, the control means initializes the wireless communication quality information stored in the database,
The control means updates the wireless communication quality information in the database when the wireless communication means receives test data.
The wireless communication apparatus according to claim 1, wherein the wireless communication apparatus is a wireless communication apparatus. A wireless communication system in which a first wireless communication device that performs active operation and a second wireless communication device that performs passive operation perform wireless communication,
The first wireless communication device is:
Active-side communication means for transmitting test data for measuring wireless communication quality toward the second wireless communication device;
The second wireless communication device is:
Passive communication means for receiving the test data sent from the first wireless communication device;
Measuring means for measuring the received radio wave intensity of the test data received by the passive communication means;
Control means for generating wireless communication quality information including the received radio wave intensity measured by the measuring means, and the number of reception times of the test data received by the passive communication means;
A database for storing the wireless communication quality information generated by the control means,
The first wireless communication device is:
Evaluation means for evaluating wireless communication quality with the second wireless communication device based on the wireless communication quality information sent from the second wireless communication device;
The measuring means further measures related wireless information including the wireless communication frequency of wireless communication devices existing in the surroundings,
The control means stores the related wireless information measured by the measuring means in the database, and reads the related wireless information together with the wireless communication quality information from the database when the passive communication means receives the request data. The read wireless communication quality information and related wireless information are transmitted from the passive communication means to the first wireless communication device,
The evaluating means evaluates the wireless communication quality corrected based on the related wireless information transmitted from the second wireless communication device;
A wireless communication system. A plurality of the first wireless communication devices are included in the wireless communication system,
The passive communication means receives the test data sent from each of the first wireless communication devices,
The database individually stores the wireless communication quality information according to an identifier for identifying the first wireless communication device that has sent the test data.
The wireless communication system according to claim 4. The active communication means further transmits initialization data for instructing initialization of the wireless communication quality information and request data for requesting the wireless communication quality information to the second wireless communication device,
The control means initializes the wireless communication quality information stored in the database when the passive communication means receives the initialization data,
The control means updates the wireless communication quality information in the database when the passive communication means receives test data.
The wireless communication system according to claim 4, wherein the wireless communication system is a wireless communication system. A wireless communication system in which a first wireless communication device that performs active operation and a second wireless communication device that performs passive operation perform wireless communication,
The first wireless communication device is:
Active-side communication means for transmitting test data for measuring wireless communication quality toward the second wireless communication device;
The second wireless communication device is:
Passive communication means for receiving the test data sent from the first wireless communication device;
Measuring means for measuring the received radio wave intensity of the test data received by the passive communication means;
Control means for generating wireless communication quality information including the received radio wave intensity measured by the measuring means, and the number of reception times of the test data received by the passive communication means;
A database for storing the wireless communication quality information generated by the control means,
A third wireless communication device that wirelessly communicates with the second wireless communication device is further included in the wireless communication system;
The third wireless communication device is:
Wireless communication means for transmitting initialization data for instructing initialization of the wireless communication quality information and request data for requesting the wireless communication quality information to the second wireless communication device;
Evaluation means for evaluating wireless communication quality with the second wireless communication device based on the wireless communication quality information sent from the second wireless communication device;
The measuring means further measures related wireless information including the wireless communication frequency of wireless communication devices existing in the surroundings,
The control means stores the related wireless information measured by the measuring means in the database, and reads the related wireless information together with the wireless communication quality information from the database when the passive communication means receives the request data. The read wireless communication quality information and related wireless information are transmitted from the passive communication means to the third wireless communication device,
The evaluating means evaluates the wireless communication quality corrected based on the related wireless information transmitted from the second wireless communication device;
A wireless communication system. The control means initializes the wireless communication quality information stored in the database when the passive communication means receives the initialization data,
The control means updates the wireless communication quality information in the database when the passive communication means receives test data.
The wireless communication system according to claim 7. A wireless communication quality measurement method in a wireless communication device that performs passive operation,
A wireless communication step for transmitting and receiving wireless data to and from other wireless communication devices that perform wireless communication quality evaluation ;
A measurement step of measuring the received radio wave intensity when the test data sent to measure the wireless communication quality is received in the wireless communication step;
A control step of generating wireless communication quality information including the received radio wave intensity measured in the measuring step and the number of receptions of the test data received in the wireless communication step;
Storing the wireless communication quality information generated in the control step in a database,
In the measurement step, the related wireless information including the wireless communication frequency of wireless communication devices existing around is further measured,
In the control step, the related wireless information measured in the measurement step is stored in the database, and when the request data is received in the wireless communication step, the related wireless information is stored together with the wireless communication quality information from the database. Reading, transmitting the read wireless communication quality information and related wireless information to another wireless communication device in the wireless communication step, and allowing the other wireless communication device to evaluate the wireless communication quality corrected based on the related wireless information ,
A wireless communication quality measuring method characterized by the above. Computer
A wireless communication unit that transmits and receives wireless data to and from other wireless communication devices that evaluate wireless communication quality ;
A measurement unit for measuring received radio wave intensity when the wireless communication unit receives test data sent to measure wireless communication quality;
A control unit that generates wireless communication quality information including the received radio wave intensity measured by the measurement unit, and the number of receptions of the test data received by the wireless communication unit;
Function as a database that stores the wireless communication quality information generated by the control unit;
The measurement unit further measures related wireless information including the wireless communication frequency of wireless communication devices existing in the surroundings,
The control unit stores the related wireless information measured by the measurement unit in the database, and when the wireless communication unit receives request data, reads the related wireless information together with the wireless communication quality information from the database, The read wireless communication quality information and related wireless information are transmitted from the wireless communication unit to another wireless communication device, and the other wireless communication device is allowed to evaluate the wireless communication quality corrected based on the related wireless information.
A program characterized by that.

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