JP6402795B2 - Wireless terminal device, measurement method, and program - Google Patents

Description

  The present invention relates to a technique for evaluating the accessibility of a wireless LAN (Local Area Network).

  An example of an index for evaluating the quality of the wireless LAN communication state, such as the accessibility of the wireless LAN (that is, whether communication via the wireless LAN is possible and how well communication can be performed) The strength of communication radio waves transmitted from each access point included in the wireless LAN (hereinafter may be referred to as electric field strength or communication power magnitude). For example, in Patent Document 1, a monitoring beacon is periodically transmitted to an access point, and communication is stopped when each wireless slave station (wireless terminal device) accommodated in the access point receives the monitoring beacon. Disclosed is a technique for investigating the presence or absence of interference from radio waves transmitted from other adjacent access points around the access point by measuring the surrounding electric field strength and notifying the access point of the measurement result. ing. In addition, the technique disclosed in Patent Document 2 measures the electric field strength when the electric field strength falls below a certain threshold in the portable information terminal.

Japanese Patent No. 4654507 JP 2010-093520 A

  The technique disclosed in Patent Document 1 enables measurement of communication power in a place where the frequency of use of a wireless LAN is high, such as the vicinity of an access point, without causing a user of the wireless slave station to perform a special operation. However, there is a problem that communication between each wireless slave station and the access point is stopped simultaneously while measuring communication power. In addition, if the wireless slave station could not receive the monitoring beacon correctly due to a communication failure, etc., the communication power could not be measured in the first place, but the monitoring beacon could be received, but the degree of communication failure after that There is also a problem that the measurement result cannot be replied when the condition deteriorates. In particular, when the measurement result cannot be returned, there is a problem in that the wireless LAN operation manager has trouble grasping the measurement result quickly, and the response to the communication failure is delayed.

  In the technique disclosed in Patent Document 2, the field strength is not measured when the field strength does not fall below the threshold due to radio wave interference from another access point, for example. There is a problem that it is not suitable for a site survey. Further, the technique disclosed in Patent Document 2 has a problem that it is difficult to detect that radio wave interference is received from another access point.

  The present invention has been made in view of the circumstances as described above, and measures the quality of a communication state in a place where the user is likely to use a wireless LAN without causing the user to perform a special operation. It is an object of the present invention to provide a technique that enables a wireless LAN operation manager to grasp the measurement result without delay.

  The present invention relates to a wireless terminal device, wireless communication means for transmitting and receiving data via a wireless LAN, determination means for determining whether or not the wireless terminal device is moving, and movement by the determination means Triggered by the fact that it is determined that it is not in the middle, the index indicating the quality of the communication state of the wireless LAN at the measurement position determined not to be moving by the determination means is measured, the measured index, Measurement that controls to transmit to a predetermined destination information that can specify a measurement position that is determined not to be moving by the determination means or information that indicates a measurement position that is determined not to be moving by the determination means A wireless terminal apparatus comprising: a control unit; Here, as a specific example of the index indicating the quality of the communication state, the communication power magnitude (electric field strength) of the communication radio wave transmitted from the access point of the wireless LAN, the frame transmitted from the access point (for example, CRC (Cyclic Redundancy Check) error occurrence rate (hereinafter, CRC error rate) for a beacon frame or the like, or a frame retransmission rate for a frame transmitted from the access point. Note that the CRC error rate calculation method and the frame retransmission rate calculation method will be clarified in the description of the embodiment of the present invention in order to avoid duplication.

  For example, when communication power is used as an index indicating the quality of the communication state, according to the wireless terminal device of the present invention, the mobile device moves when triggered by the determination that the device itself is not moving. The communication power at the measurement position determined not to be measured is measured, and information indicating the value of the measured communication power and information that can specify the measurement position or information indicating the measurement position are transmitted to a predetermined destination. Generally, a wireless terminal device is often carried by a user with its power turned on, and the fact that the wireless terminal device is not moving means that the user carrying the wireless terminal device is in one place. It means staying. Therefore, according to the wireless terminal device of the present invention, the communication transmitted from the access point of the wireless LAN when the user carrying the wireless terminal device with the power turned on remains in one place. The communication power at the location of the radio wave is measured.

  Here, assuming that the wireless LAN installed in the user's workplace is a wireless LAN whose communication quality is to be measured, the user is in his / her desk as a state where the user remains in one place in the workplace. A state in which some kind of business is being performed or a state in which a conference room is attended is conceivable. Since the user's desk or conference room is a place where the use frequency of the wireless LAN is considered to be high, according to the present invention, the place where the use frequency of the wireless LAN is considered to be high by the user of the wireless terminal device. Communication power can be measured efficiently and transmitted to a predetermined destination without delay.

  For example, when the wireless terminal device is a mobile phone having a wireless LAN access function such as a smartphone, that is, the wireless communication means has a function of transmitting and receiving data via a second wireless communication network different from the wireless LAN. If so, the wireless communication means may transmit information for specifying the measurement position or information indicating the measurement position and the measured index to a predetermined destination via the second wireless communication network. According to such an aspect, in the case where data communication cannot be performed via the wireless LAN that is the measurement target of the index indicating whether the communication state is good or not due to some communication failure (for example, interference due to radio waves transmitted from other access points). Even if it exists, it becomes possible to transmit the said parameter | index etc. to a predetermined destination without delay. Further, in the present invention, since the measurement of communication power and transmission of the measurement result to a predetermined destination are performed when the wireless terminal device is not moving, the user of the wireless terminal device is required to execute these measurements. Does not need to do anything.

  In addition, when the CRC error rate is used as an index indicating whether the communication state is good or bad, other wireless communication apparatuses (other access points or wireless devices performing the measurement) other than the original measurement target access point at the measurement position. It is possible to grasp the presence or absence of interference due to communication radio waves transmitted from other wireless terminal devices other than the terminal device. This is because a CRC error generally occurs when a frame is destroyed due to interference caused by communication radio waves transmitted from other access points. In addition, when the frame retransmission rate is used as an index indicating whether the communication state is good or bad, other wireless terminal devices (users of the wireless terminal devices) communicating with the access point around the wireless terminal device of the present invention It is possible to ascertain the communication state at the position of the wireless terminal device used by another person in the vicinity. That is, when communication power or CRC error rate is used as an index indicating the quality of the communication state, it is possible for the user of the wireless terminal device of the present invention to grasp the communication state of the wireless LAN at one point where movement has stopped. Thus, when the frame retransmission rate is used as the index, it is possible to grasp the communication state at a position around one point where the user stops moving. As described above, the communication power and the CRC error rate are different from each other at one point where it is estimated that the frequency of use of the wireless LAN by the user of the wireless terminal device is high (whether the radio wave reaches with sufficient strength, This is an index indicating the quality of the communication state viewed from the viewpoint of whether or not interference from other access points is received, and the frame retransmission rate is estimated to be high in the frequency of use of the wireless LAN by the user of the wireless terminal device It is an index indicating the quality of the communication state around the place (position of another wireless terminal device communicating with the access point). Of course, it is possible to evaluate the quality of the wireless LAN communication state even if only one of these three indicators is used, but an aspect in which any two of these three indicators are measured. It is possible to evaluate the communication state of the wireless LAN in a multifaceted and accurate manner, and according to the aspect of measuring all three indicators, the evaluation of the communication state of the wireless LAN is further expanded. And accuracy can be achieved.

  As a more preferable aspect, a timing unit is provided in the wireless terminal device, and when the determination unit determines that it is not moving, the timing unit starts timing and is determined not to be moving. There may be a mode in which an index indicating the quality of the communication state is measured at regular time intervals. According to this aspect, it is possible to grasp a change in communication state that changes every moment for a place where the use frequency of the wireless LAN is considered to be high.

  As another preferred mode, a position specifying means for specifying the position of the own apparatus is provided in the wireless terminal device, and the position specified by the position specifying means is included in the measurement control means within a predetermined region. There may be a mode in which the measurement of the communication state is executed on the condition that the position is. According to such an aspect, the entire workplace of the user of the wireless terminal device (or a specific area such as a conference room or a user's desk) is determined in advance as an area for measuring the communication state, It is possible to avoid unnecessary measurement of the communication state at a place (for example, the user's home).

  Furthermore, as another preferable aspect, when the measurement result determining means for determining an abnormality in the measurement result is provided in the wireless terminal device, and the measurement result determining means determines that there is an abnormality in the measurement result of the communication state, Another possible mode is to cause the measurement control means to execute a process of transmitting management information for dealing with an abnormality to a predetermined destination together with a measurement result of the communication state. For example, if the email address of a wireless LAN operation manager is set as the predetermined destination, the operation manager refers to the management information transmitted from the wireless terminal device together with the measurement result of the communication state, It is possible to deal with abnormalities as soon as possible.

  In addition, a server device that returns a fault isolation program in response to the transmission of the measurement result from the wireless terminal device is connected to the wireless LAN (or the second wireless communication network), and the communication address of the server device is set to the predetermined address. A mode is also conceivable in which the wireless terminal device executes a program returned from the server device while being determined as a destination. According to such an aspect, it becomes possible to automate identification and isolation of an abnormality or failure that has occurred during measurement of the communication state.

It is a block diagram which shows the structure of the radio | wireless terminal apparatus which is 1st Embodiment of this invention. It is a block diagram which shows the structure of the radio | wireless terminal apparatus which is 2nd Embodiment of this invention. It is a block diagram which shows the structure of the radio | wireless terminal apparatus which is 3rd Embodiment of this invention. It is a figure which shows the detail of a structure of the present location acquisition means in the wireless terminal device which is the embodiment. It is a figure which shows the structural example of the radio | wireless terminal apparatus provided with the application program management function which is 4th Embodiment of this invention. It is a flowchart which shows the process which judges whether the radio | wireless frame received in the radio | wireless terminal apparatus which is the embodiment is a beacon from the said BSS. It is a flowchart which shows the process which judges cancellation | release of the participation state to the said BSS in the radio | wireless terminal apparatus which is the embodiment. It is the flowchart which added the fault isolation | separation process to the process which judges whether the radio | wireless frame received in the radio | wireless terminal apparatus which is the embodiment is a beacon from the said BSS. It is a block diagram which shows the structure of the server apparatus which is 5th Embodiment of this invention.

Embodiments of the present invention will be described below with reference to the drawings.
(A: 1st Embodiment)
FIG. 1 is a diagram showing a configuration of a wireless terminal device according to the first embodiment of the present invention. This wireless terminal device is, for example, a smartphone, and a wireless LAN that is a first wireless communication network and a mobile phone network that is a second wireless communication network (more precisely, a mobile packet communication network included in the mobile phone network). These two communication paths can be used separately.

  Communication via a wireless LAN includes an antenna 106, a wireless LAN wireless unit 107, a channel selection unit 108, a carrier detection unit 109, a demodulation unit 112, a decoding unit 113, a wireless LAN authentication control unit 128, an encoding unit 119, and a modulation. This is realized by the unit 120.

  In a wireless LAN, data is transmitted and received in units of data blocks called MAC (Media Access Control) frames. When the MAC frame is transmitted from the wireless terminal device of FIG. 1 to the access point of the wireless LAN, the encoding unit 119 receives a digital bit string representing the MAC frame to be transmitted from the communication path selection unit 127, and transmits the wireless LAN to the MAC frame. Is applied to the modulation unit 120 after encoding according to the standard. The modulation unit 120 performs modulation (for example, Orthogonal Frequency Division Multiplexing (OFDM) modulation) on the digital bit string supplied from the encoding unit 119 in accordance with the wireless LAN standard, and is obtained by this modulation. A circuit signal is given to the wireless LAN wireless unit 107. The wireless LAN wireless unit 107 converts the output signal of the modulation unit 120 into communication power and applies it to the antenna 106, and the antenna 106 radiates the communication power to space. Thereby, transmission of the MAC frame from the wireless terminal device to the access point is realized.

  On the other hand, reception of the MAC frame transmitted from the access point is realized as follows. The antenna 106 gives the communication power received from the access point of the wireless LAN to the wireless LAN wireless unit 107, and the wireless LAN wireless unit 107 converts this communication power into a circuit signal and outputs it to the channel selection unit 108. Channel selection section 108 extracts a carrier signal and subcarrier signal of a specific channel from the output signal of wireless LAN radio section 107 and outputs the carrier signal and subcarrier signal to carrier detection section 109. The carrier detection unit 109 determines whether or not the communication power exceeds a certain threshold value for each of the carrier signal and the subcarrier signal output from the channel selection unit 108, and only signals having communication power exceeding the threshold value are determined. Output to demodulator 112. The demodulator 112 demodulates the digital bit string from the signal output from the carrier detector 109 and supplies the demodulated bit to the decoder 113.

  The decoding unit 113 decodes the digital bit string to restore the digital bit string before encoding (that is, the MAC frame transmitted from the access point of the wireless LAN). In addition, the decoding unit 113 determines whether or not there is a CRC error for the restored MAC frame and whether or not it is a retransmission frame, calculates a CRC error rate and a frame retransmission rate, and stores a storage unit (not shown) Write to. Here, the CRC error means that the checksum calculated from the restored MAC frame does not match the checksum written in the header portion of the MAC frame, and the CRC error rate is the restored MAC frame. The number of MAC frames in which CRC errors have occurred. The frame retransmission rate refers to the number of MAC frames retransmitted by the retransmission process with respect to the number of restored MAC frames. Refer to the header portion of the frame to determine whether the frame is retransmitted by the retransmission process. Can be determined. When calculating the frame retransmission rate, the decoding unit 113 calculates the frame retransmission rate for each destination MAC address, and when writing the frame retransmission rate to the storage unit, for each transmission destination MAC address (that is, The writing is performed in association with the destination MAC address.

  In general, MAC frames transmitted from an access point of a wireless LAN are roughly classified into a control frame related to an authentication procedure for participation in the wireless LAN and a data frame related to data transmission. When the decryption unit 113 obtains a control frame addressed to itself (that is, the destination MAC address matches the MAC address of the own device) by decryption, the decryption unit 113 displays the control frame as a wireless LAN authentication control unit 128. When a data frame addressed to the own device is obtained, the data frame is provided to the communication path selection unit 127. In addition, when the destination MAC address of the restored MAC frame does not match that of the own device, the decoding unit 113 does not transmit the frame to the own device. The frame is discarded without delivery.

  The wireless LAN authentication control unit 128 executes an authentication procedure for participating in a BSS (Basic Service Set) of the wireless LAN or a process for leaving the participating BSS. The communication path selection unit 127 performs transfer control or the like according to the destination MAC address when a MAC frame is given from the decoding unit 113, a later-described decoding unit 124, or the control unit of the wireless terminal device. Do. The execution history holding means 129 stores control content data (in particular, data indicating control content in the data link layer) indicating control events and the like executed by the respective units for wireless communication with a wireless LAN access point. Is retained.

  On the other hand, data communication via the mobile phone network is realized by the antenna 121, the mobile phone radio unit 122, the demodulator 123, the decoder 124, the encoder 125, and the modulator 126.

  When data is transmitted to a base station of a cellular phone network, a digital bit string representing data to be transmitted is given to the encoding unit 125 via the communication path selection unit 127. The encoding unit 125 performs encoding suitable for the mobile phone network on the digital bit string supplied from the communication path selection unit 127 and supplies the digital bit string to the modulation unit 126. The modulation unit 126 modulates the carrier signal of the mobile phone network using the digital bit string supplied from the encoding unit 125 to generate a circuit signal and supplies the circuit signal to the mobile phone network radio unit 122. The cellular phone network wireless unit 122 converts the circuit signal into communication power and gives the communication power to the antenna 121. The antenna 121 radiates the communication power to space. Thereby, transmission of data from the wireless terminal device to the base station is realized.

  Further, when the antenna 121 receives communication power transmitted from a base station antenna in the mobile phone network, the antenna 121 gives the communication power to the mobile phone radio unit 122. The mobile phone network radio unit 122 converts communication power given from the antenna 121 into a circuit signal and gives it to the demodulation unit 123. The demodulator 123 demodulates the input circuit signal, extracts a digital bit string before modulation, and supplies the digital bit string to the decoder 124. The decoding unit 124 decodes a digital bit string representing data before encoding from the digital bit string supplied from the demodulation unit 123. Thereby, reception of data transmitted from the base station is realized.

  The wireless terminal device according to the present embodiment performs communication for measuring communication power transmitted from a wireless LAN access point in addition to a function for performing data communication via a wireless LAN and a function for performing data communication via a mobile phone network. It has a power measurement function. In the present embodiment, a site survey of a wireless LAN (that is, measurement of the quality of the communication state of the wireless LAN) laid at the work place of the user of the wireless terminal device is realized using this communication power measurement function. The More specifically, the wireless terminal device according to the present embodiment includes an acceleration sensor 101, a movement determination unit 102, a time measurement unit 103, a measurement control unit 104, a wireless control unit 105, a communication as a configuration for realizing the site survey. It has a power measurement unit 110, a BSSID determination unit 114, a measurement result recording unit 111, a mail transmission control unit 115, a mail transmission unit 116, and a mail transmission destination information holding unit 118.

  The wireless control unit 105 and the communication power measuring unit 110 are an antenna 106, a wireless LAN wireless unit 107, a channel selection unit 108, a carrier detection unit 109, a demodulation unit 112, a decoding unit 113, a wireless LAN authentication control unit 128, and an encoding unit. The function of measuring communication power of the wireless LAN is realized together with 119 and the modulation unit 120. That is, in this embodiment, the antenna 106, the wireless LAN wireless unit 107, the channel selection unit 108, the carrier detection unit 109, the demodulation unit 112, the decoding unit 113, the wireless LAN authentication control unit 128, the encoding unit 119, and the modulation unit 120. , Antenna 121, mobile phone radio unit 122, demodulator 123, decoder 124, encoder 125, modulator 126, radio controller 105, and communication power measurement unit 110, communication power for measuring the communication power of the wireless LAN It plays the role of a wireless communication means for realizing a measurement function, a function for transmitting / receiving data via a wireless LAN, and a function for transmitting / receiving data via a mobile phone network.

  The acceleration sensor 101, the movement determination unit 102, and the time measuring unit 103 serve as a determination unit that determines whether or not the wireless terminal device is moving. In addition, the clock unit 103, the measurement control unit 104, the radio control unit 105, the communication power measurement unit 110, the BSSID determination unit 114, the measurement result recording unit 111, the mail transmission control unit 115, the mail transmission unit 116, and the mail transmission destination information holding The means 118 causes the wireless communication means to periodically measure the communication power at the location of the wireless terminal device at that time when the determination means determines that it is not moving, and the measured communication power It serves as a measurement control unit that causes the wireless communication unit to transmit a value and information for specifying the measurement position to a predetermined destination. Hereafter, each component which comprises the said determination means and the said determination control means is demonstrated.

  The acceleration sensor 101 is, for example, a three-axis acceleration sensor, periodically detects acceleration generated according to an external force applied to the wireless terminal device, and outputs acceleration data indicating the magnitude of the acceleration to the movement determination unit 102. The movement determination unit 102 determines whether or not the wireless terminal device is moving based on the acceleration data supplied from the acceleration sensor 101, and provides a determination result signal indicating the determination result to the measurement control unit 104. For example, when it is determined that the wireless terminal device is not moving, the movement determination unit 102 provides a determination result signal having a signal value of 1 to the measurement control unit 104, and in other cases, the determination result is 0. For example, a signal is supplied to the measurement control unit 104. More specifically, the movement determination unit 102 counts the time measured by the time measuring unit 103 when the acceleration data representing the acceleration within a predetermined range centered on the gravitational acceleration is received from the acceleration sensor 101. Start and continue that state (that is, a state in which the magnitude of acceleration detected by the acceleration sensor 101 is within a predetermined range centered on gravitational acceleration) for a predetermined time (for example, 30 minutes) If it is determined that the wireless terminal device is not moving. Although details will be described later, the measurement control unit 104 executes control for measuring communication power when the determination result signal having a signal value of 1 is received from the movement determination unit 102.

  In the present embodiment, the wireless terminal device is moving when a state where the magnitude of the acceleration detected by the acceleration sensor 101 is within a predetermined range centered on gravitational acceleration continues for a predetermined time. The reason for determining that there is no communication power measurement is as follows. The wireless terminal device of this embodiment is a smartphone, and is often carried by a user with the power turned on. When a user carrying the wireless terminal device performs an exercise such as walking, an external force corresponding to the exercise is applied to the wireless terminal device, and an acceleration generated according to the external force is detected by the acceleration sensor 101. On the other hand, when a user carrying a wireless terminal device is working at a desk, arriving at a meeting room desk, participating in a meeting, or taking a break on a break floor When the person stays in one place, the magnitude of the acceleration represented by the acceleration data is equal to or close to the magnitude of the gravitational acceleration. Therefore, in the present embodiment, communication power is measured when the user carrying the wireless terminal device stays at one place for a predetermined time. As mentioned above, if the user stays in a certain place without moving, such as at work, he / she must be at his / her desk and working in the conference room. Can be considered. Here, it can be said that a desk or a conference room where a user operates is a place where the user is highly likely to use a wireless LAN laid in the workplace. That is, in the present embodiment, in order to enable the wireless terminal device user to efficiently measure the communication power in a place where there is a high possibility of using the wireless LAN, the acceleration detected by the acceleration sensor 101 is measured. The communication power is measured when the state where the size is within a predetermined range centered on gravitational acceleration has continued for a predetermined time.

  In the present embodiment, not only the case where the state of the acceleration represented by the acceleration data is equal to the magnitude of the gravitational acceleration continues for a predetermined time, but also includes a case of a value in the vicinity thereof. When a user performs a fine exercise such as reaching for a document, the user (wireless terminal device carried by the user) is moving due to a fine acceleration caused by the exercise. This is to avoid erroneous determination. In order to avoid the occurrence of such a misjudgment, the detection value obtained by the acceleration sensor 101 may not be used as it is, but a moving average of detection values periodically detected by the acceleration sensor 101 may be used. .

  The measurement control unit 104 is, for example, a CPU, and controls the operation of other components constituting the measurement control unit in accordance with a measurement control program stored in advance in a storage unit (not shown) of the wireless terminal device. More specifically, the measurement control unit 104 determines whether or not the wireless terminal device participates in the BSS of the wireless LAN when the determination result signal having a signal value of 1 is received from the movement determination unit 102. The wireless LAN authentication control unit 128 is inquired, and when participating, the wireless LAN authentication control unit 128 is instructed to temporarily leave the BSS. Next, the measurement control unit 104 instructs the radio control unit 105 to measure the communication power for all radio channels and notifies the movement determination unit 102 of the start of measurement of the communication power. Receiving this notification, the movement determination unit 102 instructs the time measurement unit 103 to reset the time counted so far (time measured for movement determination), and the time measurement unit 103 responds to this reset instruction, Reset the time counted so far.

  The radio control unit 105 controls the operation of the channel selection unit 108 and the communication power measurement unit 110 when receiving an instruction to measure the communication power of all radio channels. Channel control section 108 repeats the process of selecting one of all radio channels and maintaining the state for a certain period of time under the control of radio control section 105 until all the radio channels are selected. . The communication power measurement unit 110 measures the communication power in the radio channel every time the channel selection unit 108 selects a radio channel. More specifically, when a radio channel is selected by the channel selection unit 108, first, carrier detection is performed to determine whether or not the communication power in the radio channel includes a frequency component having communication power exceeding a predetermined threshold. Determined by the unit 109. Carrier signal detection section 109 outputs a signal having a frequency component determined to have communication power exceeding the threshold value to communication power measurement section 110 and decoding section 113. The communication power measurement unit 110 measures the communication power of the signal output from the carrier detection unit 109 under the control of the radio control unit 105 and gives information indicating the value to the measurement control unit 104.

  Simultaneously with the measurement of the communication power in each radio channel, the reception signal in each radio channel is decoded into a MAC frame by the decoding unit 113 and then output to the BSSID determination unit 114. The BSSID determination unit 114 interprets the contents of the input MAC frame and outputs information indicating from which access point the MAC frame is transmitted to the measurement control unit 104. More specifically, the BSSID determination unit 114 reads the address (BSSID) of the access point included in the header part of the MAC frame given from the decoding unit 113, and the BSSID indicates the transmission source of the MAC frame. To the measurement control unit 104.

  Each time the channel selection unit 108 selects a radio channel, the measurement control unit 104 includes information indicating the value of the communication power measured by the communication power measurement unit 110 and the BSSID of the access point that radiated the communication power. Is entered. The measurement control unit 104 acquires information indicating the communication power and information indicating the time (that is, measurement time of the communication power) from the time measuring unit (not shown) every time the BSSID is received, and indicates the value of the communication power. Information, BSSID, and information indicating the measurement time are associated with each radio channel and output to the measurement result recording unit 111. The measurement result recording unit 111 is, for example, an EEPROM, and records information for each radio channel by associating information indicating the value of communication power provided from the measurement control unit 104, BSSID, and information indicating measurement time with each other.

  The measurement control unit 104 gives a notification that the measurement is completed to the mail transmission control unit 115 when the measurement of the communication power of all the wireless channels is completed. The mail transmission control unit 115 instructs the mail transmission unit 116 to transmit information related to the measurement result by mail to a predetermined destination when the notification is received. As a transmission destination of the information regarding the measurement result, for example, a mail address of a wireless LAN operation manager may be designated, and the mail address is stored in the mail transmission information holding unit 118 in advance.

  The mail transmission unit 116 reads information on the measurement result (that is, information indicating the communication power, BSSID, and measurement time for each wireless channel) from the measurement result recording unit 111 in accordance with the instruction given from the mail transmission control unit 115. Then, mail data in which the information is written in the text is created and transmitted to a predetermined destination using a protocol corresponding to a mail system such as an electronic mail or a short mail. The mail transmitted from the mail transmission unit 116 is transmitted via a communication network selected by the communication path selection unit 127 among the wireless LAN communication network and the mobile phone network. More specifically, the communication path selection unit 127 selects a communication path of either a wireless LAN or a mobile phone network according to the participation status in the BSS. That is, the communication path selection unit 127 selects the wireless LAN if participating in the wireless LAN BSS, and selects the mobile phone network if not participating in the wireless LAN BSS. In the present embodiment, the mobile phone network is selected as the communication path for transmitting mail because the communication power from the access point of the wireless LAN is disconnected from the BSS during measurement.

  As described above, in this embodiment, the measurement result of the index (communication power in this embodiment) indicating the quality of the communication state is obtained via the mobile communication network different from the wireless LAN that is the communication state measurement target. Sent by e-mail to the operation manager. The operation manager of the wireless LAN browses the body of the e-mail and makes a measurement by inquiring to the user of the wireless terminal device where it was at the time when the communication power of each wireless channel was measured. The position can be specified, and the communication state (communication power and BSS state) of the wireless channel at the measurement position can be grasped. That is, in the present embodiment, the information indicating the measurement time of communication power plays a role of enabling the operation manager to specify the measurement location. In the present embodiment, the measurement result is notified to the operation manager of the wireless LAN via a wireless communication network different from the wireless LAN whose communication state is to be measured. For this reason, when the communication power of the wireless LAN is not good, such as when the communication power transmitted from the access point of the wireless LAN is not sufficient or when there is interference with the communication power transmitted from another access point. In addition, the measurement result can be notified to the operation manager in real time. If communication via the mobile phone network cannot be performed, the mail transmission process in the mail transmission unit 116 fails due to timeout. In this case, the mail transmission process may be executed again by the mail transmission unit 116 after a predetermined time has elapsed. Furthermore, in the present embodiment, since the measurement of the communication state and transmission of the measurement result to a predetermined destination are performed when the wireless terminal device is not moving, the use of the wireless terminal device is necessary for these executions. There is no need for the person to perform any operation.

  In the present embodiment, the communication power of all radio channels is measured when it is determined that the wireless terminal device is not moving. However, the wireless terminal device is determined to be in a certain period of time while it is determined that the wireless terminal device is not moving. Each time elapses, the communication power may be measured and the measurement result transmitted to a predetermined destination. According to such an aspect, the communication power of each wireless channel changes from moment to moment (ie, the communication state of each radio channel changes from moment to moment) while the user stays in one place and works. Even if an event occurs, it is possible to accurately capture the event. In addition, the time counting unit 103 may be configured to measure the fixed time, and a second time measuring unit for measuring the fixed time is provided separately from the time measuring unit 103, and the second time measuring unit is configured to perform the second time measuring unit. May be.

  In this embodiment, the communication power of the communication radio wave transmitted from the access point is used as an index indicating the quality of the communication state. However, the CRC error rate for a frame (for example, a beacon frame) transmitted from the access point is used. Or a frame retransmission rate for a frame transmitted from the access point to another wireless terminal device may be used. Here, the frame retransmission rate for the frame transmitted from the access point to another wireless terminal device is used as the frame retransmission rate. The wireless terminal device of this embodiment is prior to the measurement of the index indicating the quality of the communication state. The wireless terminal device does not perform data communication with the access point after starting the measurement of the index, and the frame is retransmitted to the wireless terminal device. Because there is no.

  For example, when the CRC error rate is used as an index indicating whether the communication state is good or bad, the measurement control unit 104 may perform the following processing. That is, similar to the case where communication power is used as the index, the wireless LAN authentication unit 128 is temporarily disconnected from the participating BSS when the determination result signal having a signal value of 1 is received from the movement determination unit 102. Processing to instruct the movement determination unit 102 to instruct the movement determination unit 102 to start measurement of an index indicating whether the communication state is good or not, and initialize the CRC error rate stored in the storage unit ( Execute the process of clearing to zero. This is because the CRC error rates generated after the start of measurement of the communication state are tabulated. Thereafter, the measurement control unit 104 refers to the CRC error rate stored in the storage unit every time the BSSID is received from the BSSID determination unit 114, and records the BSSID and the CRC error rate together with information indicating the measurement time. It gives to the means 111. The subsequent processing is the same as when communication power is used as an index indicating the quality of the communication state.

  Further, when the frame retransmission rate is used as an index indicating the quality of the communication state, the measurement control unit 104 may be made to execute the following process. That is, similar to the case where communication power is used as the index, when the determination result signal having the signal value of 1 is received from the movement determination unit 102, the wireless LAN authentication unit 128 is temporarily suspended from the participating BSS. The measurement control unit 104 is caused to execute a process for instructing to leave and a process for notifying the movement determination unit 102 of the start of measurement of an index indicating whether the communication state is good, and further initializes the frame retransmission rate stored in the storage unit ( Execute the process of clearing to zero. This is because the frame retransmission rates generated after the start of measurement of the communication state are totaled. Thereafter, every time the BSSID is received from the BSSID determination unit 114, the measurement control unit 104 refers to the frame retransmission rate stored for each transmission destination MAC address in the storage unit, along with information indicating the measurement time, the BSSID, The destination MAC address and the frame retransmission rate are given to the measurement result recording unit 111. The subsequent processing is the same as when communication power is used as an index indicating the quality of the communication state. Here, the reason why the destination MAC address is included in the information given to the measurement result recording unit 111 is to allow the wireless LAN operation manager to specify the location where the frame retransmission occurs. More specifically, the operation manager of the wireless LAN specifies the wireless terminal device and the user based on the transmission destination MAC address transmitted together with the frame retransmission rate, and determines the measurement time transmitted together with the frame retransmission rate. The position of the wireless terminal device can be specified by inquiring where the user is at the measurement time based on the information shown.

  When the CRC error rate is used as an index indicating the quality of the communication state, it is possible to grasp the presence or absence of interference due to communication radio waves transmitted from other access points at the measurement position of the communication state. This is because a CRC error often occurs when a frame is destroyed due to interference caused by communication radio waves transmitted from other access points or other wireless terminal devices. In addition, when the frame retransmission rate is used as an index indicating the quality of the communication state, it is possible to grasp the radio wave condition at the position of another wireless terminal device that is communicating with the access point around the wireless terminal device according to the present invention. Is possible. That is, when communication power or CRC error rate is used as an index indicating the quality of the communication status, it is possible to grasp the communication status at the measurement position, and when the frame retransmission rate is used as the index. It becomes possible to grasp the communication state around the measurement position. That is, the communication power and the CRC error rate are different from each other in terms of the quality of the communication state at a place (one point) where the frequency of use of the wireless LAN by the user of the wireless terminal device is estimated to be high (the radio waves reach with sufficient strength). The frame retransmission rate is a place where it is estimated that the frequency of use of the wireless LAN by the user of the wireless terminal device is high. It is an index representing the quality of the communication state around the. Therefore, by measuring any two or all three of the three indicators of communication power, CRC error rate, and frame retransmission rate, the communication state of the wireless LAN can be evaluated accurately and multifaceted. Is possible.

(B: Second embodiment)
FIG. 2 is a diagram illustrating a configuration of a wireless terminal device according to the second embodiment of the present embodiment. The wireless terminal device shown in FIG. 2 is also a device that measures the communication power of the communication radio wave transmitted from the access point of the wireless LAN as an index indicating the quality of the wireless LAN communication state, similarly to the wireless terminal device of FIG. is there. It goes without saying that a CRC error rate or a frame retransmission rate may be used as an index indicating the quality of the communication state also in the present embodiment. In FIG. 2, the same components as those in FIG. 1 are denoted by the same reference numerals. As is clear from a comparison between FIG. 2 and FIG. 1, the wireless terminal device of the present embodiment is different from the wireless terminal device of the first embodiment in that it includes a measurement result determination unit 130.

  The measurement result determination unit 130 refers to the information recorded in the measurement result recording unit 111 and determines whether or not there is an abnormality in the measurement result of the index indicating the quality of the communication state. When there is an abnormality in the measurement result, an indicator indicating whether the communication state is good or not cannot be measured (when information indicating the communication power level, CRC error rate, frame retransmission rate is not recorded), or abnormal When an index of a correct value is measured (when extremely low communication power is measured such as below a predetermined threshold, or when an extremely high CRC error rate or extremely high frame retransmission such as exceeding a predetermined threshold) If the rate is measured). If the measurement result determination unit 130 determines that there is an abnormality, the measurement result determination unit 130 further classifies what type of abnormality (such as no communication power is measured or extremely low communication power is measured). Then, management information corresponding to the type of abnormality is created. This management information includes, for example, information that informs the occurrence of abnormality, information that prompts the administrator to change the radio wave condition, and information that indicates the priority for dealing with the problem. The measurement result determination unit 130 adds the management information generated in the above manner to the measurement result recording unit 111 and gives an instruction to the measurement control unit 104 to transmit the management information to a predetermined destination. Thereafter, similarly to the transmission of the measurement result, a mail is created for the management information and transmitted to a predetermined destination.

  According to the present embodiment, when an abnormality such as an inability to measure an index indicating whether the communication state is good or not occurs, management information for dealing with the abnormality is stored in a predetermined destination (the terminal of the wireless LAN operation manager). Etc.) promptly. For this reason, according to this embodiment, the operation manager of the wireless LAN quickly grasps the occurrence of an abnormality in the wireless LAN managed by the wireless LAN, and promptly copes with the abnormality while referring to the management information. It becomes possible. In addition, an execution history related to control of communication via a wireless LAN, device information of a wireless terminal device, and the like may be included in the management information, and only when there is an instruction from an administrator, the execution history and device information are included. You may make it transmit to an administrator.

(C: Third embodiment)
In the first embodiment described above, information indicating the time at which the measurement was performed is used as information for allowing the wireless LAN operation manager to specify the measurement position of the index indicating the quality of the communication state. The location of the measurement was specified by inquiring to the user of the wireless terminal device whether he was in However, with such a specifying method, it may be difficult to accurately specify the place where the index is measured. Therefore, a configuration for acquiring information indicating a measurement location of an index indicating whether the communication state is good or not may be added to the wireless terminal device. FIG. 3 is a diagram illustrating a configuration example of a wireless terminal device according to the third embodiment of the present invention. In FIG. 3, the same components as those in FIG. 1 are denoted by the same reference numerals. As is clear from a comparison between FIG. 3 and FIG. 1, the wireless terminal device of the present embodiment includes a current position acquisition unit 117 that acquires information indicating the current position of the device itself. Different from the wireless terminal device of the embodiment. In the following description, the case where communication power of a communication radio wave transmitted from a wireless LAN access point is used as an index indicating the quality of a communication state will be described. However, a CRC error is used instead of (or together with) the communication power. Of course, the rate or the frame retransmission rate (or both the CRC error rate and the frame retransmission rate) may be used.

  FIG. 4 is a diagram showing details of the configuration of the current position acquisition unit 117. The relative position storage unit 302 holds coordinate information indicating the current position of the wireless terminal device relative to a certain origin (that is, the current position of the user who owns the wireless terminal device). The origin refers to a position serving as a reference when mapping communication power measured at each position to a physical map. This origin is predetermined by the wireless LAN operation manager at one location within the wireless usage range where the user uses the wireless LAN, such as the corner or center of the user's workplace room. The origin reset means 301 is for causing the user to perform an operation for setting the origin. As this origin reset means 301, for example, a software button realized according to an application program for realizing measurement of communication power can be cited. When the user of the wireless terminal device of this embodiment goes to work, he first goes to a location corresponding to the origin determined by the wireless LAN operation manager, and performs an origin setting operation on the origin reset means 301. I do. Then, the relative position holding unit 302 resets the coordinate information held so far to predetermined coordinate information (for example, (0, 0)) indicating the origin.

  When the origin is reset as described above, the noise removing unit 304 calculates the moving average value of the acceleration data output from the acceleration sensor 101 and then moves to the moving distance calculating unit 307 and the moving direction determining unit 306. Output. This is because, as described above, by calculating the moving average value of the acceleration values, it is possible to remove the influence of the acceleration caused by the fine movement of the user. The movement distance calculation unit 307 starts the time measurement by the time measuring unit 305 when data representing acceleration that does not fall within a predetermined range centered on gravitational acceleration is given from the noise removal unit 304, and falls within the predetermined range. From the time measured until the data representing the acceleration to be accommodated is given from the noise removal unit 304 (that is, until the user of the wireless terminal device stops moving) and the information received from the noise removal unit 304 during that time, the user Are moved to the current position calculation unit 308 and the movement direction determination unit 306.

  The direction sensor 303 is, for example, a geomagnetic sensor, periodically detects the direction in which the wireless terminal device is facing, and sequentially outputs information indicating the direction to the movement direction determination unit 306. The moving direction determination unit 306 indicates the information held in the relative position storage unit 302 from the azimuth indicated by the information periodically output from the azimuth sensor 303 and the moving average value of the acceleration provided from the noise removal unit 304. The moving direction of the user viewed from the position is determined and output to the current position calculation unit 308.

  The current position calculation unit 308 is information stored in the relative position storage unit 302 from the information indicating the movement distance input from the movement distance calculation unit 307 and the information indicating the movement direction input from the movement direction determination unit 306. The relative current position viewed from the position indicated by is calculated and output to the relative position storage means 302. For example, when using a two-dimensional coordinate plane with the north-south direction as one coordinate axis and the east-west direction as the other coordinate axis, and displaying the site survey results with the north and east movements as positive movements when viewed from the origin In this case, the current position calculation unit 308 may be made to execute the process of calculating the current position by dividing the movement distance into the north-south direction movement distance and the east-west direction movement distance. The relative position storage unit 302 updates the information held so far with the new information when the information indicating the new current position is received. As described above, since the information indicating the current position of the user carrying the wireless terminal device (relative position viewed from a predetermined origin) is stored in the relative position holding unit 302, an index indicating whether the communication state is good or bad is stored. When specifying the measurement position, information stored in the relative position holding means 302 may be referred to.

  In the present embodiment, the current position of the user of the wireless terminal device is calculated by calculation based on the magnitude of the acceleration detected by the acceleration sensor 101 and the orientation of the wireless terminal device detected by the direction sensor 303. It is good also as a structure which specifies a present position using a global positioning system (GPS).

  Further, when the current position acquisition unit 117 is provided in the wireless terminal device as in the present embodiment, an area for measuring the communication state is determined in advance, and the current position represented by the information acquired by the current position acquisition unit 117 The measurement control unit 104 may be made to measure the communication state only when is within the region. For example, an area corresponding to the user's workplace is defined as the area. In this way, measurement of the communication state is performed only when the user is in a specific area (for example, in the workplace), and measurement is not performed when the user is outside the specific area (for example, at home), which is useless. It becomes possible to avoid measurement of the communication state.

(D: 4th Embodiment)
In each of the above-described embodiments, in order to cause the measurement control unit 104 to perform measurement control of an index using communication power of a communication radio wave transmitted from an access point of the wireless LAN as an index indicating whether the communication state of the wireless LAN is good or bad. Was previously stored in a storage unit (not shown) of the wireless terminal device. However, the wireless terminal device is caused to execute a process of acquiring a measurement control program by downloading from a server device provided in a wireless LAN or a cellular phone network and storing it in a storage unit (or overwriting an existing measurement control program). May be. According to such an aspect, it is possible to easily switch the measurement target index, upgrade the measurement control program, and newly add the communication state measurement function according to the present invention. In addition, measurement that downloads and executes a measurement control program, a program for analyzing measurement results, and the like (hereinafter collectively referred to as “measurement program”) in accordance with instructions given by the operation manager of the wireless LAN A program management function may be added to the wireless terminal device. The fourth embodiment of the present invention is characterized in that the measurement program management function is provided in a wireless terminal device. Hereinafter, the fourth embodiment of the present invention will be described by taking as an example a case where a new measurement program is downloaded from the server device provided in the mobile phone network.

  FIG. 5 is a diagram illustrating a configuration example of the wireless terminal device of the present embodiment. The IP packet transmission / reception unit 201 transmits / receives IP packets to / from other devices (for example, an administrator terminal used by a wireless LAN operation manager or the server device) connected to the mobile phone network. When receiving an IP packet instructing execution of downloading of a new measurement program, the IP packet transmission / reception unit 201 delivers this IP packet to the measurement program management unit 202.

  The measurement program management unit 202 is a functional unit that manages storage and execution of measurement programs. When the measurement program management unit 202 receives an IP packet instructing execution of downloading of a new measurement program, the measurement program management unit 202 downloads the program instructed to download by the IP packet from the server device to the application program management unit 205. Instruct.

  The application program management unit 205 is a functional unit that manages all application programs stored in the wireless terminal device. When the application program management unit 205 is instructed to download a new program from the measurement program management unit 202, the application program management unit 205 instructs the file transfer control unit 203 to download the program from the server device.

  The file transfer control unit 203 is a functional unit that performs file transfer control such as FTP. The file transfer control unit 203 downloads a program designated by the application program management unit 205. At this time, the installation authentication control unit 204 confirms an electronic signature indicating that the server is a legitimate server apparatus and that it is a legitimate program so that an unauthorized program is not acquired from the unauthorized server apparatus. The program downloaded by the file transfer control unit 203 is held in the application program holding unit 206.

  When the program download is successful, the application program management unit 205 notifies the measurement program management unit 202 that the download is complete. Upon receiving the notification that the download is complete, the measurement program management unit 202 executes the program to the measurement program execution control unit 207 immediately after the download is completed or in response to an instruction given from the application program management unit 205. The measurement program execution control unit 207 instructs the application program execution control unit 208 to execute the program. Upon receipt of this instruction, the application program execution control unit 208 stops the execution of the other program being executed at that time and executes the downloaded program or downloads the program in parallel with the other program by multitasking. Run the program.

  For example, before downloading a new measurement program from the server device, communication power is used as an index indicating the quality of the wireless LAN communication state, and the received wireless frame is a beacon from the BSS during the measurement. Assume that the wireless terminal device stores a measurement program that causes the measurement control unit 104 to execute a process for determining whether or not to cancel the BSS participation state (see FIG. 7). In the wireless terminal device that is executing this measurement program, the following processing is executed when a wireless frame is received. First, the presence / absence of a CRC error is determined for the received radio frame (FIG. 6: step SA100). If the determination result is “Yes” (that is, it is determined that there is a CRC error), the frame Is destroyed. (Step SA110). Conversely, if the determination result in step SA100 is “No”, it is determined whether the received radio frame is a control frame (step SA120). If the determination result is “No” (ie, When the received radio frame is a data frame), processing relating to the data frame is executed (step SA130). When the determination result of step SA120 is “Yes”, it is determined based on the content of the received radio frame whether or not it is a beacon from the BSS in which the wireless terminal device participates (step SA140). If the determination result is “No”, it is determined that the beacon is from another BSS, and the determination of the participation state is ended. Conversely, if the determination result in step SA140 is “Yes”, a process of resetting the connection protection counter to a predetermined value is executed (step SA160).

  As shown in FIG. 7, the connection protection counter is a counter used to determine whether or not to maintain the state of participating in the BSS. As shown in FIG. 7, the connection protection counter is counted down according to the interval timer (step SB100). When the connection protection counter falls below a certain value (FIG. 7: step SB110: No), the participation state in the BSS is canceled (step SB120). . Conversely, when the value of the connection protection counter has not reached a certain value (FIG. 7: Step SB110: Yes), the state of participating in the BSS is maintained. If the beacon transmitted from the participating BSS is normally received before the value of the connection protection counter is counted down to a certain value, the countdown of the connection protection counter is reset to a predetermined value, and the participation state in the BSS Is continued.

Here, let us consider a case where a failure occurs in which the state of participation in the BSS is canceled by mistake. The phenomenon that the participation state in the BSS is canceled by mistake occurs when the connection protection counter is counted down to a value lower than the predetermined value, and the causes are as follows (a), (b), and ( c) is conceivable.
(A) The communication power from the access point did not reach the position of the wireless terminal device, and the beacon of the participating BSS could not be detected.
(B) Although communication power has arrived, a CRC error occurred and the beacon could not be detected. As described above, such an event may occur when a collision between a radio frame of another BSS and a radio frame of the BSS occurs due to interference from another BSS.
(C) Although the beacon was correctly detected, an unexpected failure occurred in terminal control on the wireless terminal device side, and the connection protection counter was counted down to a value below the predetermined value.

  When the operation manager of the wireless LAN browses the email transmitted from the wireless terminal device using the administrator terminal and grasps the occurrence of the failure based on the management information included in the email, the failure In order to determine whether the cause is the above (a), (b), or (c), a new measurement program (a program for causing the wireless terminal device to execute the process shown in FIG. 8 instead of the process shown in FIG. 6) An IP packet instructing the download of the data is transmitted from the administrator terminal to the wireless terminal device. In the wireless terminal device, the measurement program is updated upon receiving this IP packet.

  As is apparent from a comparison between FIG. 8 and FIG. 6, the process shown in FIG. 8 is the process of steps SC100 to SC150 prior to the process of step SA110 when the determination result of step SA100 is “Yes”. 6 is different from the process shown in FIG. 6 in that the process of steps SC160 and SC170 is executed prior to the process of step SA160 when the determination result of step SA140 is “Yes”. In step SC100 in FIG. 8, backtrace information indicating the occurrence of a CRC error is recorded. In step SC110 to be executed next, a calculation of a CRC error rate which is a ratio of a CRC error to a received frame and a process of recording the CRC error rate as backtrace information are executed. That is, the program shown in FIG. 8 is a program for measuring the CRC error rate as an index indicating the quality of the communication state. In the next step SC120, an attempt is made to extract as much MAC header information as possible from the frame determined to have a CRC error. When the MAC header information cannot be acquired (FIG. 8: Step SC130: No), the process of Step SA110 described above is executed. When the MAC header information can be acquired (Step SC130: Yes), An attempt is made to extract the participating BSS beacons from the MAC header information. If the beacon from the BSS cannot be extracted (step SC140: No), the process of step SA110 described above is executed. If the beacon is extracted, information indicating the beacon is recorded as backtrace information (step SC150). ) To discard the frame. In the process shown in FIG. 8, backtrace information that the beacon of the participating BSS is acquired is recorded in step SC <b> 160 that is subsequently executed when the determination result in step SA <b> 140 is “Yes”. In step SC170 executed subsequent to step SC160, a process of recording the protection counter value at that time (that is, a value indicating the elapsed time from the detection of the previous beacon) as backtrace information is executed. Step SA160 is executed.

  If no backtrace information is recorded as a result of executing the processing shown in FIG. 8, it means that the wireless terminal device has not received any wireless frames, and therefore the communication power is measured by the wireless terminal device. It can be determined that the communication power from the access point has not arrived at the position where the above is performed. Therefore, it is possible to determine whether or not the cause of the cancellation of the BSS participation state is the cause (a) depending on whether or not backtrace information is recorded.

  On the other hand, when the back trace information is recorded, the cause (b) and the cause (c) can be separated by referring to the back trace information. For example, if a CRC error is detected and a CRC error rate is recorded, it can be determined that the participation state of the BSS has been canceled due to the cause (b). Even if a CRC error occurs, it can be determined whether or not the frame is from the BSS as long as the MAC header information of the frame is not destroyed, and the participation is canceled due to the cause (b). It can be auxiliary information on whether or not. When backtrace information indicating that a beacon is detected is recorded, it can be determined that the participation state of the BSS has been canceled due to the cause (c). In this case, information indicating how much time has passed since the previous beacon was detected is also recorded, and can be used as auxiliary information for more detailed cause determination.

  As described above, according to the present embodiment, the measurement program is updated by using the occurrence of a failure such as the release of the BSS connection state as a trigger, and additional information (which differs from the communication power) for investigating the cause of the connection release. It is possible to automatically collect indicators indicating the quality of wireless LAN communication status from the viewpoint, in this embodiment, CRC error rate), and it is possible to quickly identify and isolate the cause of an abnormality or failure Become. It is also possible to obtain detailed information by causing the wireless terminal device to download and execute a measurement program for conducting further detailed investigation based on the obtained additional information.

(E: 5th Embodiment)
In each of the above-described embodiments, the case has been described where the notification destination of the measurement result of the index indicating the quality of the communication state is the manager terminal. However, as a matter of course, the server device in the fourth embodiment may be the notification destination of the measurement result. According to such an aspect, it is possible to cause the server device to determine whether or not detailed analysis is necessary based on the measurement result notified from the wireless terminal device, and to automate downloading and execution of a program for detailed analysis. become. FIG. 9 is a block diagram showing the configuration of the server device of this embodiment. In FIG. 9, mail sent from the wireless terminal device is stored in an external mail server, and the server device shown in FIG. 9 is configured to acquire mail from the mail server.

  The IP packet transmission / reception unit 402 performs network layer communication with the wireless terminal device or the mail server through the network communication unit 401. The mail acquisition control unit 403 acquires a mail from the mail server via the IP packet transmission / reception unit 402 using a mail acquisition protocol such as POP3, and sends the mail to the mail analysis unit 404. The mail analysis unit 404 analyzes the header and body of the mail and classifies the information described in the mail into information indicating a measurement result of the communication state, information indicating a warning, and information indicating an execution history. Then, the mail analysis unit 404 sends information indicating the measurement result of the communication state to the measurement result analysis unit 405, information indicating the warning to the warning information analysis unit 406, and information indicating the execution history to the terminal execution history analysis unit 407, respectively. Output.

  The measurement result analysis unit 405 classifies the content of the information indicating the measurement result of the communication state for each measurement position and each measurement time, converts it into a reusable file format, and records it in the measurement result storage unit 408. The information stored in the measurement result storage unit 408 is used for grasping the situation of the administrator. The radio wave status visualization diagram generation unit 409 reads the information stored in the measurement result storage unit 408 and, for example, a wireless LAN service area map (in the case of a wireless LAN laid in the user's workplace, A figure representing the value of the index indicating the quality of the communication state at the position where the user stayed and the time at which the user stayed and the state of the change are superimposed on the information indicating the floor map and the like. The diagram created by the radio wave status visualization diagram creation unit 409 is output to the radio wave status display unit 410. The radio wave status display unit 410 displays the above diagram to the administrator through a user interface unit 411 such as a graphical user interface operated by the administrator.

  The warning information analysis unit 406 analyzes the content of the information indicating the warning, converts it into a reusable file format, and records it in the warning information storage unit 412. The warning display unit 413 reads the information stored in the warning information storage unit 412 and displays information indicating the warning to the administrator through the user interface unit 411.

  The terminal execution history analysis unit 407 analyzes the content of information indicating the execution history of the wireless terminal device, converts it into a reusable file format, and records it in the terminal execution history storage unit 414. Information indicating the execution history recorded in the terminal execution history means 414 is read and referred to by the administrator as necessary.

  Information indicating each analysis result is input to the measurement program selection unit 415 from the measurement result analysis unit 405, the warning information analysis unit 406, and the terminal execution history analysis unit 407. The measurement program selection unit 415 detects characteristic changes in the situation such as when a beacon that has been received until then can no longer be received suddenly and the occurrence of an abnormality by analyzing the information indicating each analysis result. The measurement program selection unit 415 collates the detected change or abnormality of the situation with the conditions held in the measurement program selection condition holding unit 416, and selects a measurement program corresponding to the corresponding condition. The measurement program selection unit 415 instructs the measurement program transfer control unit 417 to transmit to the wireless terminal device an IP packet that instructs the download of the selected measurement program. Instead of instructing the wireless terminal device to download the measurement control program, the measurement program may be transmitted directly to the wireless terminal device to instruct its storage and execution.

  In response to a download request received from the wireless terminal device or an instruction from the measurement program transfer control unit 417, the file transfer control unit 419 reads a measurement program to be transmitted from the measurement program holding unit 420 to the wireless terminal device, and transmits and receives IP packets. The data is transmitted to the wireless terminal device via unit 402 and network communication unit 401. The installation authentication control unit 418 responds to the authentication request from the wireless terminal device, and exchanges information necessary for authentication.

  As described above, according to the present embodiment, when a characteristic change or abnormality appears in the communication state of the wireless LAN based on various information acquired by the wireless terminal device, it is possible to deal with the change or abnormality. The measurement control program is automatically transmitted to the wireless terminal device, and it becomes possible to quickly cope with the change or abnormality.

(F: deformation)
As mentioned above, although each embodiment of this invention was described, it is needless to say that the following modifications may be added to these embodiments.

(1) The wireless terminal device of each of the above embodiments is configured to be able to use both a wireless LAN (first wireless communication network) and a cellular phone network (second wireless communication network). Here, the second wireless communication network is not limited to the mobile phone network, and may be a wireless LAN based on a standard different from the wireless LAN or an Internet network connected to the wireless LAN. When the second wireless communication network is the Internet network, a free mail service or the like may be used for transmission / reception of mail for transmitting the measurement result of the communication state of the first wireless communication network to a predetermined destination. good.

(2) In each of the above embodiments, a function of transmitting and receiving data via the first wireless communication network (in the above embodiments, a wireless LAN), and a function of measuring communication power in the first wireless communication network The present invention is applied to a wireless terminal device having wireless communication means having a function of transmitting and receiving data via a second wireless communication network different from the first wireless communication network. However, a function of transmitting and receiving data via a second wireless communication network that is different from the first wireless communication network, which is a communication power measurement target, is not necessarily required. In other words, the antenna 121, the mobile phone radio unit 122, the demodulation unit 123, the decoding unit 124, the encoding unit 125, and the modulation unit 126 in the above embodiments are not essential components of the radio terminal device according to the present invention. It can be omitted. When the wireless terminal device of each of the above embodiments does not have a function of performing data communication via the mobile phone network, after completion of measurement of the communication power in the wireless LAN, the wireless terminal device returns to the BSS as a trigger. Then, information indicating the measurement result may be transmitted to a predetermined destination. That is, if the wireless terminal device has wireless communication means for measuring an index indicating the quality of the communication state in the wireless communication network and transmitting / receiving data via the wireless communication network, the present invention is applied and the device moves. Determining means for determining whether or not the wireless communication network is in progress, and the wireless communication means so as to measure an index indicating whether the communication state of the wireless communication network is good or not when the determination means determines that it is not moving And measuring control means for controlling the wireless communication means so as to transmit information that can specify the measurement position or information indicating the measurement position and the measured index to a predetermined destination, The problem described in the above can be solved.

(3) In each of the above embodiments, the case where a smartphone is used as the wireless terminal device has been described. A mobile terminal such as a smartphone typically includes an acceleration sensor, a direction sensor, and the like in addition to wireless communication means for measuring an index indicating the quality of a communication state in a wireless communication network and transmitting / receiving data via the wireless communication network. This is because it is particularly suitable for implementing the present invention. However, the application target of the present invention is not limited to a smartphone, and can be applied to any mobile terminal device such as a general mobile phone or tablet terminal having a program execution function. In short, in addition to the wireless communication means, an electronic device provided with a configuration for realizing the determination means (acceleration sensor, azimuth sensor, etc.) and a configuration for realizing the measurement control means (for example, program execution means). I need it.

  DESCRIPTION OF SYMBOLS 101 ... Acceleration sensor, 102 ... Movement determination part, 103 ... Time measuring part, 104 ... Measurement control part, 105 ... Wireless control part, 106, 121 ... Antenna, 107 ... Wireless LAN radio | wireless part, 108 ... Channel selection part, 109 ... Carrier Detection unit, 110 ... Communication power measurement unit, 111 ... Measurement result recording means, 112, 123 ... Demodulation unit, 113, 124 ... Decoding unit, 114 ... BSSID determination unit, 115 ... Mail transmission control unit, 116 ... Mail transmission unit DESCRIPTION OF SYMBOLS 117 ... Current position acquisition means, 118 ... Mail transmission destination information holding means, 119, 125 ... Encoding part, 120, 126 ... Modulation part, 122 ... Mobile telephone network wireless part, 127 ... Communication path selection part, 128 ... Wireless LAN authentication control unit, 129... Execution history holding unit, 130... Measurement result determination unit, 201 and 402. Gram management unit, 203, 419 ... file transfer control unit, 204, 418 ... installation authentication control unit, 205 ... application program management unit, 206 ... application program holding means, 207 ... measurement program execution control unit, 208 ... application program execution control , 301 ... Origin reset means, 302 ... Relative position storage means, 303 ... Direction sensor, 304 ... Noise removal section, 305 ... Time measurement means, 306 ... Movement direction determination section, 307 ... Movement distance calculation section, 308 ... Current position Calculation unit 401 ... Network communication unit 403 ... Mail acquisition control unit 404 ... Email analysis unit 405 ... Measurement result analysis unit 406 ... Warning information analysis unit 407 ... Terminal execution history analysis unit 408 ... Measurement result storage unit 409: Radio wave state visualization diagram generation unit 410: Electricity Status display unit, 411... User interface unit, 412... Warning information storage unit, 413... Warning display unit, 414... Terminal execution history storage unit, 415. Program transfer control unit 420... Measurement program holding means.

Claims (22)

A wireless portable terminal device,
Wireless communication means for transmitting and receiving data via a wireless LAN;
Determining means for determining whether or not the wireless portable terminal device is moving;
Triggered by the determination unit determining that it is not moving, an index indicating whether the wireless LAN communication state is good or not at the measurement position determined by the determination unit not to be moved was measured. The index and the information that can specify the measurement position determined not to be moving by the determination unit or the information that indicates the measurement position determined to be not moving by the determination unit are transmitted to a predetermined destination. Measurement control means for controlling
A wireless portable terminal device comprising: The wireless portable terminal device according to claim 1, wherein the information that can specify the measurement position is information indicating a relative position with respect to a predetermined origin. The measurement control means includes
The wireless communication unit is controlled to transmit the measured index and information that can specify the measurement position or information indicating the measurement position to a predetermined destination. Item 3. The wireless portable terminal device according to Item 2. The wireless communication means includes
Sending and receiving data via a second wireless communication network different from the wireless LAN,
The measurement control means includes
The wireless communication means is controlled to transmit the measured index and information that can specify the measurement position or information indicating the measurement position to a predetermined destination via the second wireless communication network. The wireless portable terminal device according to claim 1, wherein the wireless portable terminal device is a wireless mobile terminal device. A communication path selection unit that selects a communication path of the wireless LAN and the second wireless communication network according to the participation status of the wireless LAN in the BSS;
The radio so as to transmit the measured index and information that can specify the measurement position or information indicating the measurement position to a predetermined destination via the communication path selected by the communication path selection unit The wireless portable terminal device according to claim 4, wherein the communication unit is controlled. The communication path selection unit selects the wireless LAN if participating in the BSS of the wireless LAN, and selects the second wireless communication network if not participating in the BSS of the wireless LAN. The wireless portable terminal device according to claim 5. An authentication procedure for participating in the BSS of the wireless LAN, or a wireless LAN authentication control unit for executing processing for leaving the participating BSS;
The measurement control means inquires of the wireless LAN authentication control unit whether or not it participates in the BSS of the wireless LAN, and if it participates, the wireless LAN authentication control unit performs a temporary disconnection from the participating BSS. The wireless portable terminal device according to claim 5, wherein the wireless portable terminal device is instructed. The wireless portable terminal device according to any one of claims 4 to 6, wherein the second wireless communication network is a cellular phone network. The wireless portable terminal device according to claim 8, wherein the wireless portable terminal device is a mobile phone or a smartphone. The measurement control means includes
The wireless communication so as to transmit the measured index and the information indicating the measurement position or the information indicating the measurement position to the predetermined destination without delay from the measurement of the index indicating the quality of the communication state. The wireless portable terminal device according to any one of claims 2 to 9, wherein means is controlled. The index indicating the quality of the communication state includes the magnitude of communication power of the communication radio wave transmitted from the access point of the wireless LAN, the CRC error rate of the frame transmitted from the access point, and the frame transmitted from the access point The wireless portable terminal device according to claim 1, comprising at least two frame retransmission rates for. The wireless portable terminal device according to claim 11, wherein the frame retransmission rate is a frame retransmission rate for a frame transmitted from the access point to another wireless portable terminal device. It has a timer,
The measurement control unit causes the timing unit to start timing when the determination unit determines that it is not moving, and the determination unit determines that the measurement unit is not moving for a certain period of time. The wireless portable terminal device according to any one of claims 1 to 12, wherein the wireless communication unit is controlled to measure the index at intervals. It has a position specifying means for specifying the position of its own device,
The measurement control means controls the wireless communication means to measure the index on condition that the position specified by the position specifying means is a position within a predetermined region. The wireless portable terminal device according to any one of claims 1 to 13. The wireless communication means includes
The wireless portable terminal device according to any one of claims 1 to 14, wherein, in addition to transmission / reception of data via the wireless LAN, an index indicating a quality of a communication state in the wireless LAN is measured. . Comprising a measurement result judging means for judging an abnormality in a measurement result of an index indicating whether the communication state in the wireless LAN is good or bad;
The measurement control unit controls the wireless communication unit to transmit management information for dealing with an abnormality to the predetermined destination when the measurement result determination unit determines that there is an abnormality in the measurement result. The wireless portable terminal device according to any one of claims 1 to 15, wherein the wireless portable terminal device is a device. Comprising a measurement result judging means for judging an abnormality in a measurement result of an index indicating whether the communication state in the wireless LAN is good or bad;
The measurement control unit generates management information according to the type of abnormality when the measurement result determination unit determines that the measurement result is abnormal, and transmits the management information to the predetermined destination. The wireless portable terminal device according to claim 1, wherein the wireless communication unit is controlled. 18. The management information includes at least information notifying occurrence of an abnormality, information for prompting an administrator to change a radio wave condition, and information indicating a priority for dealing with a problem. The wireless portable terminal device according to 1. The destination according to any one of claims 1 to 18, wherein the destination is a server device, and a fault isolation program returned from the server device is executed in response to transmission of the measurement result. The wireless portable terminal device described. Said destination is a server device, a wireless mobile according to any one of claims 16 to 18, characterized in that executing the program for fault isolation returned from the server apparatus in response to the management information Terminal device. A method for measuring a communication state in a wireless LAN,
A measurement position that is determined not to be moved when the wireless portable terminal device that transmits and receives data via the wireless LAN determines whether or not the device is moving and has determined that the device is not moving A first step of measuring an index indicating whether the wireless LAN communication state is good or bad in
The wireless portable terminal device transmits the measured index and information indicating the measurement position determined not to be moving or information indicating the measurement position determined to be not moving to a predetermined destination. Two steps,
Measuring method including A program for a wireless portable terminal device,
Wireless portable terminal computer
Wireless communication means for transmitting and receiving data via a wireless LAN;
Determining means for determining whether the computer is moving;
Triggered by the determination unit determining that it is not moving, an index indicating whether the wireless LAN communication state is good or not at the measurement position determined by the determination unit not to be moved was measured. The index and the information that can specify the measurement position determined not to be moving by the determination unit or the information that indicates the measurement position determined to be not moving by the determination unit are transmitted to a predetermined destination. Measurement control means for controlling
A program for a wireless portable terminal device characterized by causing the function to function.

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