JP2019016175A - Vehicle measurement system, vehicle measurement method, and vehicle measurement program - Google Patents

Abstract

To provide a vehicle measurement system, a vehicle measurement method, and a vehicle measurement program that, even in a case where vehicles and drivers are exchanged, can grasp physical amounts concerning each vehicle, such as a travel distance, for each driver correctly and easily.SOLUTION: A plurality of ID transmission means 11 are installed in different vehicles, and transmit specific ID information periodically. A measurement terminal 12 has: ID storage means 21a that previously stores one or more pieces of ID information of ID information of each of the ID transmission means 11 as operation ID information; receiving means 22 that performs short-range radio communication with the ID transmission means 11 installed in a brought vehicle to receive ID information; measuring means that continuously measures physical amounts while ID information received by the receiving means 22 agrees with one piece of the operation ID information stored in the ID storage means 21a; and measured data storage means 21b that stores measured physical amounts with corresponding ID information.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a vehicle measurement system, a vehicle measurement method, and a vehicle measurement program.

  Conventionally, as a system for measuring a physical quantity related to a vehicle, for example, there is a system that measures a travel distance of a vehicle. The measured travel distance is displayed on an odometer on the front panel of the vehicle, a dedicated terminal fixed to the vehicle, a car navigation device, etc., and provided to the driver.

  For example, as shown in FIG. 4, a vehicle speed pulse generator 105 generates a pulse signal every time the axle rotates a certain number of times, and the pulse signal is used as an interface device. 104 is input to the arithmetic circuit 103 via the arithmetic circuit 103, and the arithmetic circuit 103 calculates the travel distance based on the generation frequency of the pulse signal, the rotational speed of the axle between the pulse signals, and the tire outer diameter, and calculates the calculated travel distance. There is one that constantly monitors the display circuit 102 and reflects the value on the display device 101 (see, for example, Patent Document 1).

  In addition, as shown in FIG. 5, the GPS positioning circuit 204 equipped with a GPS receiver installed in a vehicle is used as a GPS satellite at a certain time interval (mostly 1 second or 0.1 second). The absolute position (latitude, longitude, altitude) of the vehicle is calculated from the signal received from the vehicle and input to the arithmetic circuit 203. The arithmetic circuit 203 calculates the travel distance from the difference between the absolute position calculated last time and the absolute position calculated this time. There is one that calculates, constantly monitors the calculated travel distance by the display circuit 202, and reflects the value on the display device 201 (see, for example, Patent Document 2).

  Further, there is a technique that prevents the mileage from being falsified by transmitting the mileage obtained in this way to a remote database and storing it in correspondence with an identification number associated with the vehicle (for example, Patent Document 3 or 4).

JP 7-218282 A JP 2011-149842 A JP 2014-112364 A Japanese Patent No. 4225621

  Transportation companies, taxi companies, bus companies, etc. need to know the mileage of each operating vehicle for each driver in order to manage the operation of drivers and vehicles. Even when changing to a different operation vehicle, it is necessary to accurately measure the mileage of each operation vehicle for each driver. However, in the mileage measurement systems described in Patent Documents 1 to 4, in order to grasp the mileage of each driver, for example, every time the driver of the operating vehicle changes, the driver and the mileage at that time are determined. There is a problem that it is necessary to record in a memo or the like, and the operation becomes complicated.

  In addition, in order to grasp the travel distance of each driver, for example, each driver may carry a GPS positioning circuit as described in Patent Document 2, but whether the driver is traveling on an operational vehicle, or There is also a problem that it is impossible to determine whether the vehicle is moving by other means (walking, vehicles other than the operation vehicle, etc.), and it is impossible to accurately grasp the travel distance of each driver.

  The present invention has been made paying attention to such a problem, and even when the vehicle and the driver are switched, the physical quantity related to each vehicle such as the travel distance can be accurately and easily grasped for each driver. An object is to provide a vehicle measurement system, a vehicle measurement method, and a vehicle measurement program.

  In order to achieve the above object, a vehicle measurement system according to the present invention is installed in each different vehicle, and a plurality of ID transmission means for periodically transmitting unique ID information at predetermined time intervals, and for each vehicle. An ID storage means for storing one or more pieces of ID information among the ID information of each ID transmission means as operation ID information in advance. And when it is brought into one of the vehicles, the short distance wireless communication is performed with the ID transmission means installed in the brought-in vehicle so that the ID information transmitted periodically can be received. The ID information received by the receiving means and capable of measuring a predetermined physical quantity and periodically received by the receiving means matches with one of the operation ID information stored in the ID storage means, Physical quantity A measurement unit configured to perform measurement continuously, the physical quantity measured by said measuring means, and having a measured data storage means for storing together with the corresponding the ID information.

  The vehicle measurement method according to the present invention is a vehicle measurement method using a vehicle measurement system having a plurality of ID transmission units installed in different vehicles and a measurement terminal provided so as to be brought into each vehicle. Each ID transmission means periodically transmits unique ID information at a predetermined time interval, and the measurement terminal receives one or more ID information of the ID information of each ID transmission means, An ID storage step stored in advance as operation ID information, and when brought into one of the vehicles, short-range wireless communication is performed between the ID transmission means installed in the brought-in vehicle and periodically A receiving step for receiving the ID information transmitted to the ID, and while the ID information periodically received in the receiving step matches one of the operating ID information stored in the ID storing step, A measuring step of performing measuring continuously physical quantities, the physical quantity measured by said measuring step, characterized in that it has a measurement data storage step of storing with said corresponding ID information.

  The vehicle measurement program according to the present invention is installed in each different vehicle, and a plurality of ID transmission means for periodically transmitting unique ID information at predetermined time intervals, and a measurement provided so as to be brought into each vehicle In a vehicle measurement system having a terminal, an ID storage that stores in advance one or a plurality of ID information of the ID information of each ID transmission means as operating ID information in a computer mounted on the measurement terminal Means, when the measuring terminal is brought into one of the vehicles, short-range wireless communication is performed with the ID transmitting means installed in the brought-in vehicle, and the ID information periodically transmitted is Receiving means provided so as to be receivable, while the ID information periodically received by the receiving means matches one of the operation ID information stored in the ID storage means Measuring means continuously performed measurement of physical quantities, the physical quantity measured by said measuring means, characterized in that to correspond the measured data storage means for storing together with the ID information that serves as a.

  The vehicle measurement system, the vehicle measurement method, and the vehicle measurement program according to the present invention provide a predetermined physical quantity when a measurement terminal is brought into a vehicle provided with ID transmission means for transmitting ID information stored as operation ID information. And the physical quantity can be stored in the measurement terminal together with the vehicle ID information. Thereby, a measurement terminal, a vehicle, and the measured physical quantity can be matched correctly. Further, when the measurement terminal is brought into the vehicle corresponding to the operation ID information, the physical quantity can be measured without any particular operation. For this reason, when the driver carries the measurement terminal, the physical quantity when the driver operates each vehicle corresponding to the operation ID information can be accurately and easily grasped.

  In the vehicle measurement system, the vehicle measurement method, and the vehicle measurement program according to the present invention, a plurality of measurement terminals may be included. In this case, when a plurality of drivers carry different measurement terminals, the physical quantity when each driver operates each vehicle on which the ID transmission means is installed can be accurately and easily grasped for each driver. As described above, the vehicle measurement system, the vehicle measurement method, and the vehicle measurement program according to the present invention have ID transmission means installed in each vehicle even when the vehicle and the driver are switched, By carrying a separate measurement terminal, the physical quantity relating to each vehicle can be accurately and easily grasped for each driver. For this reason, it can be suitably used when operating a plurality of vehicles with a plurality of drivers, such as a transportation company, a taxi company, and a bus company.

  In the vehicle measurement system, the vehicle measurement method, and the vehicle measurement program according to the present invention, the measurement of the predetermined physical quantity may be performed continuously or intermittently at predetermined time intervals. Short-distance wireless communication between each ID transmission unit and the measurement terminal may be possible at least in the driver's seat and the vicinity of each vehicle in which each ID transmission unit is installed, It may be possible up to a range including the vicinity of the vehicle.

  In the vehicle measurement system and the vehicle measurement program according to the present invention, when the measurement unit is measuring the physical quantity, the reception unit no longer receives the ID information, or the ID received by the reception unit. When the information no longer matches the operation ID information stored in the ID storage means, it is preferable to stop the measurement of the physical quantity after a predetermined stop time has elapsed. In the measurement method for a vehicle according to the present invention, the measurement step may be performed when the ID information is not received in the reception step or the ID information received in the reception step is the ID storage during measurement of the physical quantity. When the operation ID information stored in the step does not match, it is preferable to stop the measurement of the physical quantity after a predetermined stop time has elapsed. In this case, when the driver carrying the measurement terminal leaves the corresponding vehicle, the measurement of the physical quantity is automatically stopped. Therefore, the physical quantity when the corresponding vehicle is operated can be grasped more easily and accurately. be able to.

  In the vehicle measurement system, the vehicle measurement method, and the vehicle measurement program according to the present invention, the predetermined physical quantity may be any physical quantity related to the vehicle, such as a travel distance, a vehicle speed, a temperature in a vehicle or a luggage compartment, and humidity. It may be. When the physical quantity includes a travel distance, in the vehicle measurement system and the vehicle measurement program according to the present invention, the measurement means includes a GPS reception unit and a calculation unit, and is periodically received by the reception unit. While the ID information coincides with one of the operation ID information stored in the ID storage means, the GPS receiver receives a GPS signal and continuously acquires the position information of the current position, and the calculation It is preferable that the travel distance of the vehicle brought in as the physical quantity is obtained by the unit based on the position information continuously acquired. In the vehicle measurement method according to the present invention, the measurement step may be performed while the ID information periodically received in the reception step matches one of the operation ID information stored in the ID storage step. , Receiving GPS signals, continuously acquiring position information of the current position, and determining the travel distance of the vehicle brought in as the physical quantity based on the position information continuously acquired preferable.

  The vehicle measurement system and the vehicle measurement program according to the present invention include display means for displaying the physical quantity measured by the measurement means and / or the physical quantity stored in the measurement data storage means. Also good. The vehicle measurement method according to the present invention may include a display step of displaying the physical quantity measured in the measurement step and / or the physical quantity stored in the measurement data storage step. In this case, the driver and passengers can easily grasp the physical quantity such as the measured travel distance while the vehicle is in operation. The display means and the means for displaying in the display step may be, for example, a monitor provided in the measurement terminal, or a monitor such as an in-vehicle camera or a car navigation system installed in each vehicle.

  In the vehicle measurement system and the vehicle measurement program according to the present invention, the measurement terminal corresponds to the physical quantity measured by the measurement means and / or the physical quantity stored in the measurement data storage means. You may have the data transmission means transmitted to a remote monitoring apparatus with ID information. In the vehicle measurement method according to the present invention, the measurement terminal remotely monitors the physical quantity measured in the measurement step and / or the physical quantity stored in the measurement data storage step together with the corresponding ID information. You may have the data transmission step which transmits to an apparatus. In this case, the distance traveled for each driver of each vehicle can be grasped at a remote management station or the like where the remote monitoring device is installed, and the operation management of each driver and each vehicle can be performed. For transmission to the remote monitoring device, for example, a wide-area communication line such as the Internet can be used.

  In the vehicle measurement system, the vehicle measurement method, and the vehicle measurement program according to the present invention, the ID transmission unit can be installed in a vehicle and can transmit unique ID information periodically at predetermined time intervals. Any of these may be used, for example, a sensor of a tire pressure monitoring system, an in-vehicle camera, or an RFID tag. The ID transmission means may be installed in each vehicle in advance, or may be newly installed in each vehicle.

  In the vehicle measurement system, the vehicle measurement method, and the vehicle measurement program according to the present invention, the short-range wireless communication between each ID transmission unit and the measurement terminal includes Bluetooth (registered trademark) communication, wireless LAN communication, Or infrared communication is preferable. In this case, communication can be limited only to a narrow space such as the inside of each vehicle in which the ID transmission means is installed or the inside of the vicinity of each vehicle, and the measurement accuracy of the physical quantity can be increased.

  In the vehicle measurement system, the vehicle measurement method, and the vehicle measurement program according to the present invention, the measurement terminal is preferably a mobile phone, a smartphone, a tablet terminal, or a laptop computer. In this case, there is no need to manufacture a dedicated measurement terminal, and the introduction cost can be reduced.

  ADVANTAGE OF THE INVENTION According to this invention, even if it is a case where a vehicle and a driver interchange, the physical quantity regarding each vehicle, such as a travel distance, can be grasped | ascertained correctly and easily for every driver, the measuring method for vehicles, and a vehicle Measurement program can be provided.

It is a block diagram which shows the structure of the measurement system for vehicles of embodiment of this invention. It is a flowchart which shows the process sequence of the measurement system for vehicles of embodiment of this invention. It is a block diagram which shows the structure of the modification of the measuring system for vehicles of embodiment of this invention. It is a block diagram which shows the structure of the measurement system of the traveling distance of a vehicle using the conventional pulse signal. It is a block diagram which shows the structure of the measurement system of the driving distance of the vehicle using the conventional GPS.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
1 to 3 show a vehicle measurement system, a vehicle measurement method, and a vehicle measurement program according to an embodiment of the present invention. The vehicle measurement method according to the embodiment of the present invention is a method that is preferably implemented by the vehicle measurement system according to the embodiment of the present invention, and can be executed by a computer that records the vehicle measurement program. .

  As shown in FIG. 1, the vehicle measurement system according to the embodiment of the present invention includes a plurality of ID transmission means 11, a measurement terminal 12, and a display means 13. Each ID transmission means 11 is installed in a different vehicle, and is configured to periodically transmit unique ID information at predetermined time intervals. In the specific example shown in FIG. 1, each ID transmission means 11 consists of a sensor of a commercially available tire pressure monitoring system (TPMS). The TPMS sensor is a device that is attached to a tire valve of a vehicle and transmits the tire air pressure and temperature together with unique ID information through Bluetooth (Bluetooth) communication.

  The measurement terminal 12 is composed of a portable terminal such as a mobile phone or a smartphone provided so as to be brought into each vehicle, and has a built-in computer. The measuring terminal 12 includes a storage unit 21 for storing various data, a receiving unit 22 for receiving various data, a measuring unit 23 for measuring a current position, a main control unit 24 having a calculation function and a control function, and various data And transmitting means 25 for transmitting.

  The storage unit 21 includes a memory, and is obtained by an ID storage unit 21a that stores in advance one or a plurality of ID information of the ID information of each ID transmission unit 11 as operating ID information, and the main control unit 24. And a measurement data storage unit 21b that stores the physical quantity together with the corresponding ID information. When the receiving means 22 is brought into one of the vehicles in which each ID transmitting means 11 is installed, the receiving means 22 performs Bluetooth communication with the ID transmitting means 11 installed in the brought-in vehicle, and periodically ID information that is transmitted automatically can be received.

  The measuring unit 23 is composed of a GPS receiving unit that receives GPS satellite signals, and can continuously acquire current position information (latitude, longitude, altitude absolute position information) and current time at predetermined time intervals. It is configured. The main control unit 24 includes a CPU, and is connected to the storage unit 21, the reception unit 22, the measurement unit 23, and the transmission unit 25 so that each can be controlled. The main control unit 24 includes a calculation unit 24 a configured to obtain the travel distance of the brought-in vehicle as a predetermined physical quantity based on the position information continuously acquired by the measurement unit 23.

  Further, every time the receiving unit 22 receives the ID information periodically, the main control unit 24 compares the ID information with the operating ID information stored in the ID storage unit 21a, and the ID information is the operating ID. While the information coincides with one of the information, the measurement by the measurement unit 23 and the calculation of the travel distance by the calculation unit 24a are continuously performed. In addition, the main control unit 24 determines that the travel distance is calculated by the calculation unit 24a, that is, when the ID information received by the reception unit 22 matches one of the operation ID information, the reception unit 22 then sets the ID. When the information is no longer received or when the ID information received by the receiving means 22 no longer matches the operating ID information stored in the ID storage means 21a, the measurement by the measuring unit 23 and It is comprised so that the calculation of the travel distance by the calculating part 24a may be stopped. The measurement unit 23 and the main control unit 24 constitute measurement means.

  The transmission means 25 is connected to the display means 13 and has a display transmission means 25 a provided so as to be able to transmit the travel distance obtained by the calculation unit 24 a to the display means 13. The display means 13 consists of monitors, such as a small liquid crystal display, installed in each vehicle. The display unit 13 can display the travel distance transmitted from the display transmission unit 25a.

  Next, a processing procedure of the vehicle measurement system according to the embodiment of the present invention will be described with reference to FIG. As shown in FIG. 2, first, as advance preparation, the ID information of the ID transmission unit 11 mounted on each vehicle for which the mileage is calculated is stored in the ID storage unit 21a as operation ID information. In addition, a past time is set as a stop time in the calculation unit 24a of the main control unit 24.

  When the measurement terminal 12 is brought into the vehicle for which the travel distance is to be calculated, the reception means 22 performs a process for receiving ID information periodically transmitted from the ID transmission means 11 (step 31). The reception is confirmed (step 32), and when the ID information is received from the ID transmission means 11, it is confirmed whether the ID information matches the operation ID information stored in the ID storage means 21a (step 33). ). When it coincides with one of the operation ID information, the stop time set in the calculation unit 24a is extended after a predetermined time (for example, 1 minute after the current time) from the current time (step 34), The measurement unit 23 performs GPS positioning to calculate the absolute position (step 35). In the same ID information, when the GPS positioning is performed for the second time or later, the calculation unit 24a calculates the travel distance by taking the difference between the absolute position calculated this time and the absolute position calculated by the previous GPS positioning (step 36). The calculated travel distance is stored in the measurement data storage means 21b together with the corresponding ID information, and is displayed on the display means 13 via the display transmission means 25a (step 37). Thereafter, the process returns to the receiving process by the receiving means 22 again (step 31).

  If the received ID information does not match the operating ID information in step 33, and if no ID information is received in step 32, is the current time past the stop time set in the calculation unit 24a? If not (step 38), if not, calculation of absolute position by GPS positioning (step 35), calculation of travel distance (step 36), storage in measurement data storage means 21b, and display means 13 Is displayed (step 37). Thereafter, the process returns to the receiving process by the receiving means 22 again (step 31). In step 38, if the current time has passed the stop time, the GPS positioning or the like (steps 35 to 37) is not performed, and the process returns to the reception process by the receiving means 22 (step 31).

  As described above, when the measurement terminal 12 is brought into the vehicle in which the ID transmission unit 11 that transmits the ID information stored as the operation ID information is brought into the vehicle measurement system according to the embodiment of the present invention, The travel distance can be measured, and the travel distance can be stored in the measurement terminal 12 together with the vehicle ID information. Thereby, the measurement terminal 12, a vehicle, and a travel distance can be matched correctly. Further, when the measurement terminal 12 is brought into a vehicle corresponding to the operation ID information, and when the measurement terminal 12 is taken out of the vehicle, the measurement of the travel distance and the measurement of the travel distance are automatically performed without any special operation. A stop can be made.

  For this reason, the vehicle measurement system according to the embodiment of the present invention allows the driver to carry the measurement terminal 12 to accurately and easily determine the travel distance when the driver operates each vehicle corresponding to the operation ID information. I can grasp it. In addition, even when there are a plurality of drivers, each driver carries a different measurement terminal 12, so that each driver can accurately and easily determine the mileage when each driver operates each vehicle on which the ID transmission means 11 is installed. I can grasp it. Thus, in the vehicle measurement system according to the embodiment of the present invention, even if the vehicle and the driver are switched, the ID transmission means 11 is installed in each vehicle, and each driver has a separate measurement terminal 12. By carrying the vehicle, the mileage associated with each vehicle can be accurately and easily grasped for each driver.

  The vehicle measurement system according to the embodiment of the present invention can be suitably used when a plurality of vehicles are operated by a plurality of drivers, such as a transportation company, a taxi company, and a bus company. For example, even a courier company that frequently gets on and off, the driver always carries the measurement terminal 12 so that the mileage is automatically calculated only when the driver is on the vehicle, and the driver travels when leaving the vehicle for delivery. Since the distance is not calculated, a complicated input operation is unnecessary, and the travel distance can be easily managed.

  The vehicle measurement system according to the embodiment of the present invention can be realized at low cost without introducing a GPS receiver or the like by using a mobile phone or a smartphone having a GPS positioning function as the measurement terminal 12. . In addition, the vehicle measurement system according to the embodiment of the present invention displays the travel distance on the display means 13, so that the driver and the passenger can easily grasp the travel distance during operation of the vehicle. . By using a monitor such as an in-vehicle camera or a car navigation system installed in advance in each vehicle as the display means 13, a mobile phone or smartphone screen of the measurement terminal 12, etc., without adding the display means 13 to the vehicle. Can be realized at low cost.

  In the vehicle measurement system according to the embodiment of the present invention, each ID transmission means 11 is composed of a sensor of a tire pressure monitoring system (TPMS). Temperature information can be obtained. In addition, the air pressure and temperature information may be displayed on the display unit 13. Further, by using a TPMS sensor installed in each vehicle in advance as each ID transmission means 11, it can be realized at low cost without adding these devices to the vehicle.

  Further, in the vehicle measurement system according to the embodiment of the present invention, when the receiving unit 22 stops receiving ID information, or the ID information received by the receiving unit 22 is stored in the ID storage unit 21a. Even if the main control unit 24 is configured to stop the measurement by the measurement unit 23 and the calculation of the travel distance by the calculation unit 24a immediately without waiting for the elapse of a predetermined stop time. Good. In this case, in FIG. 2, the process returns from step 38 to step 31 immediately after step 38 without going from step 38 to steps 35 to 37.

  In the vehicle measurement system according to the embodiment of the present invention, each ID transmission unit 11 may be an in-vehicle camera or an RFID tag. When the ID transmission unit 11 is composed of a vehicle-mounted camera, a monitor of the vehicle-mounted camera can be used as the display unit 13 and can be realized at low cost, and an image acquired by the vehicle-mounted camera can be displayed on the display unit 13. Moreover, when the ID transmission means 11 consists of an RFID tag, it can be easily and inexpensively attached to each vehicle.

  In the vehicle measurement system according to the embodiment of the present invention, the communication between each ID transmission unit 11 and the measurement terminal 12 may be short-range wireless communication such as wireless LAN communication or infrared communication. Further, the measurement terminal 12 may be a tablet terminal or a notebook computer in addition to the mobile phone or the smartphone. Also in this case, it is not necessary to manufacture the dedicated measuring terminal 12, and the introduction cost can be reduced and realized at low cost.

  In addition, the vehicle measurement system according to the embodiment of the present invention determines the distance from the GPS positioning when it is determined that the GPS positioning or the like is performed every time the receiving unit 22 receives the ID information from the ID transmitting unit 11. The steps up to calculation and storage are performed, but the time interval of the ID information reception process may be different from the time interval such as GPS positioning. In this case, for example, when steps 31 to 34 and 38 in FIG. 2 are separated from steps 35 to 37 and a signal to perform GPS positioning is output from step 34 or 38, steps 35 to 37 are performed. Start or continue when already started, and when a signal indicating that GPS positioning or the like is not performed is output from step 38, stop steps 35 to 37, or stop as it is when already stopped What is necessary is just to comprise.

  As shown in FIG. 3, in the vehicle measurement system according to the embodiment of the present invention, the measurement terminal 12 uses the wide distance communication line such as the Internet, together with the corresponding ID information, the travel distance obtained by the computing unit 24 a. The data transmission means 25b for transmitting to the remote monitoring device 15 may be provided. In this case, it is possible to grasp the travel distance for each driver of each vehicle at a remote management station or the like where the remote monitoring device 15 is installed, and to easily manage the operation of each driver and each vehicle. In addition to the management use of each vehicle, it can also be used to collect information that is the basis of marketing such as after parts and maintenance. By using a wide-area communication line built in the mobile phone or smartphone of the measurement terminal 12, it can be realized at a low cost.

  The vehicle measurement program according to the embodiment of the present invention may be provided from the outside through a communication line, for example, CD (CD-ROM, CD-R, CD-RW, etc.), DVD (DVD- ROM, DVD-RAM, DVD-R, DVD-RW, DVD + R, DVD + RW, etc.) and a computer-readable recording medium such as a USB memory may be provided. In these cases, the computer built in the measurement terminal 12 can read the vehicle measurement program from its communication line or recording medium, transfer it to the internal storage device of the computer, store it, and use it.

  Here, the computer is a concept including hardware and an OS (operating system) and means hardware that operates under the control of the OS. Further, when the OS is unnecessary and the hardware is operated by the application program alone, the hardware itself corresponds to the computer. The hardware includes at least a microprocessor such as a CPU and means for reading a computer program recorded on an internal storage device or a recording medium.

  The application program as the vehicle measurement program according to the embodiment of the present invention includes a program code to be realized by the computer as described above. Also, some of the functions may be realized by the OS instead of the application program.

DESCRIPTION OF SYMBOLS 11 ID transmission means 12 Measurement terminal 21 Storage means 21a ID storage means 21b Measurement data storage means 22 Reception means 23 Measurement part 24 Main control part 24a Calculation part 25 Transmission means 25a Display transmission means 25b Data transmission means 13 Display means 15 Remote monitoring device

Claims (10)

A plurality of ID transmission means installed in different vehicles and transmitting unique ID information periodically at predetermined time intervals;
With a measuring terminal that can be brought into each vehicle,
The measurement terminal is
ID storage means for storing one or more ID information of the ID information of each ID transmission means as operation ID information in advance;
When brought into one of the vehicles, it is provided so as to be able to receive the ID information periodically transmitted by performing short-range wireless communication with the ID transmission means installed in the brought-in vehicle Receiving means;
Measurement of the physical quantity is continued while the ID information which is provided so as to be able to measure a predetermined physical quantity and is periodically received by the receiving means matches one of the operating ID information stored in the ID storage means. Measuring means configured to perform
A vehicle measurement system comprising: a measurement data storage unit that stores the physical quantity measured by the measurement unit together with the corresponding ID information.   The measuring unit is configured to measure the physical quantity when the receiving unit stops receiving the ID information, or when the ID information received by the receiving unit is stored in the ID storage unit. The vehicle measurement system according to claim 1, wherein the measurement of the physical quantity is stopped after a predetermined stop time elapses when they do not coincide with each other.   The measurement means includes a GPS receiving unit and a calculation unit, and the ID information periodically received by the receiving unit is coincident with one of the operation ID information stored in the ID storage unit. The GPS signal is received by the GPS receiver and the current position information is continuously acquired, and the travel distance of the vehicle brought in as the physical quantity based on the position information continuously acquired by the calculator The vehicle measurement system according to claim 1, wherein the vehicle measurement system is configured to obtain the above.   4. The display device according to claim 1, further comprising a display unit configured to display the physical quantity measured by the measuring unit and / or the physical quantity stored in the measurement data storage unit. 5. Vehicle measurement system.   The measurement terminal has data transmission means for transmitting the physical quantity measured by the measurement means and / or the physical quantity stored in the measurement data storage means together with the corresponding ID information to a remote monitoring device. The vehicle measurement system according to any one of claims 1 to 4, wherein:   6. The vehicle measurement system according to claim 1, wherein each ID transmission means is a sensor of a tire pressure monitoring system, an in-vehicle camera, or an RFID tag.   The short-range wireless communication between each ID transmission unit and the measurement terminal is Bluetooth (registered trademark) communication, wireless LAN communication, or infrared communication. The vehicle measurement system described in 1.   The vehicle measurement system according to claim 1, wherein the measurement terminal includes a mobile phone, a smartphone, a tablet terminal, or a notebook computer. A vehicle measurement method using a vehicle measurement system having a plurality of ID transmission means installed in different vehicles, and a measurement terminal provided so as to be brought into each vehicle,
Each ID transmission means periodically transmits unique ID information at a predetermined time interval,
The measurement terminal is
An ID storage step of storing one or more pieces of ID information of the ID information of each ID transmission means as operating ID information in advance;
A receiving step of performing short-range wireless communication with an ID transmitting means installed in the brought-in vehicle when receiving it in one of the vehicles, and receiving the ID information transmitted periodically;
A measurement step of continuously measuring a predetermined physical quantity while the ID information periodically received in the reception step matches one of the operation ID information stored in the ID storage step;
A vehicle measurement method comprising: a measurement data storage step of storing the physical quantity measured in the measurement step together with the corresponding ID information. In a vehicle measurement system having a plurality of ID transmission means that are installed in different vehicles and periodically transmit unique ID information at predetermined time intervals, and a measurement terminal provided so as to be brought into each vehicle.
A computer mounted on the measurement terminal,
ID storage means for storing one or more ID information of the ID information of each ID transmission means as operation ID information in advance,
When the measurement terminal is brought into one of the vehicles, it is possible to receive the ID information periodically transmitted by performing short-range wireless communication with the ID transmission means installed in the brought-in vehicle. Receiving means provided in the
Measuring means for continuously measuring a predetermined physical quantity while the ID information periodically received by the receiving means matches one of the operating ID information stored in the ID storage means;
Measurement data storage means for storing the physical quantity measured by the measurement means together with the corresponding ID information;
A vehicle measurement program characterized in that it functions as a vehicle.

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