JP2006031118A - Inspection system and inspection method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an inspection system capable of easily specifying and inspecting one in-vehicle device in the inspection of the in-vehicle device using a wireless system.
[Means for Solving the Problems]
An inspection system of the present invention includes a plurality of inspection lines 3 and a plurality of inspection devices 2 that wirelessly connect to the in-vehicle devices 10 on the inspection line 3 and inspect the in-vehicle devices 10. The inspection device 2 expands or reduces the range in which communication with the in-vehicle device 10 is possible, specifies one in-vehicle device 10 and wirelessly connects it.
[Selection] Figure 2

Description

  The present invention relates to an inspection system and an inspection method for an in-vehicle device mounted on a vehicle.

  There has been proposed a technique for connecting a user's mobile phone and an in-vehicle device mounted on an automobile via a cable. With this technology, various functions such as a hands-free telephone function, browsing of various Internet contents, transmission / reception of e-mails, communication navigation systems, and the like can be realized by an in-vehicle device.

  It is necessary to inspect whether such an in-vehicle device functions normally before shipment. In the inspection, an inspection device that realizes the function of the mobile phone in a pseudo manner is used. The inspection device and the in-vehicle device are wired with a cable to inspect whether voice and commands can be input / output.

The inspection result is shown to the operator by lighting the lamp of the result display machine. An inspection device and a result display are provided for each inspection line. An inspection result performed on a certain inspection line is displayed on a result display provided on the inspection line (see, for example, Patent Document 1).
JP 2000-146766 (see paragraphs “0014”, “0021”, etc.)

  In recent years, there has been proposed a technique for wirelessly connecting a mobile phone and an in-vehicle device using Bluetooth (registered trademark). In order to inspect an in-vehicle device that supports wireless connection, it is necessary to wirelessly connect to an inspection device that realizes the function of a mobile phone in a pseudo manner.

  When a plurality of inspection devices are prepared on a plurality of inspection lines and a plurality of inspections are performed simultaneously as in the case of the above-described wired connection, there are the following problems.

  When the range in which the inspection device can communicate with the in-vehicle device is constant, if the range is wide, a plurality of in-vehicle devices are detected, and if it is narrow, noise enters and stable inspection cannot be performed.

  Here, it suffices if the installation location of the inspection device can be determined so that only one in-vehicle device can be identified successfully. However, there are many things around the inspection device and the vehicle that cause obstacles to wireless communication, and the wireless device reflects the surroundings, so that the inspection device can identify only one in-vehicle device. It is difficult to find a place.

  In particular, when a vehicle flowing on another adjacent line moves, it greatly affects radio. Considering these effects, the range in which the inspection apparatus can communicate with the in-vehicle apparatus must be set wider. This still cannot identify only one in-vehicle device.

  The present invention has been made in view of the above circumstances, and an object thereof is to provide an inspection system and an inspection method capable of easily specifying and inspecting one in-vehicle device in the inspection of the in-vehicle device using a wireless system.

  A first aspect of the present invention includes a plurality of inspection lines, and a plurality of inspection apparatuses that wirelessly connect to the inspection objects on the inspection lines and inspect the inspection objects. This is an inspection system that specifies one inspection object and wirelessly connects it by expanding or reducing the range in which communication with the inspection object is possible.

  According to a second aspect of the present invention, there is provided a step of searching for an inspectable object by wireless communication according to a signal to start an inspection, and expanding or reducing a range in which communication with the inspected object is possible. An inspection method including a step of specifying an object and wirelessly connecting, and a step of inspecting the inspection object wirelessly connected.

  According to the first aspect of the present invention, since the range in which communication with the inspection object is possible is expanded or reduced, only one inspection object can be easily specified.

  According to the second aspect of the present invention, since the range in which communication with the inspection object is possible is expanded or reduced, only one inspection object can be easily specified.

  Embodiments of the present invention will be described below with reference to the drawings.

(First embodiment)
The inspection system according to the first embodiment includes a plurality of inspection lines and a plurality of inspection apparatuses that wirelessly connect to the inspection objects on the inspection lines and inspect the inspection objects. An inspection system that specifies one inspection object and wirelessly connects it by enlarging or reducing the range in which communication with the inspection object is possible.

  In addition, the inspection method of the first embodiment includes a step of searching for an inspectable object by wireless communication according to an inspection start signal, and expanding or reducing a range in which communication with the inspected object is possible. The inspection method includes a step of identifying the object to be inspected and wirelessly connecting, and a step of inspecting the object to be wirelessly connected.

  In the present invention, an in-vehicle device mounted on a vehicle is used as an object to be inspected, and one in-vehicle device is specified from a plurality of in-vehicle devices, inspected, and an inspection result is appropriately shown to an operator. . First, the configuration of the in-vehicle device and the function of the inspection device will be described.

  FIG. 1 is a diagram illustrating a schematic configuration of an in-vehicle device and a functional overview of an inspection device according to the first embodiment.

  The in-vehicle device 10 communicates with a mobile phone and realizes various functions of the mobile phone within the vehicle 1. The in-vehicle device 10 and the mobile phone are not connected by wire, and transmit and receive data by wireless communication. This is because the function of the mobile phone can be automatically used in the vehicle 1 simply by getting into the vehicle 1. For this wireless communication, a wireless communication standard for a short distance such as Bluetooth (registered trademark) is used.

  The in-vehicle device 10 includes a control unit 11 that controls each component, a microphone 12 that is connected to the control unit 11, a speaker 13, a steering switch (SW) 14, and a display 15.

  The control unit 11 includes a communication unit for communicating with a mobile phone, and enables mutual communication with the mobile phone. The control unit 11 controls the microphone 12, the speaker 13, the steering switch 14, and the display 15, and transmits / receives data to / from these components.

  The microphone 12 is provided for the user to input voice. The speaker 13 is provided for outputting sound. The voice input by the microphone 12 and the voice output by the speaker 13 allow the user to talk with the other party without holding the mobile phone. A so-called hands-free call function is realized. In addition to the telephone, the microphone 12 is also used for voice input such as a predetermined command, and the speaker 13 is also used for generating music and TV sound.

  The steering SW 14 is a switch provided on the steering wheel of the automobile. Specifically, for example, a call button, a volume control button, and the like. Based on the operation of these buttons, the control unit 11 transmits a signal to the mobile phone and operates the mobile phone. When a call is received while driving, the user can answer the call by pressing the steering switch 14 on the steering wheel. After that, conversation can be performed using the microphone 12 and the speaker 13.

  The display 15 receives, for example, an electronic mail received by the mobile phone from the mobile phone via the control unit 11 and displays it. In addition, for example, contents of an Internet site connected from a mobile phone can be displayed.

  The inspection device 2 is used for completion inspection when the vehicle 1 is mass-produced. The inspection device 2 is wirelessly connected to the vehicle 1 (the in-vehicle device 10) instead of the mobile phone that can be connected to the Bluetooth wireless of the user. Then, the inspection device 2 performs (1) a call operation, (2) a content browsing operation, (3) an e-mail receiving operation, and (4) a communication navigation operation as if the in-vehicle device 10 is communicating with the mobile phone. Realize in a pseudo manner.

  (1) The call operation is an operation in which a user is making a call with another person's mobile phone or landline using a mobile phone. (2) The content browsing operation is an operation of browsing a certain content on the Internet with the user's mobile phone. (3) The e-mail operation is an operation of receiving e-mail with the user's mobile phone. (4) The communication navigation operation is an operation of accessing the communication navigation server with the user's mobile phone and using the car navigation system.

  In order to realize these operations in a pseudo manner, a single inspection device 2 serves as a user's mobile phone, a telephone of a communication partner, various servers, and a public line network connecting them. Then, the inspection device 2 makes it appear as if the in-vehicle device 10 is calling the other party via the user's mobile phone and accessing various servers. The inspection device 2 performs transmission / reception of characters, images, and audio data with the in-vehicle device 10 and inspects whether or not the in-vehicle device 10 operates appropriately in response thereto.

  Specifically, the inspections performed here are the following inspections 1 to 4.

(Inspection 1)
The inspection device 2 generates a call signal as if there was an incoming call to the mobile phone and transmits it to the in-vehicle device 10. Here, if a ringing tone is generated from the speaker 13 of the in-vehicle device 10, it can be confirmed that the in-vehicle device 10 is operating in response to the incoming call of the mobile phone. In addition, the worker inputs sound into the microphone 12. If the voice is transmitted to the inspection device 2 via the control unit 11, it can be confirmed that the voice of the user who is talking is delivered to the other party's phone.

(Inspection 2)
In addition, the inspection apparatus 2 transmits predetermined content data to the in-vehicle apparatus 10. If this is displayed on the display 15, it can be confirmed that information on the Internet can be displayed on the display 15 via a mobile phone.

(Inspection 3)
The inspection device 2 transmits an e-mail of a predetermined message to the in-vehicle device 10. If this is displayed on the display 15, it can be confirmed that the content of the e-mail can be displayed on the display 15 via the mobile phone.

(Inspection 4)
The inspection device 2 transmits car navigation data to the in-vehicle device 10. If this is displayed on the display 15, it can be confirmed that data for car navigation can be obtained and utilized via a mobile phone.

  In the above inspection 1, the inspection device 2 is not actually connected to another person's telephone. Instead, the inspection device 2 has a function of transmitting incoming data to the in-vehicle device 10 as if there was a telephone call. In the inspections 2 to 4, the inspection device 2 is not actually connected to the Internet. Instead, the inspection device 2 stores content data, e-mail data, and car navigation data in advance for transmission to the in-vehicle device 10.

  In this way, if the inspection apparatus 2 behaves as if it is connected to another person's telephone or the Internet, it is not necessary to actually connect the inspection apparatus 2 to the Internet or the like. Thereby, cost can be reduced.

  Next, a state in which the vehicle 1 is actually inspected by the inspection device 2 will be described with reference to FIG.

  FIG. 2 is a schematic diagram showing the inspection system in the first embodiment.

  The inspection system according to the first embodiment includes a plurality of inspection lines 3, inspection devices 2, and result displays 4.

  A plurality of inspection lines 3 are provided, and a vehicle 1 on which the in-vehicle device 10 is mounted is transported. The on-vehicle device 10 that has been transported is inspected by the inspection device 2. Each inspection line 3 is provided with a trigger generator (not shown).

  The trigger generation device detects that the vehicle 1 has entered the inspection process, and transmits a trigger that is a cue to start the inspection to the inspection device 10 on the same inspection line 3. Here, the trigger generator detects the passage of the vehicle 1 according to the light shielding of the phototube and generates a trigger, for example. Alternatively, the trigger generation device may be input based on the operator pressing a predetermined button.

  The result display 4 is provided for each inspection line 3 and is connected to the inspection device 2 of the same inspection line 3, and displays the inspection result by the inspection device 2.

  The inspection device 2 is provided for each inspection line 3 and wirelessly connects to the in-vehicle device 10 on the same inspection line 3 to inspect the in-vehicle device 10. The inspection device 2 changes the communicable range and restricts the in-vehicle devices 10 that can communicate, thereby identifying the in-vehicle device 10 on the same inspection line 3 as itself and wirelessly connecting the in-vehicle devices 10. In order to change the range in which communication is possible, the inspection apparatus 2 has a configuration shown in FIG. 3 in addition to the configuration shown in FIG.

  FIG. 3 is a block diagram showing a configuration for making the communication range of the inspection apparatus 2 variable.

  As shown in FIG. 3, the inspection device 2 includes a CPU 21, a wireless unit 22, and a programmable variable attenuator 23.

  The CPU 21 controls the operation of the inspection device 2. The CPU 21 executes processing in wireless communication with the in-vehicle device 10, processing for inspecting the in-vehicle device 10, and the like. The CPU 21 is connected to the wireless unit 22 and the programmable variable attenuator 23.

  The wireless unit 22 transmits and receives radio waves for wireless communication with the in-vehicle device 10. The radio wave transmission output and reception sensitivity in the wireless unit 22 are constant.

  The programmable variable attenuator 23 is controlled by the CPU 21 and adjusts the intensity of the radio wave output from the radio unit 22, that is, the transmission output, and outputs it to the outside. The programmable variable attenuator 23 adjusts the intensity of the received radio wave, that is, the reception sensitivity, and transmits the adjusted radio attenuator 23 to the radio unit 22. Thus, the programmable variable attenuator 23 adjusts the communicable range of the inspection apparatus 2 by adjusting the transmission intensity and the reception sensitivity.

  For example, as shown in FIG. 2, the communicable range can be adjusted from the narrowest first stage to the widest third stage.

  Next, the operation of the inspection system according to the first embodiment will be described.

  FIG. 4 is a flowchart showing a flow of operation of the inspection system in the first embodiment.

  Each inspection device 2 stands by until a trigger is input (step S1: NO). As described above, the trigger is generated by the trigger generator and is input to the inspection device 2 of the inspection line 3 where the trigger generator is installed. Therefore, one of the plurality of inspection devices 2 is specified by the trigger generation device.

  When the trigger is input (step S1: YES), the inspection apparatus 2 determines a communicable range (step S2). For example, the inspection apparatus 2 determines the communicable range as the second stage range shown in FIG.

  And the inspection apparatus 2 searches the inspection vehicle 1 (vehicle equipment 10) used as a test object in the determined communicable range (step S3). The inspection device 2 determines whether one inspection vehicle 1 has been searched (step S4).

  When one inspection vehicle 1 has not been searched (step S4: NO), it is further determined whether or not the inspection vehicle 1 could not be searched at all (step S5). When the inspection vehicle 1 is not searched (step S5: YES), the inspection device 2 expands the communication range (step S6), and proceeds to the process of step S7. For example, the inspection device 2 extends the communicable range from the second stage shown in FIG. 2 to the third stage.

  When the inspection vehicle 1 is searched, that is, when two or more inspection vehicles 1 are searched (step S5: NO), the inspection device 2 reduces the communication range (step S7) and performs the process of step S8. move on. For example, the inspection apparatus 2 narrows the communicable range from the second stage shown in FIG. 1 to the first stage.

  The inspection device 2 changes the communication range and determines whether the inspection vehicle 1 has been searched a predetermined number of times or more so far (step S8). When the search of the inspection vehicle 1 is a predetermined number of times or more (step S8: YES), the inspection device 2 determines that an abnormality has occurred in the inspection vehicle 1, performs an abnormality process (step S9), and there is an abnormality. Is displayed on the result display 4 on the same inspection line 3 (step S15). Here, the predetermined number is the number of times to retry the search, and is set in advance.

  On the other hand, when one inspection vehicle 1 is searched (step S4: YES), the inspection device 2 specifies the searched inspection vehicle 1 (step S10). And the inspection apparatus 2 starts synchronous communication with the specified inspection vehicle 1, and further expands the communication range to such a size that the inspection vehicle 1 can sufficiently enter (step S11). Here, since the synchronous communication method is adopted after the inspection vehicle 1 is specified, communication with the inspection vehicle 1 on the other inspection lines 3 is not mixed even if the communication range is expanded. Thus, communication between the inspection device 2 and the inspection vehicle 1 is established (step S12).

  The inspection device 2 starts a voice call using the synchronous communication method with the in-vehicle device 10 of the specified inspection vehicle 1 (step S13). Then, the above-described (1) call operation, (2) content browsing operation, (3) e-mail receiving operation, and (4) communication navigation operation are realized, and a series of examinations 1 to 4 are performed (step S14).

  When the inspections 1 to 4 are completed, the inspection apparatus 2 displays the inspection results on the result display 4 in the same inspection line 3 (step S15).

  As described above, according to the inspection system of the first embodiment, the inspection device 2 widens the communication range when no inspection vehicle 1 can be searched. Therefore, even when there is an influence of a radio wave environment failure, one inspection vehicle 1 can be specified. Conversely, when two or more inspection vehicles 1 are searched, that is, when the inspection vehicles 1 in the adjacent inspection line 3 are also searched, the communication range is narrowed. Therefore, one inspection vehicle 1 can be searched. By repeating expansion and reduction of the communication range, it is possible to narrow down to one inspection vehicle 1 and specify it. As a result, the inspection device 2 can easily identify one inspection vehicle 1 even if there is something that causes wireless interference in the surroundings, and can be stably wirelessly connected to the in-vehicle device 10 of the inspection vehicle 1 by a synchronous communication method. Connection is possible.

  Further, the inspection apparatus 2 can display the inspection result on the result display 4 of the same inspection line 3. Therefore, the worker in the vicinity of the inspection vehicle 1 can easily check the inspection result by looking at the result display 4 of the inspection line 3 on which he / she works. In other words, the operator can confirm the inspection result without hesitation.

  In the first embodiment, as shown in FIG. 2, the communication range is largely divided into three stages. However, the present invention is not limited to this. The stage of expansion or reduction of the communication range can be set more finely.

(Second Embodiment)
In the first embodiment, the inspection apparatus 2 specifies an inspection object on the same inspection line 3 and displays the inspection result on the result display 4 of the inspection line 3. On the other hand, in 2nd Embodiment, the test vehicle 1 to identify is not limited to what exists in the same test | inspection line 3 as the test | inspection apparatus 2. FIG. Instead, the inspection device 2 outputs the inspection result directly to the display means of the inspection vehicle 2.

  FIG. 5 is a schematic diagram showing an inspection system according to the second embodiment. In FIG. 5, inspection processes other than the inspection process of the in-vehicle device 10 are omitted.

  As shown in FIG. 5, the inspection system according to the second embodiment includes a plurality of inspection lines 3 and a plurality of inspection apparatuses 2 provided by the number of inspection lines 3. The inspection devices 2 are connected to each other by wire or wireless. The difference from the inspection system of the first embodiment shown in FIG. 2 is that the result display 4 is not provided in each inspection line 3. Also in 2nd Embodiment, the vehicle-mounted apparatus 10 and the test | inspection apparatus 2 are the same as what was demonstrated with reference to FIG. 1 and FIG. 2 in 1st Embodiment. Therefore, the description is omitted.

  Hereinafter, an operation flow of the inspection system according to the second embodiment will be described.

  FIG. 6 is a flowchart showing an operation procedure of the inspection system in the second embodiment.

  Steps S24 to S35 shown in FIG. 6 are the same as steps S3 to S14 shown in FIG. 4, and therefore other steps will be mainly described.

  The inspection device 2 stands by until a trigger that is a signal for starting the inspection is input (step S21: NO).

  When the trigger is input (step S21: YES), one of the plurality of inspection apparatuses 2 that is not currently inspecting (available) is selected (step S22). Here, for example, the inspection device 2 having the highest predetermined priority order is selected.

  The selected inspection device 2 determines whether another inspection device 2 is searching for the inspection vehicle 1 (step S23).

  When the other inspection apparatus 2 is searching (step S23: YES), it waits until the search of the other inspection apparatus 2 is completed. When the other inspection device 2 is not searching (step S23: NO), the inspection device 2 searches for the vehicle 1 that can be inspected, and specifies only one vehicle 1 by expanding or reducing the communication range. (Step S25 to Step S31). Here, unlike the first embodiment, the inspection device 2 also identifies the vehicle 1 on the inspection line 3 other than the same inspection line 3 as long as the vehicle 1 can communicate. And the inspection apparatus 2 establishes communication with the vehicle 1 (step S32, step S33), and performs various inspections (step S34, step S35).

  Here, the inspection apparatus 2 is wirelessly connected to the in-vehicle apparatus 10. Using this, the inspection device 2 wirelessly transmits the inspection result to the in-vehicle device 10 and outputs the sound from the speaker 13 of the in-vehicle device 10 as shown in FIG. That is, the inspection result is transmitted to the worker by voice from the speaker 13 of the in-vehicle device 10 (step S36).

  Thus, in 2nd Embodiment, a test result is audio-outputted by the vehicle equipment 10 side. Therefore, even if the operator does not know which inspection device 2 the in-vehicle device 10 is communicating with, it is possible to hear the inspection result from the speaker 13 of the vehicle 1 and know the inspection result without making a mistake.

  The test result can be displayed on the display 15 in addition to being output from the speaker 13 by voice. In this case, for example, an electronic mail including the inspection result is created by the inspection device 2 and transmitted to the in-vehicle device 10. When the e-mail is opened, the inspection result is displayed on the display 15.

  In the first embodiment and the second embodiment, the case where the in-vehicle device 10 is inspected by simulating the function of a mobile phone in the inspection device 2 has been described. However, it is not limited to this. The invention according to the first embodiment and the second embodiment can also be applied to an in-vehicle device in which the function of a mobile phone is incorporated. In this case, the inspection device 2 simulates the role of the mobile phone base station, communicates with the in-vehicle device, and inspects the in-vehicle device. This communication is achieved by a mechanism similar to that of a normal mobile phone.

It is a figure which shows the schematic structure of the vehicle-mounted apparatus in 1st Embodiment, and the functional outline | summary of a test | inspection apparatus. It is the schematic which shows the test | inspection system in 1st Embodiment. It is a block diagram which shows the structure which makes the communication range of the test | inspection apparatus 2 variable. It is a flowchart which shows the flow of operation | movement of the test | inspection system in 1st Embodiment. It is the schematic which shows the test | inspection system in 2nd Embodiment. It is a flowchart which shows the operation | movement procedure of the test | inspection system in 2nd Embodiment.

Explanation of symbols

1 ... vehicle,
2 ... Inspection device,
3 ... Inspection line,
4 ... Result display machine,
10: In-vehicle device,
11 ... control unit,
12 ... Mike,
13 ... Speaker,
14 ... Steering SW,
15 ... Display,
21 ... CPU,
22: Radio section,
23: Programmable variable attenuator.

Claims (6)

Multiple inspection lines,
A plurality of inspection devices that wirelessly connect to the inspection object on the inspection line and inspect the inspection object;
Have
The inspection system is an inspection system in which a range in which communication with the inspection object is possible is expanded or reduced, one inspection object is specified, and wireless connection is made.   The inspection apparatus expands the range in which communication is possible when none of the inspected objects can be specified, and reduces the range in which communication is possible when two or more inspection objects are specified. The inspection system according to claim 1, wherein the inspection object is specified.   The inspection system according to claim 1, wherein the inspection apparatus performs authentication processing after specifying the inspection object, and establishes a connection with the inspection object. The inspection device is provided for each inspection line, wirelessly connected to the inspection object on the same inspection line, inspecting the inspection object,
4. The apparatus according to claim 1, further comprising: a result display that is provided for each inspection line, is connected to the inspection apparatus on the same inspection line, and displays an inspection result by the inspection apparatus. Inspection system. Provided on the inspection object, further having a display means for displaying the inspection result of the inspection object,
The inspection apparatus outputs an inspection result to the display unit of the inspection object wirelessly connected. A step of searching for an inspectable object by wireless communication in response to an inspection start signal;
Expanding or reducing the range in which communication with the inspection object is possible, identifying the one inspection object, and wirelessly connecting;
Inspecting the inspection object wirelessly connected;
Including inspection methods.

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