JPH066852A - Start-up checking method for radio data transmitter - Google Patents

Abstract

PURPOSE:To make job efficient by preliminarily confirming the malfunction of a mobile station, and eliminating the waste of a time due to the calling of the mobile station in malfunction. CONSTITUTION:A start-up check is operated between a base station 1 and plural mobile stations 2. At the time of supplying power at the mobile stations 2, test data constituted of a calling number and a vehicle number are transmitted from the mobile stations to the base station 1. The registration of the calling number of the test data, and the correctness of the correspondence of the calling number to the vehicle number are confirmed by the base station 1. When the calling number and the vehicle number of the test data are confirmed, the 'check OK' of the calling number is displayed at a CRT 4, and when the correspondence of the calling number to the vehicle number is wrong the 'check NG' of the calling number is displayed. A calling data transmission is not executed from the base station 1 to the mobile station 2 whose display is 'check NG'.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a start-up inspection method for a wireless data transmission device for transmitting data between a base station and a plurality of mobile stations.

[0002]

2. Description of the Related Art A wireless data transmission device system for transmitting data between a base station and a plurality of mobile stations is used in many industries. Such a system has an advantage that information can be transmitted quickly, and labor can be saved and rationalized. A base station is a radio station installed in a user's office or the like, and integrally manages mobile stations to collect commands and information. The mobile station is installed in a car and opened.

An individual code or the like is given to each of a plurality of mobile stations so that they can be individually called. Further, a plurality of mobile stations are given the same user code if they are the same user. Therefore, the base station can individually or collectively call the mobile station from the same user code. Further, in such a wireless communication system, a plurality of channels can be used, and an empty channel is allocated when communicating. In addition, communication time limits are set so that many users can communicate fairly, and the communication area is also limited. Normally, the base station communicates with each mobile station in a fixed order to transfer information.

[0004]

In the conventional wireless data transmission device system, the fact that the wireless data transmission device of the mobile station cannot communicate due to a malfunction or the like cannot be understood until the base station cannot call and communicate with the mobile station. You can check. However, since the mobile station may have a bad communication condition depending on the locational conditions, it is necessary for the base station side to call the mobile station many times for confirmation. For example, when there is no response to a predetermined number of calls, it is determined that the operation is defective, and the next mobile station is called. Therefore, when the mobile station side malfunctions, the base station side becomes very inefficient in business.

An object of the present invention is to confirm the malfunction of a mobile station in advance, to eliminate waste of time due to calling a mobile station that is malfunctioning, and to improve work efficiency.

[0006]

SUMMARY OF THE INVENTION The present invention is a method of performing a start-up inspection between a base station and a plurality of mobile stations, in which the mobile station is powered on at a distance at which wireless data transmission can be reliably performed. Perform a predetermined transmission test to determine the operating status between the base station and the base station, display the mobile station whose operating status is determined to be abnormal as a result of the transmission test, and transmit the data to the mobile station. It is a start-up inspection method for a wireless data transmission device, which is characterized in that it is not performed.

[0007]

According to the present invention, the start-up inspection is performed between the base station and a plurality of mobile stations in order to confirm the malfunction of the mobile station in advance. The start-up inspection method is to turn on the power of the mobile station and perform a predetermined transmission test with the base station at a distance that ensures wireless data transmission. As a result of the transmission test, the base station displays a mobile station whose malfunction is determined to be abnormal, and prevents data transmission with the mobile station. Therefore, the malfunction of the mobile station can be confirmed in advance, so that it is possible to eliminate the waste of time due to calling the malfunctioning mobile station.

[0008]

DESCRIPTION OF THE PREFERRED EMBODIMENTS FIG. 1 shows the system configuration of a wireless data transmission apparatus according to an embodiment of the present invention. Base station 1 and a plurality of mobile stations 2
Data is transmitted to and from. The host computer 2
It is connected to the base station 1 and manages the base station 1 and gives instructions to the base station 1. The host computer 2 also displays management information, instruction contents, etc. on a cathode ray tube (abbreviated as “CRT”) 4. The mobile station 2 is mounted on an automobile or the like. Further, each of the plurality of mobile stations 2 is given an individual code and can be individually called. Further, the plurality of mobile stations 2 are given the same user code if they are the same user. Therefore, the base station 1 can individually or collectively call the mobile station 2 from the same user code. In addition, normally, in this type of wireless communication system, a plurality of channels can be used in the frequency band of the allocated radio wave, and a vacant channel is allocated at the time of communication. As a wireless system of this type, there is a so-called MCA system, which is provided with a communication time limit so that many users can communicate fairly, and a communication area is limited due to a transmission output and the like.

FIG. 2 is a block diagram showing an electrical configuration of the mobile station 2 shown in FIG. When transmitting to the base station 1,
When a transmission mode or the like is set on the operation unit 10, a radio wave is transmitted from the transmission / reception circuit 11 via the antenna 12. When the line is connected, communication with the base station 1 and data transmission to the base station can be performed via the microphone 13 and the like. When receiving, radio waves are received by the transmission / reception circuit 11 via the antenna 12, the voice signal is demodulated and can be heard as voice through the speaker 14, and the received data and the like are displayed on the display unit 15. Is displayed. A read-only memory (hereinafter abbreviated as "ROM") 16 stores a user code and the like, and is collated at the time of line connection. The ROM 16 also stores a monitor program for the mobile station 2. A random access memory (hereinafter abbreviated as “RAM”) 17 reads programs, data and the like. A central processing unit (hereinafter abbreviated as “CPU”) 18 controls the mobile station 2 as a whole. Further, the operation unit 10 performs mode setting, data setting, etc. necessary for transmission / reception, and the display unit 15 displays the display. The timer 19 is a timer for performing time management such as calling of the base station 1. The buzzer 20 is used when the mobile station 20 cannot perform data transmission with the base station 1.
Sounds an alarm in case of failure.

FIG. 3 is a block diagram showing an electrical configuration of the base station 1 shown in FIG. When transmitting from the base station 1 to the mobile station 2, if the transmission mode, the individual code of the mobile station to be called, etc. are set by the operation unit 29, the transmission / reception circuit 2
Radio waves are transmitted from the antenna 1 through the antenna 22. When the line connection is established in the base station 1, a call with the mobile station 2 via the microphone 23 and data transmission can be performed. When the base station 1 receives from the mobile station 2, the reception / transmission circuit 21 receives a radio wave via the antenna 22. The audio signal is demodulated and then the speaker 24
Can be heard as a voice via, and the received data and the like are displayed on the display unit 25. The ROM 26 stores a user code and a monitor program for the base station. Further, in the RAM 27, programs, user codes, individual code data for each mobile station 2, etc. are read. The CPU 28 controls the entire base station 1 as a whole. Further, the operation unit 29 performs mode setting and data setting necessary for transmission / reception, and the display unit 25 displays the display.

FIG. 4 shows a flowchart on the side of the mobile station 2 in the start-up inspection of the wireless data transmission apparatus shown in FIG. At step a1, the power of the wireless data transmission device of the mobile station 2 is turned on to start the start-up inspection process. In step a2, the calling number and the vehicle number, which are the individual codes of the mobile station 2, are used as test data, and the mobile station 2 to the base station 1
Send to. At step a3, the 60-second timer 19 shown in FIG. 2 starts counting from the time when the test data is transmitted. When the inspection OK code is received from the base station 1 with respect to the test data transmitted from the mobile station 2 in step a4, the process moves to step a5, and a "beep" sound is output and OK.
The display (for example, “1”) is displayed on the display unit 15. In step a6, when the inspection NG code is received from the base station 1 with respect to the test data transmitted from the mobile station 2, the process moves to step a7, an alarm sound of "beep beep" is issued, and NG is displayed (for example, "2"). Is performed on the display unit 15.
In step a8, if the inspection OK code or the inspection NG code cannot be received from the base station 1 until the timer that started the time measurement in step a3 has elapsed for 60 seconds with respect to the test data transmitted from the mobile station 2, a
In step 9, an alarm sound of "beep beep" is issued, a non-response display (for example, "9") is displayed on the display unit 15, and step a1
The process ends at 0.

FIG. 5 shows a flowchart on the side of the base station 1 in the start-up inspection of the wireless data transmission apparatus shown in FIG.
In step b1, the start-up inspection process is started. In step b2, if the test data is received from the base station 1, the process proceeds to step b3, and if the test data is not received from the base station 1, the process proceeds to the main process of step b7. At step b3, it is confirmed whether or not the calling number of the received test data is unregistered. If it is not an unregistered calling number, the process proceeds to step b4, and if it is an unregistered calling number, step b6.
Then, the inspection NG code is sent to the mobile station 2. At step b6, the inspection NG code is sent to the mobile station 2, and at the same time, the call number is white-blinked to the CRT 4 of the base station 1 shown in FIG. 1 to display an abnormality, and the process proceeds to step b7. At step b4, since it is confirmed that the calling number of the received test data is registered, the correspondence between the calling number of the test data and the vehicle number is confirmed. If the correspondence between the calling number of the test data and the vehicle number is correct, the process proceeds to step b5, and if it is incorrect, the process proceeds to step b6 and the inspection NG code is sent to the mobile station 2. Further, in step b6, the inspection NG code is sent to the mobile station 2, and at the same time, the CRT 4 of the base station 1 blinks the calling number in white to display an abnormality, and then proceeds to the main processing of step b7. In step b5, both the calling number and the vehicle number of the test data are confirmed, so the mobile station 2 can be inspected.
Send the code. At the same time when the inspection OK code is sent to the mobile station 2, the calling number is displayed in white on the CRT 4 of the base station 1 to indicate normality, and the process proceeds to the main processing of step b7. In the main processing of step a7, normal processing other than the start-up inspection is performed.

Therefore, the user can determine whether each mobile station 2 is normal or malfunctioning by checking the display of the calling number on the CRT 4.

[0014]

As described above, according to the present invention, the malfunction of the mobile station can be confirmed in advance by performing the start-up inspection between the base station and the plurality of mobile stations. Therefore,
It is possible to eliminate waste of time due to calling of a mobile station that is malfunctioning and to improve work efficiency.

[Brief description of drawings]

FIG. 1 shows a system configuration of a wireless data transmission device according to an embodiment of the present invention.

FIG. 2 is a block diagram showing an electrical configuration of a mobile station 2 shown in FIG.

FIG. 3 is a block diagram showing an electrical configuration of a base station 1 shown in FIG.

4 shows a flowchart on the mobile station side in a start-up inspection of the wireless data transmission device shown in FIG.

FIG. 5 shows a flowchart on the base station side in a start-up inspection of the wireless data transmission device shown in FIG.

[Explanation of symbols]

 1 Base Station 2 Mobile Station 3 Host Computer 4 CRT 10 Operating Unit 11 Transmission / Reception Circuit 12 Antenna 13 Microphone 14 Speaker 15 Display 16 ROM 17 RAM 18 CPU 19 Timer 20 Buzzer 21 Transmission / Reception Circuit 22 Antenna 23 Microphone 24 Speaker 25 Display unit 26 ROM 27 RAM 28 CPU 29 Operation unit

Claims (1)

[Claims] 1. A method of performing a start-up inspection between a base station and a plurality of mobile stations, wherein the mobile station is powered on at a distance at which wireless data transmission can be reliably performed and the operating state is judged with the base station. The base station displays a mobile station whose operation status is determined to be abnormal as a result of the transmission test, and prevents the data transmission with that mobile station. Start-up inspection method for wireless data transmission equipment.