JPH02206233A - Mobile terminal equipment data monitoring system - Google Patents

Abstract

PURPOSE:To surely monitor a mobile terminal data in detail by allowing a mobile terminal equipment to add synchronization establishment information and serial number information to a data to be monitored, sending the result to an external display device and allowing the external display device to apply the display processing of a received data. CONSTITUTION:A monitoring data transmission section 23 adds synchronization establishing information SYNC informing whether or not frame synchronization is established as header information, bit shift number information and serial number information revised at every received data to a reception data to be monitored. The resulting data is sent to a monitoring external display device 24 via a monitoring line 25. Then the external display device 24 based on the header information edits and arranges the received data and applies display processing as to the received data. Thus, the mobile terminal equipment distinguishes which data is subjected to synchronization establishment subsequent to the establishment and which data is not prior to the establishment and discriminates the presence or missing of the received data.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a mobile terminal data monitoring system for monitoring data received at a mobile terminal using an external display device.

[Prior Art] Generally, in a mobile radio system, as shown in FIG.
Data is sent and received between the two.

Note that the wireless base station 3 includes a line control device 3A and a wireless device 3B.
This wireless base station 3 is connected to the general telephone network (PSTN).
) 4 to a terminal 5 such as a telephone.

Further, data exchanged between the radio base station 3 and the mobile terminal 1 is carried out in units of frames via a radio channel, and the format of this frame is as shown in FIG. That is, such a frame is configured to include a bit synchronization signal in which 1° and 0 are alternately entered, a bit pattern for synchronizing the frame (frame synchronization signal), and a data section.

Furthermore, as shown in FIG. 8, the mobile terminal 1 further includes an antenna 6, a transmitter/receiver 7. Transmission section 8. Receiving section 9, synthesizer 10. Control unit 11. It consists of a telephone 12 and the like. A detailed explanation of such components will be omitted since this is a boat fishing operation, but the control unit 11 is capable of responding to any bit pattern for the frame synchronization bit pattern of the received frame data. ,For this reason,
As shown in FIG. 9, the control unit 11 includes a baseband unit 13 . Modulator 14. Demosimulator 15. Data receiving section 16, data transmitting section 1
7. Register section 18. Address decoder section 192 interrupt control section 20° memory 21. It is equipped with a CPU 22, etc. Therefore, the baseband section 13 for the RF multiplied signal
Correspondingly, a data receiving section 16 and a data transmitting section 17 are linked to this baseband section 13 via a modulator 14 and a demosimulator 15, and the digitized signal is accessed by the CPU 22 via a register section 18. It has become so.

Furthermore, monitoring of mobile terminal data is performed by connecting an external display device 24' for monitoring to the register section 18 via a monitor data sending section 23'. Note that a personal computer with a CRT or the like is used as the external display device 24'.

Incidentally, detection of frame synchronization is performed in the register unit 18, and when a frame synchronization bit pattern is detected here, the bit counter is reset and the received data is processed in bytes of 8 bits at a time. and set it in the monitor data sending section 23'.
Furthermore, this data is sent via the monitor line 25 to an external display device 24'. This external display device 24'
Now, let's receive the sent monitor data as is,
Performs display processing on data in the data portion of the frame.

[Problems to be Solved by the Invention] However, in such a conventional mobile terminal data monitoring method, although it is possible to easily monitor received data after synchronization is established, it is also difficult to monitor received data before synchronization is established. When performing monitor analysis, there is a problem in that the above-mentioned monitor analysis cannot be performed because it is not possible to distinguish which data is before the establishment of synchronization and which data is after the establishment of synchronization.

The present invention aims to solve these problems by making it possible to distinguish which data is before the establishment of synchronization and which data is after the establishment of synchronization. It is an object of the present invention to provide a mobile terminal data monitoring system that enables detailed and reliable monitoring of mobile terminal data by making it possible to determine even the mobile terminal data.

[Means to solve the problem] FIG. 1 is a diagram explaining the principle of the present invention.

In FIG. 1, Sl is the step of capturing received data, S2 is the step of detecting frame synchronization, and S3 is synchronization establishment information that informs whether frame synchronization has been established or not, and serial number information that is updated for each received data. This is a step of setting this as header information, and these steps are performed on the mobile terminal side.

Further, S4 is a step of sending monitor data, and S5
is a step of editing and organizing the received data based on the header information and displaying the received data. Note that step S5 is performed on the external display device side.

[Operation] With such a configuration, the mobile terminal first takes in received data in step S1 in FIG.
In step S2, frame synchronization is detected, and in step S3, synchronization establishment information and serial number information are set as header information. Then, in step S4, the monitor data is sent from the mobile terminal side to the external display device side, and the external display device that receives the monitor data edits and organizes the received data based on the header information in step S5. Display processing is performed on the received data.

[Example] Hereinafter, the present invention will be described in detail with reference to the drawings.

This embodiment also deals with the case where data received by a mobile terminal that transmits and receives data frame by frame to and from a wireless base station via a wireless transmission path is monitored on an external display device.

FIG. 2 is a block diagram showing the relationship between the control unit 11 of the mobile terminal 1 and the external display device 24. As shown in FIG. The baseband section 13. transmits and receives the RF multiplied signal of the section. Modulator 14. Demosimulator 15. Data receiving section 16. Data transmitting section 17° register section 18. Address decoder section 1
99 interrupt control section 20. Memory 21. CPU2
It has a 2nd class rank. Therefore, the baseband section 13 corresponds to the RF multiplied signal, and the data receiving section 16 and the data transmitting section 17 are linked to this baseband section 13 via the modulator 14 and demosimulator 15, and the digitized signal is transmitted. CPU via register section 18
22.

Furthermore, monitoring of mobile terminal data is also performed by connecting an external display device 24 to the register section 18 via a monitor data sending section 23. Note that a personal computer with a CRT or the like is also used as the external display device 24.

However, the monitor data sending unit 23 and the external display device 2
4 is slightly different from the conventional one. That is, this monitor data sending unit 23 adds synchronization establishment information 5YNC, which indicates whether frame synchronization has been established or not, and bit shift number information (3 bits) to the received data (8 bits) to be monitored as header information. ), and serial number information that is updated by being cyclically incremented for each received data (see Figure 5), and this is added to the monitor line 2.
5 to an external display device 24 for monitoring.

Then, the external display device 24 edits and organizes the received data based on the above header information, and displays the received data.

Next, the operation of this embodiment will be explained using the flowchart shown in FIG.

First, in step A1, received data is taken in 8 bits at a time.

Next, in step A2, the necessity of frame synchronization detection is checked. If frame synchronization is not achieved, there is a need to detect frame synchronization, so step A3
Then, the received data and the frame synchronization bit pattern are compared, and it is determined in step A4 whether or not they match.

If they do not match, the received data is shifted by 1 bit in step A5, the received data and frame synchronization bit pattern are compared again in step A3, and it is determined in step A4 whether the two match. do. If they still do not match, in step A5,
The received data is shifted by 1 bit and the same process is repeated for 8 bits (step 86).

If the two match during this time, the frame synchronization establishment flag is turned on (step A7) and the bit shift number is set (step A8). On the other hand, if the two do not match even after 8 shifts, the frame synchronization establishment flag is turned on (step A7) and the bit shift number is set (step A8). is turned off (step A9), and the bit shift number is reset (step A10).

After that, in step All, it is determined whether the frame synchronization establishment flag is on, and if it is on, the synchronization bit 5YNC of the header information is turned on in step A12, and if it is off, in step A13, the header information is Turn off information synchronization bit 5YNC.

Thereafter, in step A14, the bit shift number of the header information is set, and in step A15, the serial number of the header information is set. here.

As this serial number, a value is set that is cyclically incremented from O to F (hexadecimal) for each byte of received data.

Thereafter, in step A16, the header information + received data is sent as monitor data to an external display device via a monitor line. In this case, if the transmission speed between the wireless base station and the mobile terminal 1 is 1200 bps, overload is prevented by transmitting at least the same speed (1200 bps) or higher.

Apart from the flowchart in Figure 3, the process of capturing received data, detecting frame synchronization, adding header information, and sending out monitor data is schematically shown in Figure 4. It becomes like this.

Thereafter, the external display device 24 edits and organizes the received data based on this header information, and displays the received data. That is, when this external display device 24 receives the sent monitor data and edits the display data, it refers to the header information and distinguishes between data before synchronization is established and data after synchronization is established. The data is edited into a display format that is easy to monitor and analyze by distinguishing the data and checking whether the serial number is cyclically incremented for each received data and determining whether there is any missing data. This is then displayed as appropriate.

After synchronization is achieved, proceed to step A2.

Take the route that does not require frame synchronization detection.

In this way, the data to be monitored on the mobile terminal 1 side is
Since synchronization establishment information, bit shift number information, and serial number information are added as header information and sent to the external display device 24, it is possible to identify which data is before synchronization establishment and which data is after synchronization establishment. In addition to being able to distinguish, it is also possible to determine whether or not received data is missing, which makes it possible to monitor and analyze not only received data after synchronization was established, but also received data before synchronization was established. As a result, it can greatly contribute to detailed and reliable monitoring of mobile terminal data.

[Effects of the Invention] As detailed above, according to the mobile terminal data monitoring method of the present invention, synchronization establishment information and 7 serial number information are added as header information to the data to be monitored on the mobile terminal side. Since the data is sent to an external display device, it is possible to distinguish which data is before the synchronization is established and which data is after the synchronization is established, and it is also possible to determine whether or not the received data is missing. As a result, it is possible to monitor and analyze not only received data after synchronization is established, but also received data before synchronization is established, which has the advantage of greatly contributing to detailed and reliable monitoring of mobile terminal data. There is.

[Brief explanation of the drawing]

FIG. 1 is a detailed explanation of the present invention. FIG. 2 is a block diagram showing an embodiment of the present invention. FIG. 3 is a flowchart for explaining the operation of one embodiment of the present invention. FIG. 4 is a diagram for explaining monitor data transmission, FIG. 5 is a diagram for explaining monitor data format, and FIG. 6 is a block diagram for explaining the basic line configuration of a mobile radio system. FIG. 7 is a diagram illustrating the frame configuration, FIG. 8 is a block diagram of the mobile terminal, and FIG. 9 is a block diagram showing the relationship between the control unit of the mobile terminal and an external display device. 15 is a demosimulator, and 16 is a data receiving section. 17 is a data transmission section, 18 is a register section, and 19 is an address decoder section. 20 is an interrupt controller 1-roll section, 21 is a memory, 22 is a CPU, and 23 is a monitor data sending section. 24 is an external display device, and 25 is a monitor line. In the figure, 1 is a mobile terminal. 2 is a wireless transmission path; 3 is a wireless base station; 11 is a control unit; 13 is a baseband unit; 14 is a modulator;

Claims (1)

[Claims] An external display device (24) displays data received at a mobile terminal (1) that transmits and receives data frame by frame to and from a wireless base station (3) via a wireless transmission path (2). When monitoring the data, the mobile terminal (1) side adds synchronization establishment information to the data to be monitored as header information, which indicates whether frame synchronization has been established or not, and which is updated for each received data. The external display device (24) edits and organizes the received data based on the header information and performs display processing on the received data. A mobile terminal data monitoring method characterized by: