JP2885784B1 - Remote debugging system and method using test transceiver - Google Patents

Abstract

A remote debugging operation is performed using a test transceiver. A location including a mobile communication network, a public communication network connected to the mobile communication network, and a debugging terminal for performing debugging work via the public communication network, where a wireless base station is installed. Debugging work such as data tracing can be performed without going to.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

[0001] 1. Field of the Invention [0002] The present invention relates to a remote debugging apparatus and method using a test transceiver.

[0002]

FIG. 9 shows a conventional radio base station (BTS) 1.
FIG. 4 is a block diagram of an apparatus for performing the debugging work of FIG. As shown in FIG. 9, the conventional technique includes a first
Base station radio equipment (TRE) 2 having
And a test transmission / reception device (TTR) 3 housed in the TS1 and having a second antenna.
A signal input from a base station control station (not shown) is
A transmission line interface unit 22 for multiplexing a voice and a control signal upon receiving a call and separating the control signal from the base station control station;
And a first control unit 21 having a control and debug function in the TRE 2 and a first control unit 2
1 is converted into a high-frequency signal under the control of the first control unit 21 and transmitted to the space from the first antenna 9, and the high-frequency signal received by the first antenna 9 is received at the time of an incoming call. A radio unit 20 that converts a signal into a digital signal and sends the digital signal to a first control unit 21; a radio unit 20 connected to the radio unit 20 and having an interface with the first control unit 21; a mobile communication network and a public communication network And a debugger interface unit 23 that performs a signal interface with the debugging terminal 8 through the TRE3.
Send and receive high-frequency signals to and from public communication terminals via
At the time of an incoming call, a mobile communication terminal (MS) that performs an automatic outgoing / incoming operation on a call signal from a public communication terminal, converts an incoming high-frequency signal into a digital signal, and sends the data to the next stage when the signal exists. 24 and the control signal from the MS 24 to control the MS 24, and the debugger interface unit 2
And a second control unit 25 that sends out a signal input from the MS 2 to the MS 24.

Conventionally, when a problem occurs in a radio base station in commercial operation, a maintenance person or a technician needs to bring a debugging terminal to the radio base station where the problem has occurred to perform debugging work such as data tracing. was there.

Since the radio base station is generally installed in an unmanned station or a relay box in many cases, the state of the hardware of the radio base station has been controlled remotely from a monitoring facility such as an operation center. Although simple control such as monitoring and resetting can be performed, debugging work such as data tracing in the radio base station could not be performed. Therefore, when performing a debugging operation such as a data trace in the radio base station, as shown in the prior art of FIG. 9, the user goes to the place where the BTS 1 is installed and directly sends the debugging terminal to the debugger interface unit 22. 8 had to be connected.

[0005]

The prior art described above employs a configuration in which a debugging terminal is connected to a debugger interface section in a radio base station in which a problem has occurred to perform a debugging operation.

However, in such a configuration, if any problem occurs in the radio base station, a maintenance person or a technician has a debugging terminal and goes to the site where the radio base station is installed for debugging. As a result, the time and expense required for maintenance personnel and technicians to go to the site are enormous, especially when radio base stations are located in geographically remote places and It is a serious problem if you are far away.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned problems of the prior art, and uses a data communication function of a test transmitting / receiving apparatus to transmit from an arbitrary public telephone terminal or to an arbitrary mobile terminal. An object of the present invention is to freely connect a communication terminal to an arbitrary base station wireless device and remotely perform a debugging operation such as a data trace.

[0008]

In order to solve the above problems, a mobile communication network, a public communication network connected to the mobile communication network, and a debugging terminal for performing a debugging operation via the public communication network are provided. The mobile communication network includes a wireless base station that performs wireless transmission and reception, a base station wireless device that is housed in the wireless base station and includes a first antenna, and a second base station that is housed in the wireless base station.
A test transmission / reception apparatus having an antenna, a base station control station connected to the radio base station and performing control for selecting the radio base station, and a mobile station connected to the base station control station and performing control for selecting the base station control station A communication exchange, and the public communication network comprises:
A mobile communication network is connected to a public communication network, and a public communication exchange for performing circuit switching of the public communication network, and a public communication terminal connected to the public communication exchange are provided. Are connected.

In addition, the radio base station separates a signal input from the base station control station into voice, data and a control signal for controlling the base station radio apparatus at the time of transmission, and at the time of reception, voice, data and control signal. A transmission line interface unit for multiplexing and transmitting the signal to the base station control station, a first control unit having a function of inputting a signal from the transmission line interface unit and having a control and debugging function in the base station radio apparatus, The digitalized voice and data input from the first control unit are converted into high-frequency signals under the control of the first control unit and transmitted to the space from the first antenna. The signal is converted to a digital signal and the first
A wireless unit for transmitting to the first control unit, an interface with the first control unit, and a signal interface with a debugging terminal via a mobile communication network and a public communication network. A test transmitting / receiving apparatus for transmitting / receiving a high-frequency signal to / from a public communication terminal via a second antenna, and performing an automatic call receiving operation on a call signal from the public communication terminal when receiving an incoming call. If the incoming high-frequency signal is converted to a digital signal and the signal is data, the mobile communication terminal sends the data to the next stage, and the mobile communication terminal is controlled by a control signal from the mobile communication terminal, and the debugger interface unit A second control unit for transmitting the input / output signal to the mobile communication terminal.

The mobile communication network includes a mobile communication network, a public communication network connected to the mobile communication network, and a debugging terminal for performing a debugging operation via the public communication network. The mobile communication network performs wireless transmission and reception. A radio base station, a base station radio device housed in the radio base station and provided with the first antenna, a test transmitting / receiving device housed in the radio base station and provided with the second antenna,
A base station control station connected to the radio base station and performing control to select the radio base station, and a mobile communication switching center connected to the base station control station and performing control to select the base station control station,
The public communication network includes a public communication exchange that connects the mobile communication network and the public communication network and performs circuit switching of the public communication network, and a public communication terminal connected to the public communication exchange. Connect a debugging terminal to the terminal, and the wireless base station
At the time of transmission, the signal input from the base station control station is separated into voice and data and a control signal for controlling the base station radio apparatus, and at the time of reception, the voice, data and control signal are multiplexed and transmitted to the base station control station. A transmission line interface unit;
A first control unit that receives a signal from the transmission line interface unit and has a control and debug function in the base station wireless device;
At the time of transmission, digitized voice and data input from the first control unit are converted into a high-frequency signal under the control of the first control unit and transmitted to the space from the first antenna.
A radio unit that converts a high-frequency signal received by the first antenna into a digital signal and sends the digital signal to the first control unit; and a wireless unit that is connected to the first control unit and has an interface with the first control unit. A debug interface unit for performing a signal interface with a debugging terminal via a mobile communication network and a public communication network, wherein the test transmitting and receiving apparatus transmits and receives high-frequency signals to and from the public communication terminal via a second antenna; At the time of an incoming call, an automatic incoming call operation is performed on a call signal from a public communication terminal, an incoming high-frequency signal is converted into a digital signal, separated into a signal, data, and a control signal. The mobile communication terminal is controlled by the mobile communication terminal transmitted to the next stage and the control signal from the mobile communication terminal, and the signal input / output from the debugger interface unit is transmitted to the mobile communication terminal. A second step of issuing a call request from a debugging terminal to a public communication terminal, and a call request in the first step. Receiving a call from the public communication terminal to the mobile communication terminal in the test transmitting / receiving apparatus, a third step of returning a response to the call in the second step to the public communication terminal, a third step A fourth step of receiving a response from the public communication terminal to return a connection completion to the debugging terminal, a fifth step of issuing a communication mode change request from the debugging terminal to a mobile communication terminal in the test transmitting / receiving apparatus, A response to the communication mode change request in the step 5 is returned to the debugging terminal, and a sixth step of establishing a data communication link is performed. A seventh step of sending a connection destination change request to the second control unit; an eighth step of returning a response to the connection destination change request in the seventh step to the debugging terminal; A ninth step of sending a connection confirmation to the debugger interface unit of the first step, and a tenth step of returning a response to the connection confirmation in the ninth step to the debugging terminal to start a debugging operation. .

In addition, the mobile communication network includes a mobile communication network, and a debugging terminal for performing a debugging operation via the mobile communication network. The mobile communication network includes a first wireless base station that performs wireless transmission and reception, and a first wireless base station. A base station radio apparatus housed in the station and having a first antenna, a test transmitting / receiving apparatus housed in the first radio base station and having a second antenna, and a first radio apparatus connected to the first radio base station and connected to the first radio base station; A first base station control station for performing control for selecting a base station; and a first base station control station connected to the first base station control station.
A mobile communication switching center for controlling the base station control station, a second base station control station connected to the mobile communication switching center, and a second base station connected to the second base station control station and including a third antenna. And a second mobile communication terminal having a fourth antenna and making a call to the second radio base station, wherein a debugging terminal is connected to the second mobile communication terminal. And

Further, the first radio base station separates a signal input from the first base station control station into voice and data and a control signal for controlling the base station radio apparatus at the time of outgoing call, And a transmission line interface unit for multiplexing data and control signals and transmitting the multiplexed data and control signals to the first base station control station, and a signal having a signal input from the transmission line interface unit and having control and debugging functions in the base station radio apparatus. And a control unit for converting the digitized voice and data input from the first control unit into a high-frequency signal under the control of the first control unit at the time of transmission, transmitting the signal to the space from the first antenna, A radio unit that converts a high-frequency signal received by the first antenna into a digital signal and sends the digital signal to a first control unit;
A debug interface unit connected to the first control unit, having an interface with the first control unit, and performing a signal interface with a debugging terminal via a mobile communication network and a public communication network; The device transmits and receives high-frequency signals to and from the public communication terminal via the second antenna, performs an automatic call receiving operation on a call signal from the public communication terminal when receiving a call, and converts the received high-frequency signal to a digital signal. If the signal is data, the first mobile communication terminal that sends the data to the next stage and the first mobile communication terminal are controlled by a control signal from the first mobile communication terminal, and are input from the debugger interface unit. And a second control unit for transmitting the output signal to the first mobile communication terminal.

[0013] Further, the debugger interface section in the base station radio apparatus is connected via only a mobile communication network.

The mobile communication network further includes a mobile communication network, and a debugging terminal for performing a debugging operation via the mobile communication network. The mobile communication network includes a first radio base station for transmitting and receiving radio waves, and a first radio base station. A first radio base station which is connected to a base station radio apparatus provided with a first antenna and accommodated in a station, a test transmitting / receiving apparatus which is accommodated in a first radio base station and has a second antenna, and a first radio base station; A first base station control station for performing control for selecting a base station; and a first base station control station connected to the first base station control station.
A mobile communication switching center for controlling the base station control station, a second base station control station connected to the mobile communication switching center, and a second base station connected to the second base station control station and including a third antenna. Wireless base station, comprising a fourth antenna, a second mobile communication terminal for calling the second wireless base station, the debugging terminal is connected to a second mobile communication terminal, The first radio base station separates a signal input from the first base station control station into voice and data and a control signal for controlling the base station radio apparatus at the time of transmission, and separates the voice, data and control signal at the time of reception. A transmission line interface unit for multiplexing and transmitting the signal to the first base station control station, a first control unit for inputting a signal from the transmission line interface unit and having a control and debugging function in the base station radio apparatus, Digitized input from the first control unit The voice and data are converted into high-frequency signals under the control of the first control unit, transmitted from the first antenna to the space, and upon arrival, the high-frequency signals received by the first antenna are converted into digital signals, A wireless unit for sending to the first control unit, a signal interface connected to the first control unit, having an interface with the first control unit, and a debugging terminal via a mobile communication network and a public communication network The test transmitting and receiving apparatus transmits and receives a high-frequency signal to and from the public communication terminal via the second antenna, and performs an automatic call receiving operation for a call signal from the public communication terminal when receiving a call. If the signal is data, the first mobile communication terminal that sends the data to the next stage and the first mobile communication terminal are controlled by a control signal from the first mobile communication terminal, and the debugger A second control unit for transmitting a signal input and output from the interface unit to the first mobile communication terminal, wherein the call is transmitted from the debugging terminal to the first mobile communication terminal. A first step of issuing a request; a second step of receiving a call request in the first step and calling the second mobile communication terminal in the test transmitting / receiving apparatus from the first mobile communication terminal; A third step of returning a response to the call in the second step to the first mobile communication terminal; and receiving a response in the third step, returning a connection completion from the second mobile communication terminal to the debugging terminal. A fourth step, a fifth step of issuing a communication mode change request from the debug terminal to the second mobile communication terminal in the test transmitting / receiving apparatus, and a response to the communication mode change request in the fifth step being a debug terminal. Returned to A sixth step of establishing a data communication link;
A seventh step of issuing a connection destination change request from the debugging terminal to the second control unit in the test transmitting / receiving apparatus, and an eighth step of returning a response to the connection destination change request in the seventh step to the debugging terminal. A ninth step of sending a connection confirmation from the debugging terminal to the debugger interface unit in the base station radio apparatus, and a tenth step of returning a response to the connection confirmation in the ninth step to the debugging terminal to start a debugging operation. And a step of:

By adopting the above configuration, in the present invention, using the data communication function of the test transmission / reception device, the data of the base station radio apparatus equivalent to connecting the debugging terminal directly to the debugger interface unit. Debug work such as tracing can be performed remotely.

Further, since a debug terminal can be connected to any radio base station from any public communication terminal of the public communication network or any mobile communication terminal of the mobile communication network, debugging work can be performed from anywhere. It is not necessary to go to the place where the wireless base station is installed.

[0017]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A first embodiment of the present invention will be described with reference to the drawings.

A first embodiment of the present invention relates to a public communication network 20.
The debug operation of the base station radio equipment (TRE) 2 of the mobile communication network is performed via the public communication terminal 7 of the mobile communication network.

FIG. 1 is a block diagram showing the configuration of the first embodiment of the present invention. In the present embodiment, the mobile communication network 100
And a public communication network 200 connected to the mobile communication network 100
And a debugging terminal 8 for performing a debugging operation via the public communication network when a problem occurs in the wireless base station (BTS) 1 in the mobile communication network 100.

The mobile communication network 100 comprises a BTS 1 accommodating a TRE 2 and a test transceiver (TTR) 3, a base station control station (BSC) 4, and a mobile communication switching center (MSC) 5. It is composed of a public communication exchange 6 and a public communication terminal 7.

Although FIG. 1 shows only one BTS1, BSC4 and MSC5, each BSC4 actually accommodates several tens of BTS1s and the MSC5.
Accommodates dozens of BSCs 4, and the public switched telephone exchange 6 accommodates innumerable public communication terminals 7. FIG. 3 shows these MSs.
It is a conceptual diagram which shows the connection hierarchy of C5, BSC4, and BTS1.

The TRE 2 has a first antenna 9 and a BS
The audio signal and data transmitted from C4 are converted into harmonic signals and transmitted from the first antenna 9 to space. T
TR3 includes a second antenna 10 for receiving a harmonic signal.

The BSC 4 performs control to select a plurality of BTSs 1 provided under the control as described above, and the MSC 5 connects to the public communication exchange 6 of the public communication network 200 and selects the plurality of BSCs 4 provided under the control. I do.

Further, a plurality of public communication terminals 7 are connected to the public communication exchange 6. The debugging terminal 8 can be connected to any one of the plurality of public communication terminals 7.

FIG. 2 shows a BTS 1 according to the first embodiment of the present invention.
FIG. 3 is a diagram showing an internal block diagram of FIG.

As shown in FIG. 2, at the time of transmission, the TRE 2 converts a signal from the BSC 4 into voice and data (non-voice).
And the control signal for controlling the TRE2, the voice and the data are transmitted to the radio section 20 through the path a, and the control signal for controlling the TRE2 is transmitted to the first control section 21 through the path b.
And a transmission line interface unit 22 which multiplexes voice and data input from the radio unit 20 through the path b and a signal input from the control unit 21 through the path a and transmits the multiplexed signal to the BSC 4 upon reception. , A control signal from the TRE 2 via the transmission line interface unit 22, a first control unit 21 having a control function in the TRE 2 and a debugging function such as a data trace, and a digitized voice from the transmission line interface unit 22. The signals and data are converted into high-frequency signals under the control of the first control unit 21 and transmitted to the space from the first antenna 9, and the high-frequency signals from the MS 24 in the TTR 3 are received by the first antenna 9, and voice and data are received. A radio unit 20 for digitizing and transmitting to the transmission path interface unit 22; a first control unit 21 in the TRE 2;
It is connected to the second control unit 25 in R3, has a signal interface between the first control unit 21 and the second control unit 25, and communicates with the debugging terminal 8 via a mobile communication network and a public communication network. And a debugger interface unit 23 having a signal interface.

On the other hand, the TTR 3 transmits and receives high-frequency signals via the second antenna 10, and performs an automatic calling and receiving operation for a calling signal under the control of the second control unit 25 as described below, and If the signal is data, the MS and the MS 24 send the data and the control signal to the second control unit 25 through the path c, and the MS 24 converts the high-frequency signal input from the second antenna 10 and inputs the converted signal. The second control unit 25 controls the MS 24 according to the control signal and sends a signal to the debugger interface unit 23 to the MS 24 in the TTR 3 through the path d.

Here, the MSC 5 controls the BSC 4,
SC4 controls the radio line of BTS1. Also, M
The SC 5 controls the switching of the wired line of the mobile communication system.

FIG. 4 is a diagram showing that any public communication terminal on the public communication network can connect to any base station radio device on the mobile communication network.

As shown in FIG. 4, public communication terminal PT1
Is 1 to n arbitrary TRE2s (TED1 to TEn)
Can be connected freely. The public communication terminal PT2 can be freely connected to 1 to n arbitrary TRE2s (TE1 to TEn). Further, the public communication terminal PTn can be freely connected to 1 to n arbitrary TRE2s (TE1 to TEn). However, the debug terminal 8 is limited to a connectable public communication terminal.

The public communication terminal 7 is, for example, a general home telephone, and the debugging terminal 8 is, for example, a TR.
A personal computer or a workstation equipped with a terminal software for remotely controlling a computer or the like in addition to a console function for debugging the E2.

FIG. 5 shows the debug terminal 8 and the debugger interface unit 23 in the TRE 2 according to the first embodiment of the present invention.
6 is a sea case flow showing an operation of connecting to the server. In FIG. 5, according to this sequence, commands and signals are exchanged between the debugging terminal and other devices in order from the top to the bottom, and a data communication link is established to perform a debugging operation.

The procedure from establishing a data communication link to performing a debugging operation will be briefly described. First, a call is made from the debugging terminal 8 to the MS 24 in the TTR 3 of the BTS 1,
A data communication link is established between the public communication terminal 7 and the MS 24 in the TTR 3, and the debugging terminal 8 connected to the public communication terminal 7 transmits data (non-voice) communication from the voice communication to the MS 24 in the TTR 3. The MS 24 requests to change the communication mode to the data communication mode.

As described above, the BTS 1 connected to the debugger interface unit 23 in the TRE 2 via the signal line 26
A data communication link between the control unit 25 in the TTR 3 and the debugging terminal 8 connected to the public communication terminal 7 is established.

Next, the operation of the first embodiment of the present invention will be described in detail with reference to FIGS.

A call request is issued from the debugging terminal 8 to the public communication terminal 7 (step S100). Debugging terminal 8
In response to the call request from, the public communication terminal 7 calls the MS 24 in the TTR 3 (step S101). The response to the call in step S101 is sent to MS 24 in TTR3.
Is returned to the public communication terminal 7 (step S102). In response to the response in step S102, the public communication terminal 7 returns a connection completion to the debugging terminal 8 (step S103).
The debug terminal 8 issues a communication mode change request to the MS 24 (step S104). A response to the communication mode change request in step S104 is returned to the debugging terminal 8, and a data communication link is established (step S10).
5). The debug terminal 8 issues a connection destination change request to the second control unit 25 in the TTR 3 (step S106). A response to the connection destination change request in step S106 is returned to the debugging terminal 8 (step S107). Debugger interface unit 23 in TRE 2 from debug terminal 8
(Step S108). The response to the connection confirmation in step S108 is
To start the debugging work (step S10).
9).

At the time of debugging, a signal is sent along the arrows shown in FIGS.

A second embodiment of the present invention will be described with reference to the drawings.

In the second embodiment of the present invention, debugging of the inside of the base station radio equipment (TRE) 2 is performed from the mobile communication terminal of the mobile communication network.

FIG. 6 is a block diagram showing the configuration of the second embodiment of the present invention. The same elements as those in the first embodiment are denoted by the same reference numerals. In this embodiment, the mobile communication network 10
0, and a debugging terminal 8 that performs debugging work via the wireless communication network 100 when a problem occurs in the wireless base station (BTS) 1 in the mobile communication network 100.

The mobile communication network 100 includes a base station radio apparatus (T
RE) 2 and a first radio base station (BTS) 1 accommodating a test transceiver (TTR) 3 and a base station control station (BS).
C) 4 and a mobile switching center (MSC) 5;
Second BSC 11 and second BTS connected to MSC 5
12 and a mobile communication terminal (MS) 14.

FIG. 6 shows BTS1, 12BSC
4 and 11 and the MSC 5 are shown two each, but in reality, as shown in FIG. 3, the BSCs 4 and 11 accommodate dozens of the first BTS1 and the second BTS12,
MSC5 accommodates dozens of BSCs 4 and 11, and MSC5
House countless MSs 14.

The TRE 2 has a first antenna 9 and a BS
The audio signal and data transmitted from C4 are converted into harmonic signals and transmitted from the first antenna 9. TTR3
Comprises a second antenna 10 for receiving harmonic signals. The second BTS 12 also includes a third antenna 13 and sends out a harmonic signal received from the MS 14 to the BSC 11. The debugging terminal 8 can be connected to any of the MSs 14.

The internal configuration of the BTS 1 of this embodiment is the same as that of the first embodiment shown in FIG.

FIG. 7 is a diagram showing that any mobile communication terminal of the mobile communication terminal network can connect to any base station radio apparatus.

As shown in FIG. 7, the mobile communication terminal MT1
Can be freely connected to 1 to n arbitrary TREs (TE1 to TEn). The mobile communication terminal MT2 is 1 to n
Any TRE (TE1 to TEn) can be freely connected. Further, the mobile communication terminal MTn can be freely connected to 1 to n arbitrary TREs (TE1 to TEn).

The mobile communication terminal is, for example, a general mobile phone, but is limited to a mobile communication terminal to which the debugging terminal 8 can be connected.

FIG. 8 shows the debug terminal 8 and the debugger interface unit 23 in the TRE 2 according to the second embodiment of the present invention.
FIG. 7 is a diagram showing a sea case flow showing an operation of connecting to the server.

The procedure from establishing a data communication link to performing a debugging operation will be briefly described. First, a call is made from the debugging terminal 8 to the first MS 24 in the TTR 3,
A data communication link is established between the MS 14 and the first MS 24, and the debugging terminal 8 connected to the public communication terminal 7 switches from the voice communication to the data (non-voice) communication mode to the first MS 24. The first MS 24 requesting to change the communication mode changes the communication mode to data communication.

As described above, the first B connected to the debugger interface unit 23 in the TRE 2 via the signal line 26
A data communication link is established between the first control unit 25 in the TTR 3 of the TS 1 and the debugging terminal 8 connected to the second mobile communication terminal 14.

Next, a second embodiment of the present invention will be described with reference to FIGS.

A call request is issued from the debugging terminal 8 to the second MS 14 (step S200). Debugging terminal 8
In response to the call request from, the second MS 14 calls the first MS 24 in the TTR 3 (step S201). The response to the call in step S201 is sent to the first MS 24
To the second MS 14 (step S202). In response to the response in step S202, the second MS 14 returns a connection completion to the debugging terminal 8 (step S203).
The debug terminal 8 issues a communication mode change request to the first MS 24 (step S204). The response to the communication mode change request in step S204 is
To establish a data communication link (step S2).
05). The debug terminal 8 issues a connection destination change request to the second control unit 25 in the TTR 3 (step S206).
A response to the connection destination change request in step S206 is returned to the debugging terminal 8 (step S207). Debugger interface unit 2 in TRE 2 from debug terminal 8
3 is sent a connection confirmation (step S208). The debugger interface unit 23 returns a response to the connection confirmation in step S207 to the debugging terminal 8, and starts debugging (step S209).

At the time of debugging, a signal is sent along the arrow shown in FIG.

[0054]

As described above, according to the present invention, the following remarkable effects can be obtained.

(1) The debugging terminal is connected to the public communication terminal, and the debugging terminal communicates with the mobile communication terminal in the test transmitting / receiving device in the radio base station in the data communication mode. To connect the debugger interface unit in the base station wireless device to the debugging terminal by connecting the data communication to the debugger interface unit in the base station wireless device, thereby setting up the wireless base station. Debug work such as data tracing of the base station wireless device can be performed without going to a place.

(2) After the debugging terminal is connected to the public communication terminal or the mobile communication terminal, the public communication terminal or the mobile communication terminal calls the mobile communication terminal in the test transmitting / receiving device of an arbitrary radio base station. By connecting the debug terminal, the debugger interface unit in the base station wireless device and the debug terminal, the debug terminal can be connected to any wireless base station from any public communication terminal or mobile communication terminal. be able to.

[Brief description of the drawings]

FIG. 1 is a diagram showing a block diagram of a first embodiment of the present invention.

FIG. 2 is a diagram showing an internal block diagram of a wireless base station according to the first embodiment of the present invention.

FIG. 3 is a mobile switching center (MSC), a base station control station (B)
FIG. 2 is a conceptual diagram showing a connection hierarchy of SC) and a radio base station (BTS).

FIG. 4 is a diagram showing that an arbitrary public communication terminal of a public communication network can be freely connected to an arbitrary base station wireless device of a mobile communication terminal.

FIG. 5 is a flowchart showing a connection operation between the debugging terminal according to the first embodiment of the present invention and a debugger interface unit in the base station wireless device.

FIG. 6 is a diagram showing a block diagram of a second embodiment of the present invention.

FIG. 7 is a diagram showing that any mobile communication terminal in a mobile communication network can connect to any base station wireless device.

FIG. 8 is a sequence flow showing a connection operation between a debugging terminal according to a second embodiment of the present invention and a debugger interface unit in a base station wireless device.

FIG. 9 is a block diagram showing a conventional apparatus for debugging a radio base station.

[Explanation of symbols]

 Reference Signs List 1,12 Radio base station (BTS) 2 Base station radio equipment (TRE) 3 Test transceiver (TTR) 4,11 Base station control station (BSC) 5 Mobile communication switching center (MSC) 6 Public communication switching station 7 Public communication Terminal 8 Debugging terminal 9, 10, 13, 15 Antenna 14, 24 Mobile communication terminal (MS) 20 Radio unit 21, 25 Control unit 22 Transmission path interface unit 23 Debugger interface unit 26 Signal line 100 Mobile communication network 200 Public communication network

Continuation of the front page (58) Field surveyed (Int. Cl. ⁶ , DB name) H04B 7/24-7/26 H04Q 7/00-7/38

Claims (7)

(57) [Claims] 1. A remote debugging system using a test transceiver, comprising: a mobile communication network; a public communication network connected to the mobile communication network; and a debugging terminal for performing a debugging operation via the public communication network. The mobile communication network comprises: a radio base station that performs radio transmission / reception; a base station radio apparatus housed in the radio base station and including a first antenna; and a second base station housed in the radio base station. A test transmitting / receiving apparatus including an antenna, a base station control station connected to the radio base station and performing control for selecting the radio base station, and control connected to the base station control station and selecting the base station control station A mobile communication switching center that performs connection between the mobile communication network and the public communication network, and performs a circuit switching of the public communication network; and the public communication network. Exchange ; And a public communication terminal connected to the station, remote debugging system using a test transceiver, characterized in that connecting the debugging terminal to the public communication terminal. 2. The remote debugging system using the test transceiver according to claim 1, wherein the radio base station, when transmitting, transmits a signal input from the base station control station to voice, data, and the base station radio apparatus. A transmission line interface unit for multiplexing a voice and data and a control signal and transmitting the multiplexed control signal to the base station control station when receiving a call, and inputting a signal from the transmission line interface unit to the base station. A first control unit having control and debugging functions in the station radio apparatus, and converting a digitized voice and data input from the first control unit into a high-frequency signal under the control of the first control unit at the time of transmission. Then, the signal is transmitted from the first antenna to the space, and at the time of an incoming call, a high-frequency signal received by the first antenna is converted into a digital signal, and transmitted to the first control unit. A debugger that is connected to the first control unit, has an interface with the first control unit, and performs a signal interface with the debugging terminal via a mobile communication network and a public communication network; An interface unit, wherein the test transmitting / receiving apparatus transmits / receives a high-frequency signal to / from the public communication terminal via the second antenna, and automatically receives a call signal from the public communication terminal when receiving a call. Perform an operation, convert an incoming high-frequency signal into a digital signal, and when the signal is data, a mobile communication terminal that sends data to the next stage, and control the mobile communication terminal by a control signal from the mobile communication terminal. And a second control unit for transmitting a signal input / output from / to the debugger interface unit to the mobile communication terminal. Remote debugging system. 3. A mobile communication network comprising: a mobile communication network; a public communication network connected to the mobile communication network; and a debugging terminal for performing a debugging operation via the public communication network. A wireless base station that performs transmission and reception, a base station wireless device that is housed in the wireless base station and includes a first antenna, a test transceiver that is housed in the wireless base station, and that includes a second antenna, A base station control station that is connected and performs control for selecting the radio base station; and a mobile communication switching center that is connected to the base station control station and performs control for selecting the base station control station. A communication network connects the mobile communication network and the public communication network,
A public communication exchange that performs circuit switching of the public communication network, and a public communication terminal connected to the public communication exchange; connecting the debugging terminal to the public communication terminal;
The radio base station separates a signal input from the base station control station into voice and data and a control signal for controlling the base station radio apparatus when transmitting, and multiplexes the voice, data and control signal when receiving a call. A transmission line interface unit for transmitting to the base station control station, a signal input from the transmission line interface unit, a first control unit having a control and debugging function in the base station radio apparatus, The digitized voice and data input from the first control unit are converted into a high-frequency signal under the control of the first control unit and transmitted to the space from the first antenna.
A radio unit that converts a high-frequency signal received by the first antenna into a digital signal and sends the digital signal to the first control unit;
A debugger interface unit connected to the first control unit, having an interface with the first control unit, and performing a signal interface with the debugging terminal via a mobile communication network and a public communication network; The test transmitting / receiving apparatus transmits and receives a high-frequency signal to and from the public communication terminal via the second antenna, and performs an automatic call receiving operation on a call signal from the public communication terminal upon receiving an incoming call. A high-frequency signal is converted into a digital signal, separated into a signal, data, and a control signal. If the signal is data, the mobile communication terminal sends the data to the next stage, and the mobile terminal is controlled by a control signal from the mobile communication terminal. Control the communication terminal,
A second control unit for transmitting a signal input / output from the debugger interface unit to the mobile communication terminal, the remote control method being performed by a system comprising: a call request from the debugging terminal to the public communication terminal; A second step of receiving a call request in the first step and calling the mobile communication terminal in the test transmitting / receiving apparatus from the public communication terminal; and A third step of returning a response to the call made in the step to the public communication terminal; and a fourth step of receiving a response in the third step and returning a connection completion from the public communication terminal to the debugging terminal. A fifth step of issuing a communication mode change request from the debugging terminal to the mobile communication terminal in the test transmitting / receiving apparatus; and a communication mode in the fifth step. A response to the command change request is returned to the debugging terminal, and a sixth step of establishing a data communication link; and transmitting a connection destination change request from the debugging terminal to the second control unit in the test transmitting / receiving apparatus. An eighth step of returning a response to the connection destination change request in the seventh step to the debugging terminal; and transmitting the response from the debugging terminal to the debugger interface unit in the base station wireless device. Mobile transmission / reception including: a ninth step of sending a connection confirmation; and a tenth step of returning a response to the connection confirmation in the ninth step to the debugging terminal to start a debugging operation. Remote debugging method using a machine. 4. A remote debugging system using a test transmission / reception device, comprising: a mobile communication network; and a debugging terminal for performing a debugging operation via the mobile communication network. A first radio base station that performs the following: a base station radio apparatus accommodated in the first radio base station and including a first antenna; and a test transmission / reception including a second antenna accommodated in the first radio base station. An apparatus, a first base station control station connected to the first radio base station and performing control for selecting the first radio base station, and a first base station control station connected to the first base station control station; A mobile communication switching center for controlling one base station control station; a second base station control station connected to the mobile communication switching center; a third antenna connected to the second base station control station; A second radio base station comprising: And a second mobile communication terminal for calling the second radio base station, wherein the debugging terminal is connected to the second mobile communication terminal. Remote debugging system used. 5. The remote debugging system using the test transceiver according to claim 4, wherein the first wireless base station converts a signal input from the first base station control station into voice and data when transmitting. Separated into a control signal for controlling the base station radio apparatus,
A transmission line interface unit for multiplexing voice and data and a control signal and transmitting the multiplexed control signal to the first base station control station; inputting a signal from the transmission line interface unit and controlling and debugging functions in the base station radio apparatus A first control unit having a function of: converting a digitized voice and data input from the first control unit into a high-frequency signal under the control of the first control unit at the time of transmission; And a radio unit that converts a high-frequency signal received by the first antenna into a digital signal at the time of an incoming call, and transmits the digital signal to the first control unit. The radio unit is connected to the first control unit, A debugger interface unit having an interface with the control unit 1 and a signal interface with the debugging terminal via a mobile communication network and a public communication network; The transmitting and receiving device transmits and receives a high-frequency signal to and from the public communication terminal via the second antenna, and performs an automatic call receiving operation on a call signal from the public communication terminal at the time of an incoming call. A first mobile communication terminal that converts the data into a digital signal and, when the signal is data, sends the data to the next stage, and the first mobile communication terminal according to a control signal from the first mobile communication terminal.
A second control unit for controlling the mobile communication terminal of the first embodiment and transmitting a signal input / output from the debugger interface unit to the first mobile communication terminal. system. 6. A remote debugging system using the test transceiver according to claim 4 or 5, wherein a debugger interface unit in the base station wireless device is connected only via the mobile communication network. Remote debugging system using mobile transceiver. 7. A mobile communication network comprising: a mobile communication network; and a debugging terminal for performing a debugging operation via the mobile communication network, wherein the mobile communication network includes a first wireless base station that performs wireless transmission and reception; A base station radio apparatus accommodated in a first radio base station and including a first antenna; a test transceiver apparatus accommodated in the first radio base station and including a second antenna;
A first base station control station connected to the first base station control station, the first base station control station performing control for selecting the first radio base station, and the first base station control station connected to the first base station control station , A second base station control station connected to the mobile communication center, and a second radio base station connected to the second base station control station and provided with a third antenna And a second mobile communication terminal having a fourth antenna and calling the second radio base station, and connecting the debugging terminal to the second mobile communication terminal, The first radio base station separates a signal input from the first base station control station into a voice and data and a control signal for controlling the base station radio apparatus at the time of transmission, A transmission line interface for multiplexing a signal and transmitting the multiplexed signal to the first base station control station. Source unit, a first control unit that receives a signal from the transmission line interface unit, and has a control and debug function in the base station radio apparatus, and a digitization unit that is input from the first control unit at the time of transmission. The converted voice and data are converted into a high-frequency signal under the control of the first control unit, transmitted to the space from the first antenna, and converted into a digital signal from the high-frequency signal received by the first antenna upon arrival. And a wireless unit for transmitting to the first control unit, and an interface connected to the first control unit and having an interface with the first control unit, via a mobile communication network and a public communication network. A debug interface unit for performing a signal interface with the debugging terminal, wherein the test transmitting and receiving apparatus transmits and receives high-frequency signals to and from the public communication terminal via the second antenna, During signal performs automatic reception operation on a call signal from the public communication terminal,
If the signal is data, the first to send the data to the next stage
And the first mobile communication terminal is controlled by a control signal from the first mobile communication terminal, and a signal input / output from / to the debugger interface unit is transmitted to the first mobile communication terminal.
A second control unit for sending to the mobile communication terminal, a first step of issuing a call request from the debugging terminal to the first mobile communication terminal. Receiving a call request in the first step, making a call from the first mobile communication terminal to the second mobile communication terminal in the test transmitting / receiving apparatus, and a second step A third step of returning a response to the call originating in the first mobile communication terminal to the first mobile communication terminal; and receiving a response of the third step to return a connection completion from the second mobile communication terminal to the debugging terminal. A fourth step, a fifth step of issuing a communication mode change request from the debugging terminal to the second mobile communication terminal in the test transmitting / receiving apparatus, and a communication mode change request in the fifth step. A sixth step of establishing a data communication link by returning a response to the debugging terminal; and a seventh step of issuing a connection destination change request from the debugging terminal to the second control unit in the test transmitting / receiving apparatus. An eighth step of returning a response to the connection destination change request in the seventh step to the debugging terminal; and transmitting a connection confirmation from the debugging terminal to the debugger interface unit in the base station wireless device. A ninth step; and a tenth step of returning a response to the connection confirmation in the ninth step to the debugging terminal to start a debugging operation. How to debug.