JP2007104239A - Concentrated load false call generator - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To perform a load false call test of a wireless base station system according to the situation that occurs in a real field, by generating a concentrated load false call that simulates such condition as uses of a mobile phone temporarily concentrate. <P>SOLUTION: The false call generator comprises a false call parameter 20 that holds parameters required for generating a concentrated load false call, a false call frequency specifier 30 for specifying frequency of concentrated load false calls that are generated, a false call generator for generating the concentrated load false call of specified frequency based on the parameter held by the false call parameter after notification from a test notifier 70, a false call storage 60 that stores the concentrated load false calls in advance before starting a test, a test start timing 40 that outputs a timing for transmitting the stored concentrated load false calls to the wireless base station system, and a transmitter 5 that transmits the concentrated load false calls transferred from the false call storage to the wireless base station system under the test start instruction from the test start timing. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to an apparatus for generating a pseudo call to a radio base station in order to perform an evaluation test of performance and stability of the radio base station apparatus of a mobile phone.

  Conventionally, when performing the above-described evaluation test, for example, in the pseudo call test method described in Patent Document 1, a test communication device having substantially the same function as the generation device communication device to be tested is used. The processing data of the communication device is received and evaluated by the control / data collection device to shorten the test time and improve the efficiency.

  More specifically, in the above test method, the control / data collection device is connected to the test communication device and the communication device under test via the bus, and the test signal is transferred from the control / data collection device to the test communication device via the bus. The test communication device transmits test information corresponding to the test signal from the control / data collection device to the communication device under test via the signal link, and the control / data collection device transmits processing information of the communication device under test. Is received from the communication device under test via the bus, the response signal returned from the communication device under test to the test communication device is received via the bus, and the device under test is based on each of the received processing information and response information. Evaluate communication device performance.

  The conventional pseudo call generation device used for the evaluation test of the call processing of such a radio base station device is a test (load pseudo call test) which gives a quantitative number of pseudo calls to the radio base station device at a constant time interval. It was possible to do. Here, the pseudo call refers to a call generated in the test. The pseudo call generation device starts communication with the radio base station device by transmitting the generated pseudo call to the radio base station device. By performing this load pseudo call test, it can be used as an index of call processing performance and stability of the radio base station apparatus.

  As shown in FIG. 1, the pseudo call generation device includes a pseudo call generation unit 1 that generates a pseudo call, a pseudo call parameter unit 2 that holds parameters of the pseudo call, and a pseudo call that specifies the number of pseudo calls. A call number designation unit 3, a start timing unit 4 that outputs a test start timing, and a transmission unit 5 that transmits the pseudo call transferred from the pseudo call generation unit 1 to the radio base station.

  Next, the operation of the pseudo call generation device having the above configuration will be described. Before starting the test, the tester specifies the number of pseudo calls to be transmitted by the pseudo call number designating unit 3 (a). The test is started when the test start timing unit 4 outputs the test start timing to the pseudo call generation unit 1 (b). Note that the tester operates the test start timing unit 4 of the pseudo call generator to start the test.

  In order to generate a plurality of pseudo calls during the test, the parameters of each pseudo call need to be different from each other. Therefore, each time a pseudo call is generated, the pseudo call generation unit 1 requests a parameter from the pseudo call parameter unit 2 (c), and the pseudo call parameter unit 2 sends the parameters of each pseudo call to the pseudo call generation unit 1. Transfer (d). The pseudo call generation unit 1 generates a pseudo call, the generated pseudo call is transferred to the transmission unit 5 (e), and the pseudo call is transmitted from the transmission unit 5 to the radio base station apparatus (f).

  Communication with the radio base station apparatus is terminated when a communication end signal is received from the radio base station apparatus. By notifying the pseudo call generating unit 1 of the end of communication of a pseudo call and notifying the pseudo call parameter unit 2 of the end of use of the parameters used in the pseudo call generating unit 1, the parameters can be reused. It was possible to perform a continuous pseudo call test for a long time.

  FIG. 2 shows the operation of the pseudo call generation device when the number of pseudo calls is 1, and the sequence of communication with the radio base station device. Before carrying out the load pseudo call test, the tester sets the number of pseudo calls to be transmitted to the pseudo call number designating unit 3, and the pseudo call call from the pseudo call number designating unit 3 to the pseudo call generating unit 1 Specify a number. Next, the tester operates the test start timing unit 4 to start the load pseudo call test. The test start timing unit 4 outputs the pseudo call generation unit 1 to start the load pseudo call test. The operation of the pseudo call generator corresponds to a to f in FIG. By notifying the pseudo call parameter unit 2 of the end of use of the parameters used in the pseudo call generation unit 1 along with the end of the pseudo call communication, the parameters can be reused.

  FIG. 3 shows the operation of the pseudo call generator when there are a plurality of pseudo calls (in the case of FIG. 3, 3 calls) and the sequence of communication with the radio base station apparatus. The operation of the pseudo call generation device and the communication with the radio base station device are the same as those in FIG. 2, but in order to generate each pseudo call, the pseudo call generation unit 1 and the pseudo call parameter unit 2 have c And f must be repeated.

JP 2000-124999 A

  The pseudo call generation device described above requires c and d in FIG. 1 to generate a pseudo call every time a pseudo call is generated. It is impossible to perform a load pseudo call test that simulates a situation where the number of mobile phone users in the real field exceeds the number of pseudo calls that can be generated in, and temporarily concentrates on a certain location. was there.

  Therefore, the present invention can generate a large number of pseudo calls (hereinafter referred to as “concentrated load pseudo calls”) that simulate situations in which mobile phone users are temporarily suddenly concentrated. An object of the present invention is to enable a load pseudo call test in a radio base station apparatus in accordance with a situation occurring in the field.

  In order to achieve the above object, the present invention is a centralized load pseudo call generation device for performing an evaluation test of a radio base station device, and holds a parameter required for generating a centralized load pseudo call. A pseudo call number designating unit for designating the number of calls of the centralized load pseudo call to be generated, and the pseudo call number designating unit based on the parameters held in the pseudo call parameter unit by notification from the test notification unit A pseudo call generation unit that generates a centralized load pseudo call of the number of calls specified in step 1, a pseudo call storage unit that stores in advance the centralized load pseudo call generated by the pseudo call generation unit before starting the test, A test start timing unit that outputs the timing for transmitting the concentrated load pseudo call stored in the pseudo call storage unit to the radio base station device, and transferred from the pseudo call storage unit according to a test start command from the test start timing unit Characterized in that it comprises a transmitter which transmits the concentrated load pseudo call to the radio base station apparatus.

  According to the present invention, a centralized load pseudo call is generated using the parameters of the pseudo call parameter section, and the central load pseudo call is stored in advance in the pseudo call storage section, thereby generating the pseudo call generation apparatus. It is possible to perform a load pseudo call test in a radio base station apparatus that simulates a situation in which the number of mobile phone users in the real field is temporarily suddenly concentrated at a certain location in excess of the number of possible pseudo calls.

  The pseudo call generation device further includes a second pseudo call parameter unit for holding parameters necessary for generating a pseudo call, and a second pseudo call call number specifying unit for specifying the number of pseudo calls to be generated. A second pseudo call generating unit that generates a pseudo call having the number of calls designated by the second pseudo call number designating unit based on the parameters held in the second pseudo call parameter unit, A second test start timing unit that outputs a timing at which the pseudo call generated by the two pseudo call generation units is transmitted to the radio base device, and a test start command from the second test start timing unit, The pseudo call generated by the second pseudo call generation unit can be transmitted from the transmission unit to the radio base station apparatus. This makes it possible to realize the amount of load when a centralized load pseudo call is periodically given during a test in which a conventional pseudo call is given, and temporarily to one place where the number of mobile phone users is present. It is possible to conduct a test simulating a situation that occurs in an actual field that suddenly concentrates.

  The pseudo call generation device may further include a bit error measurement unit that measures bit errors of call data and packet data received from the radio base station device. As a result, it is possible to measure the data quality of call data and packet data transmitted from the radio base station apparatus under test, which regularly gives concentrated load pseudo calls, to the pseudo call generation apparatus.

  In the pseudo call generation device, the first pseudo call generation unit sends a parameter of concentrated load pseudo calls for the number of calls designated by the first pseudo call number designation unit to the first pseudo call parameter unit. The first pseudo call parameter unit collects the concentrated pseudo call parameters for the number of calls designated by the first pseudo call number designation unit to the first pseudo call generation unit. Can be transferred.

  In the pseudo call generation device, the first test start timing unit may start the test at an arbitrary time after a concentrated load pseudo call is stored in the first pseudo call storage unit. Can be output to the pseudo call storage unit.

  As described above, according to the present invention, a radio base station adapted to a situation occurring in an actual field is generated by generating a concentrated load pseudo call that simulates a situation in which mobile phone users are temporarily suddenly concentrated. A load pseudo call test or the like in the station apparatus can be performed.

  FIG. 4 is a block diagram showing a configuration of a first embodiment of a concentrated load pseudo call generation device (hereinafter referred to as “pseudo call generation device”) according to the present invention. This pseudo call generation device includes a centralized load pseudocall generation unit 10, a centralized load pseudocall parameter unit 20, a centralized load pseudocall number designation unit 30, a test start timing unit 40, a transmission unit 5, a centralized load. The pseudo call storage unit 60 and the concentrated load pseudo call test notification unit 70 are configured. Here, the centralized load pseudo call refers to a pseudo call that exceeds the number of calls that can be generated and processed by the pseudo call generation device during the load pseudo call test.

  The concentrated load pseudo call generation unit 10 is notified of the concentrated load pseudo call test from the concentrated load pseudo call test notification unit 70 before the concentrated load pseudo call test, and the concentrated load pseudo call number designation unit 30 is notified. When the number of centralized load pseudo calls is specified, the centralized load pseudo call parameters are collectively requested to the centralized load pseudo call parameter unit 20. The centralized load pseudo call generation unit 10 generates a centralized load pseudo call using the centralized load pseudo call parameter transferred from the centralized load pseudo call parameter unit 20. The generated concentrated load pseudo call is transferred to the concentrated load pseudo call storage unit 60.

  The concentrated load pseudo call parameter unit 20 holds different parameters for each concentrated load pseudo call necessary for generating the concentrated load pseudo call. When there is a collective request for parameters of a centralized load pseudo call from the centralized load pseudo call generating unit 10, the centralized load pseudo call parameter unit 20 is set in the centralized load pseudo call generating unit 10 by the centralized load pseudo call number specifying unit 30. The same number of centralized load pseudo call parameters are transferred at once.

  The concentrated load pseudo call number designation unit 30 sets the number of calls of the concentrated load pseudo call to be transferred from the concentrated load pseudo call storage unit 60 to the transmission unit 5 before performing the concentrated load pseudo call test. The call generation unit 10 is notified.

  The test start timing unit 40 outputs a start timing for transferring the concentrated load pseudo call stored in the concentrated load pseudo call storage unit 60 to the transmission unit 5 when starting the concentrated load pseudo call test.

  The concentrated load pseudo call storage unit 60 stores the concentrated load pseudo call generated by the concentrated load pseudo call generation unit 10 until the test start timing unit 40 outputs the test start timing. When a test start timing is input from the test start timing unit 40, the stored concentrated load pseudo call is transferred to the transmission unit 5.

  The centralized load pseudo call test notification unit 70 notifies the centralized load pseudo call test unit 10 that it is a centralized load pseudo call test before executing the central load pseudo call test.

  The transmission unit 5 transmits the concentrated load pseudo call transferred from the concentrated load pseudo call storage unit 60 to the radio base station apparatus. The transmitter 5 has the same function as that installed in the conventional pseudo call generator.

  Next, the operation of the pseudo call generator having the above-described configuration will be described with reference to FIG.

  Prior to performing the concentrated load pseudo call test, the concentrated load pseudo call test notification unit 70 notifies the concentrated load pseudo call test unit 10 that it is a concentrated load pseudo call test (g '). The concentrated load pseudo call number designation unit 30 sets the number of calls of the concentrated load pseudo call to be transferred from the concentrated load pseudo call storage unit 60 to the transmission unit 5, and notifies the pseudo call generation unit 10 of the number (a '). Next, a collective request (c ′) of parameters for the number of calls set by the centralized load pseudo call number designating unit 30 is made from the centralized load pseudo call generating unit 10 to the centralized load pseudo call parameter unit 20. As a result, the concentrated load pseudo call parameters held in the concentrated load pseudo call parameter unit 20 are collectively transferred from the concentrated load pseudo call parameter unit 20 to the concentrated load pseudo call generation unit 10 (d ′). The centralized load pseudo call generation unit 10 uses the centralized load pseudo call parameter to generate a centralized load pseudo call. The generated concentrated load pseudo call is transferred to the concentrated load pseudo call storage unit 60 (e ′), and the concentrated load pseudo call storage unit 60 stores the concentrated load pseudo call.

  When the concentrated load pseudo call test is started, the start timing is output from the test start timing unit 40 to the concentrated load pseudo call storage unit 60 (b '). The centralized load pseudo call is transferred from the centralized load pseudo call storage unit 60 to which the start timing is input to the transmission unit 5 (h ′). The transmission unit 5 transmits the concentrated load pseudo call transferred from the concentrated load pseudo call storage unit 60 to the radio base station apparatus (f).

  Next, the operation of the pseudo call generation device and the communication with the radio base station device will be described with reference to FIG.

  Before the tester performs the concentrated load pseudo call test, the concentrated load pseudo call test is set in the concentrated load pseudo call test notification unit 70. The centralized load pseudo call test notification unit 70 notifies the centralized load pseudo call generation unit 10 that it is a centralized load pseudo call test (g ′). Further, the tester sets the number of concentrated load pseudo calls in the concentrated load pseudo call number designating unit 30. The concentrated load pseudo call number designation unit 30 designates the number of concentrated load pseudo calls to be transmitted to the concentrated load pseudo call generation unit 10. A centralized load pseudo call parameter request (c ′) is made from the central load pseudo call generation unit 10 to the central load pseudo call parameter unit 20. The centralized load pseudo-call parameters held in the centralized load pseudo-call parameter unit 20 are collectively transferred from the centralized load pseudo-call parameter unit 20 to the centralized load pseudo-call generation unit 10 (d ′). Using this concentrated load pseudo call parameter, the concentrated load pseudo call generation unit 10 generates a concentrated load pseudo call. The generated concentrated load pseudo call is transferred to the concentrated load pseudo call storage unit 60 (e ') and stored therein.

  The tester operates the concentrated load pseudo call start timing unit 40 to start the concentrated load pseudo call test. The start timing is output from the concentrated load pseudo call start timing unit 40 to the concentrated load pseudo call storage unit 60 (b '). From the centralized load pseudo call storage unit 60 to which the start timing is input, the concentrated load pseudo calls corresponding to the number of centralized load pseudo calls notified from the centralized load pseudo call number designating unit 30 are transferred to the transmitting unit 5 ( h '). The transmission unit 5 transmits the concentrated load pseudo call transferred from the concentrated load pseudo call storage unit 60 to the radio base station apparatus (f).

  FIG. 6 shows the number of pseudo calls (load amount) in the radio base station apparatus in the load pseudo call test when the pseudo call generation apparatus is used. The horizontal axis represents the time axis of the load pseudo call test, and the vertical axis represents the number of pseudo calls (load amount). As is clear from the figure, it is possible to periodically generate a concentrated load pseudo call and give a pseudo load call to the radio base station apparatus during the load pseudo call test.

  Next, a second embodiment of the pseudo call generation device according to the present invention will be described with reference to FIGS.

  As shown in FIG. 7, this pseudo call generation device can perform a test for giving a quantitative pseudo call to a radio base station device at regular time intervals and a test for giving a concentrated load pseudo call periodically. It is said. This pseudo call generation device is a parallel arrangement of the functional block diagrams shown in FIG. 1 and FIG. 4, but a conventional pseudo call is stored from the pseudo call generation unit 1 to the transmission unit 5, and a concentrated load pseudo call is stored in a concentrated load. The data is transferred from the unit 60 to the transmission unit 5. A conventional pseudo call and a concentrated load pseudo call are transmitted from the transmission unit 5 to the radio base station apparatus.

  FIG. 8 shows the load on the radio base station apparatus when the functional block shown in FIG. 7 is realized. The horizontal and vertical axes in the figure are the same as those in FIG. In the present embodiment, the load amount when a concentrated load pseudo call is periodically given during a test in which a conventional pseudo call is given, but in this embodiment, there are the number of mobile phone users. It can be assumed that this will be a test example that simulates a situation that occurs in an actual field where it suddenly suddenly concentrates on one place.

  Next, a third embodiment of the pseudo call generation device according to the present invention will be described with reference to FIGS.

  As shown in FIG. 9, this pseudo call generation device periodically performs a concentrated load pseudo call to a radio base station device, and the radio base station device transmits call data and packet data to the pseudo call generation device. It enables bit error measurement of call data received by the pseudo call generator. This bit error measurement has been performed conventionally. This pseudo call generator has the same configuration as that shown in FIG. 4 for transmitting a concentrated load pseudo call, and receives a bit error in received data from a receiving unit 7 that receives call data and packet data received from a radio base station apparatus. A bit error measurement unit 8 for measurement is provided.

  The receiving unit 7 receives call data and packet data from the radio base station apparatus (h) and transfers them to the bit error measuring unit 8 (i). The bit error measuring unit 8 measures a bit error of the transferred received data. This makes it possible to measure the data quality of call data and packet data transmitted from the radio base station apparatus to the pseudo call generation apparatus during a test in which a concentrated load pseudo call is periodically provided.

  FIG. 10 shows the load on the radio base station apparatus when the functional block shown in FIG. 9 is realized. The horizontal and vertical axes in the figure are the same as those in FIG. Transmission of call data and packet data from the radio base station apparatus to the pseudo call generation apparatus imposes a processing capacity load on the radio base station apparatus. In this embodiment, during a test simulating a situation that occurs in an actual field where the number of mobile phone users is temporarily suddenly concentrated at a certain location, a pseudo call different from the concentrated load pseudo call is used. Tests to measure the quality of calls and packet data are possible.

It is a block diagram which shows an example of the conventional pseudo call generator. FIG. 2 is a sequence diagram showing an operation of the pseudo call generation device of FIG. 1 and communication with a radio base station device (a load pseudo call test for generating 1 number of pseudo call calls). FIG. 2 is a sequence diagram showing an operation of the pseudo call generation device of FIG. 1 and communication with a radio base station device (a load pseudo call test for generating a plurality of pseudo calls). It is a block diagram which shows 1st Embodiment of the pseudo call generator concerning this invention. FIG. 5 is a sequence diagram showing an operation of the pseudo call generation device of FIG. 4 and communication with a radio base station device. It is a graph which shows the load amount in the radio base station apparatus at the time of using the pseudo call generation apparatus of FIG. FIG. 10 is a block diagram showing a pseudo call generation device capable of both a conventional pseudo call and a load pseudo call test of a centralized load pseudo call as a second embodiment of the pseudo call generation device according to the present invention. It is a graph which shows the load amount in the radio base station apparatus at the time of using the pseudo call generation apparatus shown in FIG. As a third embodiment of the pseudo call generation device according to the present invention, a load pseudo call test of a centralized load pseudo call and a bit error measurement of call data and packet data transmitted by a radio base station device in the pseudo call generation device are performed. It is a block diagram which shows the pseudo call generator which enables. It is a graph which shows the load amount in the radio base station apparatus at the time of using the pseudo call generation apparatus shown in FIG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Pseudo call generation part 2 Pseudo call parameter part 3 Pseudo call number designation part 4 Test start timing part 5 Transmission part 7 Reception part 8 Bit error measurement part 10 Concentrated load pseudo call generation part 20 Concentrated load pseudo call parameter part 30 Concentrated load Pseudo call number designation unit 40 Test start timing unit 60 Concentrated load pseudo call storage unit 70 Concentrated load pseudo call test notification unit a Pseudo call number notification b Test start timing output c Pseudo call parameter request d Pseudo call parameter transfer e Pseudo call Transfer f Pseudo call (or concentrated load pseudo call) transmission h Call data or packet data reception i Call data or packet data transfer a 'Concentrated load pseudo call number notification b' Test start timing output c 'Concentrated load pseudo call parameter batch request d 'central load pseudo call parameter batch transfer e' central load pseudo call transfer g 'central load pseudo call test notification h' central load pseudo call Transfer to the transmission unit

Claims (5)

A concentrated load pseudo call generator for performing an evaluation test of a radio base station device,
A pseudo call parameter part that holds parameters necessary for generating a centralized load pseudo call;
A pseudo call number designating unit for designating the number of calls of the centralized load pseudo call to be generated;
A notification from the test notification unit, based on the parameters held in the pseudo call parameter unit, a pseudo call generation unit that generates a concentrated load pseudo call of the number of calls designated by the pseudo call number designation unit,
Before starting the test, a pseudo call storage unit that prestores the concentrated load pseudo call generated by the pseudo call generation unit,
A test start timing unit that outputs timing for transmitting the concentrated load pseudo call stored in the pseudo call storage unit to the radio base station device;
A pseudo call generation device comprising: a transmission unit that transmits a concentrated load pseudo call transferred from the pseudo call storage unit to a radio base station device in response to a test start command from the test start timing unit. A second pseudo call parameter part for holding parameters necessary for generating a pseudo call;
A second pseudo call number designating unit for designating the number of pseudo calls to be generated;
A second pseudo call generating unit that generates a pseudo call having the number of calls designated by the second pseudo call number designating unit based on the parameters held in the second pseudo call parameter unit;
A second test start timing unit that outputs a timing for transmitting the pseudo call generated by the second pseudo call generation unit to the radio base device;
The pseudo call generated by the second pseudo call generation unit is transmitted from the transmission unit to the radio base station apparatus according to a test start command from the second test start timing unit. The pseudo call generation device according to the description.   The pseudo call generation device according to claim 1, further comprising a bit error measurement unit that measures a bit error of call data and packet data received from the radio base station device. The first pseudo call generation unit requests the first pseudo call parameter unit collectively for parameters of the concentrated load pseudo call for the number of calls designated by the first pseudo call number designation unit,
The first pseudo call parameter unit is configured to collectively transfer the concentrated load pseudo call parameters for the number of calls designated by the first pseudo call number designation unit to the first pseudo call generation unit. The pseudo call generation device according to claim 1, 2, or 3.   The first test start timing unit outputs the start of the test to the first pseudo call storage unit at an arbitrary time after the concentrated load pseudo call is stored in the first pseudo call storage unit. The pseudo call generation device according to any one of claims 1 to 4.

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