JP2005236832A - Radio terminal test device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a radio terminal test device which can respond to radio terminals for different systems effectively using resources and without raising the device scale. <P>SOLUTION: A memory part 13 memorizes a plurality of programs corresponding to base-band processing in a base station of a plurality of systems, a propagation environment parameter setting part 11 calculates the propagation environment parameter based on propagation environment data in test requirement items inputted from outside, a control part 12 selects a program out of a plurality of programs memorized in the memory part 13 based on system kinds and detailed conditions in the test requirement items, and at the same time, the control part 12 selects devices 141 to 14n which execute the program based on the resource information and processing capacity of the devices 141 to 14n, makes the selected devices 141 to 14n execute the selected program using the propagation environment parameter as a configuration, and simulates the base station. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to a radio terminal test apparatus for testing a radio terminal apparatus, and in particular, a radio terminal corresponding to a radio terminal apparatus having different test requirements by selecting a test program based on the test requirements. It relates to a test apparatus.

  In wireless communication, multipath such as reflection, transmission, and diffraction occurs due to obstacles, weather, and the like, so the communication state changes depending on the environment. Therefore, it is necessary to consider environmental conditions in the test of the wireless terminal device. Conventionally, various technologies related to a wireless terminal test apparatus that tests a wireless terminal apparatus by simulating use environment conditions have been considered.

  The prior art described in Patent Document 1 stores temporal variation information of the phase and amplitude of a radio signal received by a radio terminal device or a radio signal calculated in advance, and the stored radio signal A technique related to a wireless terminal test apparatus that controls the phase and amplitude of a base station signal based on temporal variation information of the phase and amplitude is disclosed.

Japanese Patent Laid-Open No. 11-186773

  In the above prior art, the temporal variation information of the phase and amplitude of the radio signal received by the wireless terminal device or the phase and amplitude of the radio signal calculated in advance is stored, and the temporal phase of the phase and amplitude of the stored radio signal is stored. Since the phase and amplitude of the base station signal are controlled based on various fluctuation information, it is possible not only to simulate a statistical fading environment but also to test a wireless terminal device by reproducing the real environment. it can.

  However, there are various recent wireless communication systems such as W-CDMA (Wideband-Code Division Multiple Access) system, CDMA2000 system, and wireless LAN (Local Area Network). If the communication method is different, the test conditions (test requirements) of the wireless terminal device also change. In the conventional wireless terminal test apparatus, the scale of the entire apparatus is fixed regardless of the test requirements. For this reason, when the test requirements of the wireless terminal device are diversified, there is a problem that the device scale becomes large.

  The present invention has been made in view of the above, and an object of the present invention is to obtain a wireless terminal test apparatus that can cope with wireless terminal apparatuses of different systems without effectively using resources and increasing the apparatus scale. .

  In order to achieve the above object, a radio terminal test apparatus according to the present invention is a radio terminal test apparatus that simulates a base station corresponding to a plurality of different systems to which a radio terminal apparatus to be tested is applied. Storage means for storing a plurality of programs corresponding to the system, propagation environment parameter setting means for calculating propagation environment parameters based on propagation environment data included in test requirements input from the outside, and based on predetermined conditions Program selection means for selecting a program corresponding to a system to which the wireless terminal device is applied from among programs stored in the storage means, and propagation environment parameters calculated by the propagation environment parameter setting means as configuration data Used as selected by the program selection means A program is executed based on baseband processing means including a plurality of devices that perform baseband processing related to transmission / reception of the base station by executing a program, and resource information and device-specific processing capabilities of the devices Device selection means for selecting a device.

  According to the present invention, a plurality of programs corresponding to a plurality of different systems to which a wireless terminal device to be tested is applied are stored, and a wireless terminal is selected from the stored programs based on a predetermined condition. A program corresponding to a system to which the apparatus is applied is selected, and a device that executes the selected program is selected based on resource information of a plurality of devices that execute the program and processing capabilities unique to the device.

  According to the wireless terminal test apparatus according to the present invention, a plurality of programs corresponding to a plurality of different systems to which the wireless terminal apparatus to be tested is applied are stored and stored based on a predetermined condition. A program corresponding to the system to which the wireless terminal device is applied is selected from among the programs, and a device for executing the selected program is selected based on resource information and device-specific processing capabilities of a plurality of devices executing the program. Therefore, the test can be performed in accordance with the specifications of the wireless terminal devices of different systems without effectively using resources and increasing the device scale.

  Embodiments of a wireless terminal device according to the present invention will be described below in detail with reference to the drawings. Note that the present invention is not limited to the embodiments.

Embodiment 1 FIG.
A first embodiment of the present invention will be described with reference to FIGS. 1 is a block diagram showing a configuration of a radio terminal test apparatus according to Embodiment 1 of the present invention. The wireless terminal test apparatus 1 according to the first embodiment of the present invention simulates a base station based on test requirements input from the outside. The test requirement indicates the test condition of the wireless terminal device 2 to be tested, and the system type (communication method such as W-CDMA method, CDMA2000 method, wireless LAN, that is, the wireless terminal device 2 is applied. Information for identifying a communication system), detailed information (for example, when the system type is a CDMA system such as W-CDMA system or CDMA2000, information on the number of cells, cell radius, number of sectors, etc.), propagation environment data (wireless terminal) Information on the radio wave propagation environment, such as the moving speed, moving direction, map information around the base station, position information of scatterers, and the like.

  The wireless terminal test apparatus 1 includes a propagation environment parameter setting unit 11, a control unit 12 (program selection means and device selection means in the claims), a storage unit 13, and a baseband processing unit 14. ing. The propagation environment parameter setting unit 11 calculates propagation environment parameters related to fading and multipath environments based on propagation environment data included in the test requirements. The propagation environment parameter setting unit 11 outputs all the calculated propagation environment parameters to the control unit 12 according to a mode designated from the outside, or the propagation environment parameter whose calculated propagation environment parameter value is larger than a predetermined threshold value. Whether to output only to the control unit 12. The mode designation from the outside may be arbitrarily set by including mode designation information in the test requirement, for example.

  The baseband processing unit 14 is realized by software radio, and is a hardware such as a DSP (Digital Signal Processor) or a FPGA (Field Programmable Gate Array) that realizes a predetermined function by a program, where n is a natural number. The devices 141 to 14n are provided, and a test program stored in the storage unit 13 is executed to perform baseband processing in the uplink and downlink with the wireless terminal device 2. In addition, the baseband processing unit 14 performs baseband processing by the devices 141 to 14n, and causes the storage unit 13 to store resource information including resource occupancy rates and processing statuses of the devices 141 to 14n.

  The storage unit 13 stores a plurality of programs executed by the baseband processing unit 14, that is, a system to which the wireless terminal device 2 is applied and a plurality of programs corresponding to detailed conditions of the system. Further, the storage unit 13 stores device-specific processing capability information of the devices 141 to 14n and resource information of the devices 141 to 14n.

  The control unit 12 includes one to a plurality of programs necessary for testing the wireless terminal device 2 among a plurality of programs stored in the storage unit 13 based on the system type and detailed information included in the test requirements. Select. The control unit 12 uses the resource information indicating the processing capability of the devices 141 to 14n of the baseband processing unit 14 stored in the storage unit 13 and the device information indicating the processing status of the devices 141 to 14n. The devices 141 to 14n to be determined are determined. The control unit 12 simulates the base station by causing the selected devices 141 to 14n to execute the selected program.

  Next, the program selection operation of the wireless terminal test apparatus 1 according to the first embodiment of the present invention will be described with reference to the flowchart of FIG. When the test requirement is input, the control unit 12 outputs the propagation environment data included in the test requirement to the propagation environment parameter setting unit 11.

  The propagation environment parameter setting unit 11 calculates environment parameters related to fading and multipath environment based on the propagation environment data (step S100). Specifically, the propagation environment parameter setting unit 11 uses propagation environment data related to the radio wave propagation environment such as the moving speed, moving direction, map information around the base station, position information such as scatterers of the wireless terminal device 2, Environmental parameters such as a delay profile in the base station, electric field strength of each multipath, and path delay are calculated by a ray tracing method.

  The propagation environment parameter setting unit 11 determines whether or not it is a selection mode in which only the calculated propagation environment parameter value is larger than the threshold value is output (step S110). In the selection mode, the propagation environment parameter setting unit 11 compares the calculated propagation environment parameter value with a threshold value. As a result of the comparison, the propagation environment parameter setting unit 11 outputs a propagation environment parameter larger than the threshold value to the control unit 12 (step S120). When not in the selection mode, the propagation environment parameter setting unit 11 outputs all the calculated propagation environment parameters to the control unit 12 (step S130).

  The control unit 12 outputs the environment parameters input from the propagation environment parameter setting unit 11 to the baseband processing unit 14 as radio configuration data (step S140).

  The control unit 12 selects one to a plurality of programs necessary for the test of the wireless terminal device 2 based on the system type or detailed information (step S150). Specifically, for example, the first table in which the number of fingers and the filter coefficient of the matched filter of the searcher are registered in correspondence with the system type and detailed information, and the matched filter of the number of fingers and the searcher are associated with each other. A second table in which program names are registered is prepared in advance, the first table is searched using system information or detailed information as a search key, and the number of fingers and the filter coefficient corresponding to the system information or detailed information are obtained. To do. The control unit 12 searches the second table using the number of fingers and the filter coefficient acquired by searching the first table as search keys, and acquires the program name corresponding to the number of fingers and the filter coefficient.

  For example, when the control unit 12 identifies that the system type is W-CDMA defined by 3GPP, the control unit 12 searches the first table using the number of cells, the cell radius, and the number of sectors input as detailed information as search keys. Then, the number of fingers and the filter coefficient are obtained. Then, the second table is searched using the acquired number of fingers and filter coefficient as a search key, and a program name corresponding to the number of fingers and the filter coefficient is acquired.

  The control unit 12 selects a device to be used from the devices 141 to 14n based on the processing capability information and resource information of the devices 141 to 14n stored in the storage unit 13 (step S160).

  The control unit 12 downloads the selected program from the storage unit 13 to the selected devices 141 to 14n, and executes configuration (step S170).

  As described above, in the first embodiment, based on the system type and detailed information included in the test requirements input from the outside, it corresponds to a plurality of different systems and conditions to which the wireless terminal device to be tested is applied. A minimum program necessary for testing the wireless terminal device is selected from a plurality of programs, and a device that executes the selected program is selected based on resource information and device-specific processing capability. Therefore, it is possible to perform a test corresponding to the specifications of wireless terminal apparatuses of different systems without effectively using resources and increasing the apparatus scale.

  In the first embodiment, since the program is selected based on the number of cells, the cell radius, and the number of sectors, it is possible to flexibly cope with the cell configuration.

  In the first embodiment, the case where the system type is W-CDMA has been described as an example. However, a plurality of tables are prepared corresponding to the system type, and the system type is recognized. A program corresponding to a system to which the wireless terminal device 2 such as CDMA2000 or wireless LAN is applied can be selected.

  In the first embodiment, the search by table is described as an example, but the program selection method is not limited to this. For example, when the system type is W-CDMA, the number of fingers corresponding to each cell and each sector depends on the number of searchers to be mounted depending on the number of cells and the number of sectors and the maximum number of fingers that can be mounted on the devices 141 to 14n. decide. That is, as the number of cells and sectors to be considered increases, the number of fingers corresponding to one cell or sector decreases, and as the number of cells and sectors to consider decreases, the number of fingers corresponding to one cell or sector increases. Become. In addition, the number of filter coefficients of the matched filter that the searcher has is determined by the cell radius, but resources such as the circuit scale for mounting vary greatly depending on the difference in cell radius. The number of fingers and the filter coefficient may be calculated based on the relationship between the number of cells, the number of sectors, and the cell radius, and the relationship between the number of fingers and the search unit mounting.

Embodiment 2. FIG.
A second embodiment of the present invention will be described with reference to FIGS. In Embodiment 1, the propagation environment parameter calculated based on the propagation environment data is used for the wireless configuration data. In the second embodiment, propagation environment parameters extracted from measured reception data are used as parameters for selecting radio configuration data and programs.

  FIG. 3 is a block diagram showing a configuration of radio terminal test apparatus 1a according to the second embodiment of the present invention. The wireless terminal test apparatus 1a according to the second embodiment of the present invention uses a control unit 12a instead of the control unit 12 of the wireless terminal test apparatus 1 according to the first embodiment shown in FIG. Is provided with a propagation environment parameter setting unit 11a, and an actual measurement data storage unit 15 is added. Components having the same functions as those of the wireless terminal test apparatus 1 according to the first embodiment shown in FIG.

  The actual measurement data storage unit 15 stores actual environment reception data at one to a plurality of observation points measured by a general-purpose area analyzer or the like.

  The propagation environment parameter setting unit 11 a extracts propagation environment parameters from the received data in the actual environment stored in the actual measurement data storage unit 15. Also, the propagation environment parameter setting unit 11a outputs all the propagation environment parameters of the real environment stored in the actual measurement data storage unit 15 to the control unit 12a according to the mode designated from the outside, or the value of the propagation environment parameter is It is determined whether only propagation environment parameters larger than a predetermined threshold are to be output to the control unit 12a.

  Based on the propagation environment parameter, the control unit 12a selects one to a plurality of programs necessary for the test of the wireless terminal device 2 from the plurality of programs stored in the storage unit 13. The control unit 12a uses the resource information indicating the processing capability of the devices 141 to 14n of the baseband processing unit 14 stored in the storage unit 13 and the device information indicating the processing status of the devices 141 to 14n. The devices 141 to 14n to be determined are determined. The control unit 12a simulates the base station by causing the selected devices 141 to 14n to execute the selected program.

  Next, the program selection operation of the wireless terminal test apparatus 1a according to the second embodiment of the present invention will be described with reference to the flowchart of FIG. When the test requirement is input, the control unit 12a requests the propagation environment parameter from the propagation environment parameter setting unit 11a.

  When receiving the request for the propagation environment parameter, the propagation environment parameter setting unit 11a reads the received data of the real environment stored in the actual measurement data storage unit 15 and reads the propagation environment parameter (step S200).

  In the selection mode, the propagation environment parameter setting unit 11a outputs the propagation environment parameter whose read propagation environment parameter value is larger than the threshold value to the control unit 12a (steps S210 and S220). When not in the selection mode, the propagation environment parameter setting unit 11a outputs all the read propagation environment parameters to the control unit 12a (steps S210 and S230).

  The control unit 12a outputs the environment parameter input from the propagation environment parameter setting unit 11a to the baseband processing unit 14 as radio configuration data (step S240).

  The control unit 12a selects one to a plurality of programs necessary for the test of the wireless terminal device 2 based on the propagation environment parameter (step S250). Specifically, the control unit 12a calculates the required number of fingers and the filter coefficient in the search unit based on the propagation environment parameter. Using the calculated number of fingers and filter coefficient as a search key, search a table in which program names corresponding to the prepared number of fingers and filter coefficient are registered, and the program name corresponding to the calculated number of fingers and filter coefficient To get.

  The control unit 12a selects a device to be used from the devices 141 to 14n based on the processing capability information and resource information of the devices 141 to 14n stored in the storage unit 13 (step S260).

  The control unit 12a downloads the program with the selected program name from the storage unit 13 to the selected devices 141 to 14n, and executes configuration (step S270).

  As described above, in the second embodiment, based on the propagation environment parameters extracted from the actually measured reception data, it corresponds to a plurality of different systems to which the wireless terminal device to be tested is applied and detailed conditions of the systems. A minimum program necessary for testing the wireless terminal device is selected from a plurality of programs, and a device that executes the selected program is selected based on resource information and device-specific processing capability. Therefore, it is possible to perform a test corresponding to the specifications of wireless terminal apparatuses of different systems without effectively using resources and increasing the apparatus scale.

  In the second embodiment, the propagation environment parameter extracted from the actually measured reception data is used as the radio configuration to reproduce the actual environment. Therefore, in the same test environment, the test requirements are designated. Various tests can be performed.

Embodiment 3 FIG.
A third embodiment of the present invention will be described with reference to FIGS. In the third embodiment, the radio resource control information (RRC: Radio Resource Control) when the radio terminal device 2 and the radio network controller (RNC) communicate via the radio terminal test apparatus is included. Focusing on the fact that information indicating the capability that the wireless terminal device 2 should have (wireless terminal performance information) is included, a program is selected based on this information.

  FIG. 5 is a block diagram showing the configuration of the wireless terminal test apparatus 1b according to the present invention. The wireless terminal test apparatus 1b according to the present invention includes a control unit 12b instead of the control unit 12 of the wireless terminal test apparatus 1 of the first embodiment shown in FIG. Components having the same functions as those of the wireless terminal test apparatus 1 according to the first embodiment shown in FIG.

  The control unit 12b refers to the radio resource control information for communication between the radio terminal device 2 and the radio network control device 3, and stores it in the storage unit 13 based on the radio terminal performance information included in the radio resource control information. One to a plurality of programs necessary for the test of the wireless terminal device 2 are selected from the plurality of programs. The control unit 12b uses the resource information indicating the processing capability of the devices 141 to 14n of the baseband processing unit 14 stored in the storage unit 13 and the device information indicating the processing status of the devices 141 to 14n. The devices 141 to 14n to be determined are determined. The control unit 12b simulates the base station by causing the selected devices 141 to 14n to execute the selected program.

  Next, the program selection operation of the wireless terminal test apparatus 1b according to the third embodiment of the present invention will be described with reference to the flowchart of FIG. When the test requirement is input, the control unit 12b outputs the propagation environment data included in the test requirement to the propagation environment parameter setting unit 11.

  The propagation environment parameter setting unit 11 calculates environment parameters related to fading and multipath environment based on the propagation environment data (step S300). In the selection mode, the propagation environment parameter setting unit 11 outputs the propagation environment parameter whose read propagation environment parameter value is larger than the threshold value to the control unit 12b (steps S310 and S320). When not in the selection mode, the propagation environment parameter setting unit 11 outputs all the read propagation environment parameters to the control unit 12b (steps S310 and S330).

  The control unit 12b outputs the environment parameter input from the propagation environment parameter setting unit 11 to the baseband processing unit 14 as radio configuration data (step S340).

  The control unit 12b refers to the radio resource control information in the communication between the wireless terminal device 2 and the wireless network control device 3, acquires the wireless terminal performance information, and based on the acquired wireless terminal performance information, the wireless terminal device 2 One to a plurality of programs necessary for the test are selected (step S350). Specifically, the control unit 12b uses the acquired wireless terminal performance information as a search key to search a table in which a program name corresponding to the prepared wireless terminal performance information is registered, and acquires the acquired wireless terminal Get the program name corresponding to the performance information.

  The control unit 12b selects a device to be used from the devices 141 to 14n based on the processing capability information and resource information of the devices 141 to 14n stored in the storage unit 13 (step S360).

  The control unit 12b downloads the program with the selected program name from the storage unit 13 to the selected devices 141 to 14n, and executes configuration (step S370).

  As described above, in the third embodiment, a plurality of different systems to which the wireless terminal device to be tested is applied and the system of the system based on the information indicating the capability of the wireless terminal device included in the wireless resource control information Select the program required for the minimum test required for the wireless terminal device from multiple programs corresponding to detailed conditions, and execute the selected program based on the resource information and device-specific processing capability Since the device to be selected is selected, the test can be performed in accordance with the specifications of the wireless terminal devices of different systems without effectively using resources and increasing the device scale.

  Further, since the program is selected based on the radio resource control information, the radio terminal device can be efficiently tested without performing an excessive test more than required for the radio terminal device.

  As described above, the radio terminal test apparatus according to the present invention is effective for testing radio terminal apparatuses, and is particularly suitable for testing radio terminal apparatuses applied to different systems.

It is a block diagram which shows the structure of the radio | wireless terminal test device of Embodiment 1 in this invention. It is a flowchart for demonstrating the program selection operation | movement of the radio | wireless terminal test apparatus of Embodiment 1 in this invention. It is a block diagram which shows the structure of the radio | wireless terminal test apparatus of Embodiment 2 in this invention. It is a flowchart for demonstrating the program selection operation | movement of the radio | wireless terminal test apparatus of Embodiment 2 in this invention. It is a block diagram which shows the structure of the radio | wireless terminal test apparatus of Embodiment 3 in this invention. It is a flowchart for demonstrating the program selection operation | movement of the radio | wireless terminal test apparatus of Embodiment 3 in this invention.

Explanation of symbols

1, 1a, 1b Wireless terminal test device 2 Wireless terminal device 3 Wireless network control device 11, 11a Propagation environment parameter setting unit 12, 12a, 12b Control unit 13 Storage unit 14 Baseband processing unit 15 Actual data storage unit 141, 142, 14n device

Claims (5)

In a wireless terminal test apparatus that simulates a base station corresponding to a plurality of different systems to which a wireless terminal apparatus to be tested is applied,
Storage means for storing a plurality of programs corresponding to the plurality of different systems;
Propagation environment parameter setting means for calculating propagation environment parameters based on propagation environment data included in test requirements input from the outside;
Program selection means for selecting a program corresponding to a system to which the wireless terminal device is applied from among the programs stored in the storage means based on a predetermined condition;
A plurality of devices that perform baseband processing related to transmission / reception of the base station by executing a program selected by the program selection unit by using the propagation environment parameter calculated by the propagation environment parameter setting unit as configuration data Baseband processing means,
Device selection means for selecting a device for executing a program based on resource information and device-specific processing capabilities of the plurality of devices;
A wireless terminal test apparatus comprising: In a wireless terminal test apparatus that simulates a base station corresponding to a plurality of different systems to which a wireless terminal apparatus to be tested is applied,
Storage means for storing a plurality of programs corresponding to the plurality of different systems;
Measured data storage means for storing received data measured in a real environment;
Propagation environment parameter setting means for extracting propagation environment parameters from the received data stored in the actual measurement data storage means;
Program selection means for selecting a program corresponding to a system to which the wireless terminal device is applied from among programs stored in the storage unit based on a predetermined condition;
A plurality of devices that perform baseband processing related to transmission and reception of the base station by executing a program selected by the program selection unit using the propagation environment parameter extracted by the propagation environment parameter setting unit as configuration data Baseband processing means,
Device selection means for selecting a device for executing a program based on resource information and device-specific processing capabilities of the plurality of devices;
A wireless terminal test apparatus comprising: The program selection means includes
3. The number of fingers and a filter coefficient of a matched filter necessary for search processing are calculated based on the predetermined condition, and a program is selected based on the calculated number of fingers and filter coefficient. The wireless terminal test apparatus according to 1.   The predetermined condition includes a propagation environment parameter, a system type for identifying a system to which the wireless terminal device included in the test requirement is applied, detailed information on a system specified by the system type, or the wireless terminal The radio resource control information, which is control information between a radio network control apparatus that manages a device and a base station simulated by the own apparatus and the radio terminal apparatus, is provided. The wireless terminal test apparatus described. The wireless terminal test apparatus according to claim 4, wherein the detailed information includes a cell number, a cell radius, and a sector number.

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