CN108683465A - Signaling testing method, device, computer equipment and storage medium - Google Patents

Abstract

This application involves a kind of signaling testing method, system, computer equipment and storage mediums.Method includes：Obtain the relevant parameter of signaling test；In the NB IoT networks of simulation, according to the relevant parameter of signaling test, the first performance of NB IoT modules to be measured is tested；Update the corresponding relevant parameter of the second performance test in the relevant parameter of signaling test, in the NB IoT networks of simulation, according to the relevant parameter of updated signaling test, test the second performance of NB IoT modules to be measured, first performance is emitting performance and the second performance is receptivity or first performance is receptivity and the second performance is emitting performance.The performance of NB IoT modules to be dispatched from the factory under live network can be examined by above-mentioned signaling testing method, ensures NB IoT modules manufacture performance.

Description

Signaling testing method, device, computer equipment and storage medium

Technical field

This application involves electronic product production technical fields, more particularly to a kind of signaling testing method, device, computer Equipment and storage medium.

Background technology

With the development of technology of Internet of things, there is NB-IoT (Narrow Band Internet of Things, narrowband Internet of Things) technology, NB-IoT is implemented in cellular network, only consumes the bandwidth of about 180KHz, can be deployed directly into GSM (Global System for Mobile communication, global system for mobile communications) network, UMTS (Universal Mobile Telecommunications System, Universal Mobile Communication System) network or LTE (Long Term Evolution, the long term evolution of universal mobile communications technology) network, to reduce lower deployment cost, realize smooth upgrade.

The comprehensive survey of the radio frequency of communication terminal at present is divided into two methods of non-signaling test and signaling test.Non-signaling test is straight The physical layer of control communication terminal is connect to be emitted and be received test；And signaling test be exactly use comprehensive test instrument anolog base station, and Communication terminal sets up connection, and comprehensive test instrument sends out various signalings, and communication terminal has been equivalent on connection network at this time, to be sent out Penetrate and receive the test of index.

However NB-IoT terminals only carry out non-signaling comprehensive survey at present, NB-IoT only carries out non-signaling comprehensive survey, can not verify Performance of the NB-IoT terminals of factory under live network, can not ensure the manufacture performance of NB-IoT terminals.

Invention content

Based on this, it is necessary to which in view of the above technical problems, provide a kind of can carry out signaling comprehensive survey to NB-IoT terminals Signaling testing method method, apparatus, computer equipment and storage medium.

A kind of signaling testing method, the method includes：

Obtain the relevant parameter of signaling test；

In the NB-IoT networks of simulation, according to the relevant parameter of the signaling test, NB-IoT modules to be measured are tested First performance；

The corresponding relevant parameter of the second performance test in the relevant parameter of the signaling test is updated, in the simulation In NB-IoT networks, according to the relevant parameter of the updated signaling test, the second of the NB-IoT modules to be measured is tested Performance, the first performance is emitting performance and second performance is receptivity or the first performance is acceptance Energy and second performance are emitting performance.

Include before the relevant parameter of the setting signaling test in one of the embodiments,：

Initialize the power supply of NB-IoT modules to be measured；

Control instruction is powered on to power supply transmission, it is in the NB-IoT modules to be measured to control the power supply Electricity；

Read the essential information of the NB-IoT modules to be measured.

It is described in the NB-IoT networks of simulation in one of the embodiments, joined according to the correlation of the signaling test Number, the first performance for testing module to be measured further include before：

Simulate NB-IoT networks；

The NB-IoT modules to be measured are registered on the NB-IoT networks；

It is connect with NB-IoT modules to be measured by the NB-IoT networks.

It is gone back before registering the NB-IoT modules to be measured described in one of the embodiments, on the NB-IoT networks Including：

Start the NB-IoT modules to be measured.

It is gone back before registering the NB-IoT modules to be measured described in one of the embodiments, on the NB-IoT networks Including：

Networking control instruction is sent to the NB-IoT modules to be measured, controls the NB-IoT block search NB-IoT to be measured Network.

In one of the embodiments, in the relevant parameter of the update signaling test the second performance test correlation Parameter, the second performance that the NB-IoT modules to be measured are tested according to the relevant parameter of signaling test after update further include later：

Record the frequency range that the NB-IoT modules to be measured have tested the first performance and second performance；

When the frequency range of the NB-IoT modules test also in need to be measured, the relevant parameter of the signaling test is changed, It returns in the NB-IoT networks of simulation, according to the relevant parameter of the signaling test, tests the first performance of module to be measured Step.

The relevant parameter of the signaling test includes frequency range in one of the embodiments, and the modification signaling is surveyed The relevant parameter of examination is tested the receptivity of the NB-IoT modules to be measured according to the relevant parameter of signaling test after modification, is obtained The NB-IoT modules to be measured receptivity parameter after further include：

Record the frequency range that the NB-IoT modules to be measured have tested the first performance and second performance；

When the frequency range that the NB-IoT modules to be measured have been tested includes that all NB-IoT modules need to be measured are to be tested When frequency range, the emitting performance and receptivity of the NB-IoT modules to be measured are preserved.

A kind of signaling test device, described device include：

Test parameter acquisition module, the relevant parameter for obtaining signaling test；

First performance test module, in the NB-IoT networks of simulation, according to the relevant parameter of the signaling test, Test the first performance of module to be measured；

Second performance test module, the related ginseng of the second performance test in the relevant parameter for updating the signaling test Number, according to the relevant parameter of the updated signaling test, tests the mould to be measured in the NB-IoT networks of the simulation Second performance of block, the first performance are emitting performance, and second performance is receptivity or the first performance is to connect Performance is received, second performance is emitting performance.

A kind of computer equipment, including memory and processor, the memory are stored with computer program, the processing Device realizes following steps when executing the computer program：

Obtain the relevant parameter of signaling test；

In the NB-IoT networks of simulation, according to the relevant parameter of the signaling test, NB-IoT modules to be measured are tested First performance；

The corresponding relevant parameter of the second performance test in the relevant parameter of the signaling test is updated, in the simulation In NB-IoT networks, according to the relevant parameter of the updated signaling test, the second of the NB-IoT modules to be measured is tested Performance, the first performance is emitting performance and second performance is receptivity or the first performance is acceptance Energy and second performance are emitting performance.

A kind of computer readable storage medium, is stored thereon with computer program, and the computer program is held by processor Following steps are realized when row：

Obtain the relevant parameter of signaling test；

In the NB-IoT networks of simulation, according to the relevant parameter of the signaling test, NB-IoT modules to be measured are tested First performance；

The corresponding relevant parameter of the second performance test in the relevant parameter of the signaling test is updated, in the simulation In NB-IoT networks, according to the relevant parameter of the updated signaling test, the second of the NB-IoT modules to be measured is tested Performance, the first performance is emitting performance and second performance is receptivity or the first performance is acceptance Energy and second performance are emitting performance.

Above-mentioned signaling testing method, device, computer equipment and storage medium, be arranged first to NB-IoT modules to be measured into The relevant parameter of row test then simulates NB-IoT networks, and the NB-IoT network handles by being simulated survey NB-IoT modules First performance tested, after the completion of first performance is tested, change relevant parameter in the second performance test parameter, treat The second performance for surveying NB-IoT modules is tested, and the performance parameter of NB-IoT modules to be measured is obtained, and wherein first performance is hair It penetrates performance and the second performance is receptivity or first performance is receptivity and the second performance is emitting performance.By upper The performance of NB-IoT modules to be dispatched from the factory under live network can be examined by stating signaling testing method, ensure the manufacture of NB-IoT modules Performance.

Description of the drawings

Fig. 1 is the flow diagram of signaling testing method in one embodiment；

Fig. 2 is the flow diagram of signaling testing method in another embodiment；

Fig. 3 is the flow diagram of signaling testing method in another embodiment；

Fig. 4 is the flow diagram of signaling testing method in another embodiment；

Fig. 5 is the flow diagram of signaling testing method in another embodiment；

Fig. 6 is the flow diagram of signaling testing method in another embodiment；

Fig. 7 is the flow diagram of signaling testing method in another embodiment；

Fig. 8 is the structure diagram of signaling test device in one embodiment；

Fig. 9 is the internal structure chart of one embodiment Computer equipment.

Specific implementation mode

It is with reference to the accompanying drawings and embodiments, right in order to make the object, technical solution and advantage of the application be more clearly understood The application is further elaborated.It should be appreciated that specific embodiment described herein is only used to explain the application, not For limiting the application.

Signaling testing method provided by the present application, can be applied in terminal device, for carrying out letter to NB-IoT modules Enable test.Terminal is connect with NB-IoT modules to be measured and comprehensive test instrument.Comprehensive test instrument is used for anolog base station, and NB-IoT modules to be measured can With with comprehensive test instrument NB-IoT network connections.Wherein, terminal 102 can be, but not limited to be various personal computers, laptop, Tablet computer and industrial computer.

In one embodiment, as shown in Figure 1, providing a kind of signaling testing method, it is applied in this way among the above Terminal for illustrate, include the following steps：

S200 obtains the relevant parameter of signaling test.

Signaling test with respect to for non-signaling test, specifically by comprehensive test instrument anolog base station and NB- to be measured IoT modules set up connection, and NB-IoT modules to be measured are equivalent at this time has connected network, so as to be emitted and received The test of index.Relevant parameter includes but not limited to frequency range, channel and line loss.Frequency range is specially LTE frequency ranges, as band1, Band3, band5, band8 etc..Channel and line loss are corresponding with selected frequency range.Relevant parameter further comprises first performance test Relevant parameter, can specifically include the reference power of comprehensive test instrument and the quantity of giving out a contract for a project of comprehensive test instrument etc..It is obtained first to be measured NB-IoT modules carry out the relevant parameter of signaling test.

S400, according to the relevant parameter of the signaling test, tests NB-IoT moulds to be measured in the NB-IoT networks of simulation The first performance of block.

NB-IoT is a technology in the fields IoT, supports low power consuming devices to be connected in the cellular data of wide area network, is also called Make low-power consumption wide area network.NB-IoT supports stand-by time length, the efficient connection to network connectivity requirements higher device.NB-IoT is set Standby battery life can be improved at least 10 years, while can also provide very comprehensive indoor cellular data connection covering.It will obtain The relevant parameter for being tested NB-IoT modules to be measured taken passes through GPIB (General-Purpose Interface Bus, universal serial port bus) or cable importing comprehensive test instrument, comprehensive test instrument is configured according to relevant parameter, and in comprehensive test instrument mould The first performance of NB-IoT modules to be measured is tested in quasi- NB-IoT networks.Comprehensive test instrument can be repaiied in one of the embodiments, Change the parameters such as frequency range, channel and line loss, to test first performance of the NB-IoT modules to be measured in different frequency range.

S600 updates the corresponding relevant parameter of the second performance test in the relevant parameter of the signaling test, in the mould In quasi- NB-IoT networks, according to the relevant parameter of the updated signaling test, the NB-IoT modules to be measured are tested Second performance, the first performance is emitting performance and second performance is receptivity or the first performance is to receive Performance and second performance are emitting performance.

The corresponding relevant parameter of second performance test refer in relevant parameter with the relevant parameter of the second performance test.Work as survey Examination first performance is emitting performance, and when the second performance is receptivity, the parameter that first performance is arranged when testing is including at least comprehensive The reference power of instrument is surveyed, the parameter of modification includes at least the reference power of comprehensive test instrument, additionally needs the quantity of giving out a contract for a project to comprehensive test instrument It is configured.When test first performance is receptivity, when the second performance is emitting performance, the ginseng that is arranged when first performance is tested For number including at least the reference power of comprehensive test instrument and the quantity of giving out a contract for a project of comprehensive test instrument, the parameter of modification includes at least the reference of comprehensive test instrument Power.The emitting performance parameter of NB-IoT modules to be measured includes maximum transmission power, minimum emissive power, frequency error, OBW (Occupied Bandwidth, i.e. occupied bandwidth, amplitude of the vector miss by (Occupied Bandwidth, occupied bandwidth), EVM Difference), ACLR (Adjacent Channel Leakage Ratio, adjacent channel leakage ratio) and band spurious etc..NB- to be measured The receptivity parameter of IoT modules includes the mistake under BLER (Block Error Ratio, Block Error Rate) and maximum input level Block rate.After the first performance for testing NB-IoT modules to be measured, can in the test parameter of comprehensive test instrument with the second performance It tests relevant parameter to modify, then carry out, obtain the second performance of NB-IoT modules to be measured.One embodiment wherein In, comprehensive test instrument can change the parameters such as frequency range, channel and line loss, to test NB-IoT modules to be measured in different frequency range Second performance.

In one of the embodiments, when first performance is emitting performance, and the second performance is receptivity.It obtains first The relevant parameter of signaling test is configured the test parameter of the comprehensive test instrument for signaling test according to parameter, and parameter is specific The including but not limited to reference power of frequency range, channel, line loss and comprehensive test instrument, then in the NB-IoT networks of simulation, according to The relevant parameter of the signaling test tests the emitting performance of NB-IoT modules to be measured, specifically includes maximum transmission power, minimum Transmission power, frequency error, OBW, EVM, ACLR and band spurious etc. are then updated and are received in the relevant parameter of signaling test The corresponding relevant parameter of performance test, newer parameter specifically include the reference power of comprehensive test instrument and the number of giving out a contract for a project of comprehensive test instrument Amount, according to the relevant parameter of updated signaling test, tests the NB-IoT to be measured then in the NB-IoT networks of simulation The receptivity of module, receptivity parameter specifically include the Block Error Rate under BLER and maximum input level.

In one of the embodiments, when first performance is receptivity, and the second performance is emitting performance.It obtains first The relevant parameter of signaling test is configured the test parameter of the comprehensive test instrument for signaling test according to parameter, and parameter is specific The including but not limited to quantity of giving out a contract for a project of frequency range, channel, line loss, the reference power of comprehensive test instrument and comprehensive test instrument, then in simulation In NB-IoT networks, according to the relevant parameter of the signaling test, the receptivity of NB-IoT modules to be measured, receptivity are tested The Block Error Rate under BLER and maximum input level is specifically included, emitting performance in the relevant parameter of signaling test is then updated and surveys Corresponding relevant parameter is tried, newer parameter specifically includes the reference power of comprehensive test instrument, then in the NB-IoT networks of simulation, According to the relevant parameter of updated signaling test, the emitting performance of the NB-IoT modules to be measured is tested, maximum is specifically included Transmission power, minimum emissive power, frequency error, OBW, EVM, ACLR and band spurious etc..

Above-mentioned signaling testing method, device, computer equipment and storage medium, be arranged first to NB-IoT modules to be measured into The relevant parameter of row test then simulates NB-IoT networks, and the NB-IoT network handles by being simulated survey NB-IoT modules First performance tested, after the completion of first performance is tested, change relevant parameter in the second performance test parameter, treat The second performance for surveying NB-IoT modules is tested, and the performance parameter of NB-IoT modules to be measured is obtained, and wherein first performance is hair It penetrates performance and the second performance is receptivity or first performance is receptivity and the second performance is emitting performance.By upper The performance of NB-IoT modules to be dispatched from the factory under live network can be examined by stating signaling testing method, ensure the manufacture of NB-IoT modules Performance.

As shown in Fig. 2, including before the relevant parameter of setting signaling test in one of the embodiments,：

S120 initializes the power supply of NB-IoT modules to be measured.

S140 powers on control instruction to power supply transmission, and control power supply is that NB-IoT modules to be measured power on；

S160 reads the essential information of NB-IoT modules to be measured.

Before the performance for testing NB-IoT modules to be measured, the power supply of NB-IoT modules to be measured is first initialized, then to The power supply of NB-IoT modules to be measured sends control instruction, is powered on for NB-IoT modules to be measured, reads NB-IoT modules to be measured Essential information.Essential information includes SN (Serial Number, product ID), IMEI (International Mobile Equipment Identit, international mobile equipment identification number) and NB-IoT modules to be measured software and hardware version.It reads to be measured The essential information of NB-IoT modules is conducive to record the emitting performance and receptivity of NB-IoT modules to be measured.

As shown in figure 3, step S400 is surveyed in the NB-IoT networks of simulation according to signaling in one of the embodiments, The relevant parameter of examination, the first performance for testing module to be measured further include before：

S320 simulates NB-IoT networks.

S340 registers NB-IoT modules to be measured on NB-IoT networks.

S360 is connect by NB-IoT networks with NB-IoT modules to be measured.

The signaling switch of comprehensive test instrument can be opened by control to simulate NB-IoT networks, then established in comprehensive test instrument NB-IoT modules to be measured are registered on NB-IoT networks, and comprehensive test instrument and NB-IoT modules to be measured are then established by NB-IoT networks Connection.Facilitate the test of NB-IoT modules to be measured.

As shown in figure 4, step S340 in one of the embodiments, registers NB-IoT moulds to be measured on NB-IoT networks Further include before block：

S332 starts NB-IoT modules to be measured.

After comprehensive test instrument simulates NB-IoT networks, when NB-IoT modules to be measured are in inactive state, then control to be measured The power supply of NB-IoT modules starts NB-IoT modules to be measured and is then controlled when NB-IoT modules to be measured are in starting state The power supply of NB-IoT modules to be measured restarts NB-IoT modules to be measured, and the effect for starting NB-IoT modules to be measured is that module is allowed to search Rope NB-IoT networks.To register NB-IoT modules to be measured on NB-IoT networks.

As shown in figure 5, step S340 in one of the embodiments, registers NB-IoT moulds to be measured on NB-IoT networks Further include before block：

S334 sends networking control instruction to NB-IoT modules to be measured, controls NB-IoT block search NB-IoT nets to be measured Network.

It, then can be to be measured when NB-IoT modules to be measured are in starting state after comprehensive test instrument simulates NB-IoT networks NB-IoT modules send networking control instruction, NB-IoT block search NB-IoT networks to be measured are controlled, then in NB-IoT networks Upper registration NB-IoT modules to be measured.

As shown in fig. 6, step S600 in one of the embodiments, updates secondary in the relevant parameter of signaling test The relevant parameter that can be tested, is tested according to the relevant parameter of signaling test after update after the second performance of NB-IoT modules to be measured Further include：

S700 records the frequency range that NB-IoT modules to be measured have tested first performance and the second performance.

S820 changes the relevant parameter of signaling test when the frequency range of NB-IoT modules to be measured test also in need, returns In the NB-IoT networks of simulation, according to the relevant parameter of signaling test, the step of testing the first performance of module to be measured.

Emitting performance and receptivity of the NB-IoT modules to be measured in a frequency range can be tested first.It is completed in test Afterwards, the relevant parameter for resetting signaling test specifically includes frequency range, channel and line loss etc., then tests NB- to be measured again The performance in another frequency range of IoT modules.It is tested by replacing frequency range, can more test NB-IoT modules to be measured not Performance under same live network.

As shown in fig. 7, step S600 in one of the embodiments, the relevant parameter of signaling test includes frequency range, modification The relevant parameter of signaling test tests the receptivity of NB-IoT modules to be measured according to the relevant parameter of signaling test after modification, It obtains after the receptivity parameters of NB-IoT modules to be measured and further includes：

S700 records the frequency range that NB-IoT modules to be measured have tested first performance and the second performance；

S840 needs frequency range to be tested when the frequency range that NB-IoT modules to be measured have been tested includes all NB-IoT modules to be measured When, preserve the emitting performance and receptivity of NB-IoT modules to be measured.

After testing emitting performance and receptivity of the NB-IoT modules to be measured in all frequency ranges, it can preserve and wait for The parameter of the emitting performance and receptivity of NB-IoT modules is surveyed, the performance of all NB-IoT modules to be measured of comparative analysis is used for, Ensure the manufacture performance of NB-IoT modules to be measured.

The signaling testing method of the application includes the following steps in one of the embodiments,：

S120 initializes the power supply of NB-IoT modules to be measured.

S140 powers on control instruction to power supply transmission, and control power supply is that NB-IoT modules to be measured power on；

S160 reads the essential information of NB-IoT modules to be measured.

S200 obtains the relevant parameter of signaling test.

S320 simulates NB-IoT networks.

S332 restarts NB-IoT modules to be measured.

S340 registers NB-IoT modules to be measured on NB-IoT networks.

S360 is connect by NB-IoT networks with NB-IoT modules to be measured.

S400, according to the relevant parameter of the signaling test, tests NB-IoT moulds to be measured in the NB-IoT networks of simulation The emitting performance of block.

S600 updates receptivity in the relevant parameter of the signaling test and tests corresponding relevant parameter, in the mould In quasi- NB-IoT networks, according to the relevant parameter of the updated signaling test, the NB-IoT modules to be measured are tested Receptivity.

S700 records the frequency range that NB-IoT modules to be measured have tested emitting performance and receptivity,.

S820 changes the relevant parameter of signaling test when the frequency range of NB-IoT modules to be measured test also in need, returns In the NB-IoT networks of simulation, according to the relevant parameter of signaling test, the step of testing the emitting performance of module to be measured.

S840 needs frequency range to be tested when the frequency range that NB-IoT modules to be measured have been tested includes all NB-IoT modules to be measured When, preserve the emitting performance and receptivity of NB-IoT modules to be measured.

After testing emitting performance and receptivity of the NB-IoT modules to be measured in all frequency ranges, it can preserve and wait for The parameter of the emitting performance and receptivity of NB-IoT modules is surveyed, the performance of all NB-IoT modules to be measured of comparative analysis is used for, Ensure the manufacture performance of NB-IoT modules to be measured.

It should be understood that although each step in the flow chart of Fig. 1-7 is shown successively according to the instruction of arrow, These steps are not that the inevitable sequence indicated according to arrow executes successively.Unless expressly stating otherwise herein, these steps Execution there is no stringent sequences to limit, these steps can execute in other order.Moreover, at least one in Fig. 1-7 Part steps may include that either these sub-steps of multiple stages or stage are not necessarily in synchronization to multiple sub-steps Completion is executed, but can be executed at different times, the execution sequence in these sub-steps or stage is also not necessarily successively It carries out, but can either the sub-step of other steps or at least part in stage be in turn or alternately with other steps It executes.

In one embodiment, as shown in figure 8, providing a kind of signaling test device, device includes：

Test parameter acquisition module 200, the relevant parameter for obtaining signaling test；

First performance test module 400, in the NB-IoT networks of simulation, according to the relevant parameter of signaling test, Test the first performance of module to be measured；

Second performance test module 600, the related ginseng of the second performance test in the relevant parameter for updating signaling test Number, in the NB-IoT networks of simulation, according to the relevant parameter of updated signaling test, tests the secondary of module to be measured Can, first performance is emitting performance, and the second performance is receptivity or first performance is receptivity, and the second performance is transmitting Performance.

Signaling test device further includes module information read module in one of the embodiments, and module information reads mould Block is used for：

Initialize the power supply of NB-IoT modules to be measured；

Control instruction is powered on to power supply transmission, control power supply is that NB-IoT modules to be measured power on；

Read the essential information of NB-IoT modules to be measured.

Signaling test device further includes network connecting module in one of the embodiments, and network connecting module is used for：

Simulate NB-IoT networks；

NB-IoT modules to be measured are registered on NB-IoT networks；

It is connect with NB-IoT modules to be measured by NB-IoT networks.

Network connecting module is additionally operable in one of the embodiments,：

Start NB-IoT modules to be measured.

Network connecting module is additionally operable in one of the embodiments,：

Networking control instruction is sent to NB-IoT modules to be measured, controls NB-IoT block search NB-IoT networks to be measured.

Signaling test device further includes test frequency range handover module in one of the embodiments, and test frequency range switches mould Block is used for：

Record the frequency range that NB-IoT modules to be measured have tested first performance and the second performance；

When the frequency range of NB-IoT modules to be measured test also in need, the relevant parameter of signaling test is changed, is returned in mould In quasi- NB-IoT networks, according to the relevant parameter of signaling test, the step of testing the first performance of module to be measured.

Signaling test device further includes test information preservation module in one of the embodiments, tests information preservation mould Block is used for：

Record the frequency range that NB-IoT modules to be measured have tested first performance and the second performance；

When the frequency range that NB-IoT modules to be measured have been tested, which includes all NB-IoT modules to be measured, needs frequency range to be tested, protect Deposit the emitting performance and receptivity of NB-IoT modules to be measured.

Specific about signaling test device limits the restriction that may refer to above for signaling testing method, herein not It repeats again.Modules in above-mentioned signaling test device can be realized fully or partially through software, hardware and combinations thereof.On Stating each module can be embedded in or independently of in the processor in computer equipment, can also store in a software form in the form of hardware In memory in computer equipment, the corresponding operation of the above modules is executed in order to which processor calls.

In one embodiment, a kind of computer equipment is provided, which can be terminal, internal structure Figure can be as shown in Figure 9.The computer equipment includes the processor connected by system bus, memory, network interface, display Screen and input unit.Wherein, the processor of the computer equipment is for providing calculating and control ability.The computer equipment is deposited Reservoir includes non-volatile memory medium, built-in storage.The non-volatile memory medium is stored with operating system and computer journey Sequence.The built-in storage provides environment for the operation of operating system and computer program in non-volatile memory medium.The calculating The network interface of machine equipment is used to communicate by network connection with external terminal.When the computer program is executed by processor with Realize a kind of signaling testing method.The display screen of the computer equipment can be liquid crystal display or electric ink display screen, The input unit of the computer equipment can be the touch layer covered on display screen, can also be to be arranged on computer equipment shell Button, trace ball or Trackpad, can also be external keyboard, Trackpad or mouse etc..

It will be understood by those skilled in the art that structure shown in Fig. 9, is only tied with the relevant part of application scheme The block diagram of structure does not constitute the restriction for the computer equipment being applied thereon to application scheme, specific computer equipment May include either combining certain components than more or fewer components as shown in the figure or being arranged with different components.

In one embodiment, a kind of computer equipment, including memory and processor are provided, is stored in memory Computer program, the processor realize following steps when executing computer program：

Obtain the relevant parameter of signaling test；

In the NB-IoT networks of simulation, according to the relevant parameter of signaling test, the first of NB-IoT modules to be measured is tested Performance；

The corresponding relevant parameter of the second performance test in the relevant parameter of signaling test is updated, in the NB-IoT networks of simulation In, according to the relevant parameter of updated signaling test, the second performance of NB-IoT modules to be measured is tested, first performance is transmitting Performance and the second performance are receptivity or first performance is receptivity and the second performance is emitting performance.

In one embodiment, following steps are also realized when processor executes computer program：

Initialize the power supply of NB-IoT modules to be measured；

Control instruction is powered on to power supply transmission, control power supply is that NB-IoT modules to be measured power on；

Read the essential information of NB-IoT modules to be measured.

In one embodiment, following steps are also realized when processor executes computer program：

Simulate NB-IoT networks；

NB-IoT modules to be measured are registered on NB-IoT networks；

It is connect with NB-IoT modules to be measured by NB-IoT networks.

In one embodiment, following steps are also realized when processor executes computer program：

Start NB-IoT modules to be measured.

In one embodiment, following steps are also realized when processor executes computer program：

Networking control instruction is sent to NB-IoT modules to be measured, controls NB-IoT block search NB-IoT networks to be measured.

In one embodiment, following steps are also realized when processor executes computer program：

Record the frequency range that NB-IoT modules to be measured have tested first performance and the second performance；

When the frequency range of NB-IoT modules to be measured test also in need, the relevant parameter of signaling test is changed, is returned in mould In quasi- NB-IoT networks, according to the relevant parameter of signaling test, the step of testing the first performance of module to be measured.

In one embodiment, following steps are also realized when processor executes computer program：

Record the frequency range that NB-IoT modules to be measured have tested first performance and the second performance；

When the frequency range that NB-IoT modules to be measured have been tested, which includes all NB-IoT modules to be measured, needs frequency range to be tested, protect Deposit the emitting performance and receptivity of NB-IoT modules to be measured.

In one embodiment, a kind of computer readable storage medium is provided, computer program is stored thereon with, is calculated Machine program realizes following steps when being executed by processor：

Obtain the relevant parameter of signaling test；

In the NB-IoT networks of simulation, according to the relevant parameter of signaling test, the first of NB-IoT modules to be measured is tested Performance；

The corresponding relevant parameter of the second performance test in the relevant parameter of signaling test is updated, in the NB-IoT networks of simulation In, according to the relevant parameter of updated signaling test, the second performance of NB-IoT modules to be measured is tested, first performance is transmitting Performance and the second performance are receptivity or first performance is receptivity and the second performance is emitting performance.

In one embodiment, following steps are also realized when computer program is executed by processor：

Initialize the power supply of NB-IoT modules to be measured；

Control instruction is powered on to power supply transmission, control power supply is that NB-IoT modules to be measured power on；

Read the essential information of NB-IoT modules to be measured.

In one embodiment, following steps are also realized when computer program is executed by processor：

Simulate NB-IoT networks；

NB-IoT modules to be measured are registered on NB-IoT networks；

It is connect with NB-IoT modules to be measured by NB-IoT networks.

In one embodiment, following steps are also realized when computer program is executed by processor：

Start NB-IoT modules to be measured.

In one embodiment, following steps are also realized when computer program is executed by processor：

Networking control instruction is sent to NB-IoT modules to be measured, controls NB-IoT block search NB-IoT networks to be measured.

In one embodiment, following steps are also realized when computer program is executed by processor：

Record the frequency range that NB-IoT modules to be measured have tested first performance and the second performance；

When the frequency range of NB-IoT modules to be measured test also in need, the relevant parameter of signaling test is changed, is returned in mould In quasi- NB-IoT networks, according to the relevant parameter of signaling test, the step of testing the first performance of module to be measured.

In one embodiment, following steps are also realized when computer program is executed by processor：

Record the frequency range that NB-IoT modules to be measured have tested first performance and the second performance；

When the frequency range that NB-IoT modules to be measured have been tested, which includes all NB-IoT modules to be measured, needs frequency range to be tested, protect Deposit the emitting performance and receptivity of NB-IoT modules to be measured.

One of ordinary skill in the art will appreciate that realizing all or part of flow in above-described embodiment method, being can be with Instruct relevant hardware to complete by computer program, computer program can be stored in a non-volatile computer readable It takes in storage medium, the computer program is when being executed, it may include such as the flow of the embodiment of above-mentioned each method.Wherein, this Shen Any reference to memory, storage, database or other media used in each embodiment please provided, may each comprise Non-volatile and/or volatile memory.Nonvolatile memory may include read-only memory (ROM), programming ROM (PROM), electrically programmable ROM (EPROM), electrically erasable ROM (EEPROM) or flash memory.Volatile memory may include Random access memory (RAM) or external cache.By way of illustration and not limitation, RAM is available in many forms, Such as static state RAM (SRAM), dynamic ram (DRAM), synchronous dram (SDRAM), double data rate sdram (DDRSDRAM), enhancing Type SDRAM (ESDRAM), synchronization link (Synchlink) DRAM (SLDRAM), memory bus (Rambus) direct RAM (RDRAM), direct memory bus dynamic ram (DRDRAM) and memory bus dynamic ram (RDRAM) etc..

Each technical characteristic of above example can be combined arbitrarily, to keep description succinct, not to above-described embodiment In each technical characteristic it is all possible combination be all described, as long as however, the combination of these technical characteristics be not present lance Shield is all considered to be the range of this specification record.

Above example only expresses the several embodiments of the application, the description thereof is more specific and detailed, but can not Therefore it is construed as limiting the scope of the patent.It should be pointed out that for those of ordinary skill in the art, Under the premise of not departing from the application design, various modifications and improvements can be made, these belong to the protection domain of the application. Therefore, the protection domain of the application patent should be determined by the appended claims.

Claims (10)

1. a kind of signaling testing method, the method includes：

Obtain the relevant parameter of signaling test；

In the NB-IoT networks of simulation, according to the relevant parameter of the signaling test, the first of NB-IoT modules to be measured is tested Performance；

The corresponding relevant parameter of the second performance test in the relevant parameter of the signaling test is updated, in the NB-IoT of the simulation In network, according to the relevant parameter of the updated signaling test, the second performance of the NB-IoT modules to be measured, institute are tested State that first performance is emitting performance and second performance be receptivity or the first performance is receptivity and described Second performance is emitting performance.

2. according to the method described in claim 1, it is characterized in that, including before the relevant parameter of the setting signaling test：

Initialize the power supply of NB-IoT modules to be measured；

Control instruction is powered on to power supply transmission, it is that the NB-IoT modules to be measured power on to control the power supply；

Read the essential information of the NB-IoT modules to be measured.

3. according to the method described in claim 1, it is characterized in that, described in the NB-IoT networks of simulation, according to the letter The relevant parameter for enabling test, the first performance for testing module to be measured further include before：

Simulate NB-IoT networks；

The NB-IoT modules to be measured are registered on the NB-IoT networks；

It is connect with NB-IoT modules to be measured by the NB-IoT networks.

4. according to the method described in claim 3, it is characterized in that, it is described registered on the NB-IoT networks it is described to be measured Further include before NB-IoT modules：

Start the NB-IoT modules to be measured.

5. according to the method described in claim 2, it is characterized in that, it is described registered on the NB-IoT networks it is described to be measured Further include before NB-IoT modules：

Networking control instruction is sent to the NB-IoT modules to be measured, controls the NB-IoT block search NB-IoT nets to be measured Network.

6. according to the method described in claim 1, it is characterized in that, second in the relevant parameter of the update signaling test The relevant parameter of performance test tests the secondary of the NB-IoT modules to be measured according to the relevant parameter of signaling test after update Can further include later：

Record the frequency range that the NB-IoT modules to be measured have tested the first performance and second performance；

When the frequency range of the NB-IoT modules test also in need to be measured, the relevant parameter of the signaling test is changed, is returned In the NB-IoT networks of simulation, according to the relevant parameter of the signaling test, the step of testing the first performance of module to be measured.

7. described according to the method described in claim 1, it is characterized in that, the relevant parameter of the signaling test includes frequency range The relevant parameter for changing the signaling test tests the NB-IoT modules to be measured according to the relevant parameter of signaling test after modification Receptivity, obtain after the receptivity parameter of the NB-IoT modules to be measured and further include：

Record the frequency range that the NB-IoT modules to be measured have tested the first performance and second performance；

Frequency range to be tested is needed when the frequency range that the NB-IoT modules to be measured have been tested includes all NB-IoT modules to be measured When, preserve the emitting performance and receptivity of the NB-IoT modules to be measured.

8. a kind of signaling test device, which is characterized in that described device includes：

Test parameter acquisition module, the relevant parameter for obtaining signaling test；

First performance test module, in the NB-IoT networks of simulation, according to the relevant parameter of the signaling test, testing The first performance of the module to be measured；

Second performance test module, the relevant parameter of the second performance test in the relevant parameter for updating the signaling test, In the NB-IoT networks of the simulation, according to the relevant parameter of the updated signaling test, the module to be measured is tested Second performance, the first performance are emitting performance, and second performance is receptivity or the first performance is acceptance Can, second performance is emitting performance.

9. a kind of computer equipment, including memory and processor, the memory are stored with computer program, feature exists In when the processor executes the computer program the step of any one of realization claim 1 to 7 the method.

10. a kind of computer readable storage medium, is stored thereon with computer program, which is characterized in that the computer program The step of method described in any one of claim 1 to 7 is realized when being executed by processor.