CN111078482A - Communication navigation equipment test system, method, equipment and readable storage medium - Google Patents

Abstract

The invention belongs to the field of communication navigation equipment, and discloses a communication navigation equipment test system, a method, equipment and a readable storage medium; the system comprises a comprehensive control unit, wherein a test instruction configuration module, a test item configuration module, a test execution module and a test data management module are arranged in the comprehensive control unit; the device is respectively used for selecting a preset initial configuration parameter instruction corresponding to the device to be tested, and performing parameter setting to obtain a configuration parameter instruction; selecting all configuration parameter instructions corresponding to each device to be tested, selecting the configuration parameter instructions required by the preset test requirements, and adjusting the operation sequence of all the devices to be tested to obtain test items; and analyzing the test items, driving the required equipment to be tested to complete the test according to the analysis result of the test items, and recording the test result. The operation instruction, the test item and the test flow of the device to be tested of the test system are flexible and configurable, and can be compatible with various communication navigation devices; the complexity of configuration is reduced, and multiple tests can be carried out by one configuration.

Description

Communication navigation equipment test system, method, equipment and readable storage medium

Technical Field

The invention belongs to the field of communication navigation equipment, and relates to a communication navigation equipment test system, a method, equipment and a readable storage medium.

Background

The method mainly comprises the steps that a navigation device mainly completes a navigation function, a designer selects the navigation device according to the requirements of cost and functions when designing the airplane, and the navigation device needs to be tested before and after the airplane is assembled. Communication navigation test instrument platforms in the current market are basically special equipment, and when the communication navigation test instrument platforms are actually tested and used, test instruments with corresponding test functions and indexes are purchased according to test requirements, and testing is completed according to the design principle of the test instruments.

However, the current communication navigation test instrument platform has the following problems: 1. the universality is poor, and generally, one test platform can only finish the detection of a certain fixed parameter of one navigator or one navigation tester; 2. the configurability is poor, one test is finished, namely, one test instruction needs to be configured, and the test efficiency is low under the condition of more test requirements; 3. the requirement on the service capability of testers is high, and the testing principle must be known to complete the testing.

Disclosure of Invention

The invention aims to overcome the defects of poor universality and configurability and high requirement on the service capability of a tester of the existing communication navigation test instrument in the prior art, and provides a communication navigation equipment test system, a method, equipment and a readable storage medium.

In order to achieve the purpose, the invention adopts the following technical scheme to realize the purpose:

in a first aspect of the present invention, a communication navigation device testing system includes a comprehensive management and control unit, in which a test instruction configuration module, a test item configuration module, a test execution module and a test data management module are disposed;

the test instruction configuration module is used for determining the required equipment to be tested according to the preset test requirement, selecting a preset initial configuration parameter instruction corresponding to the equipment to be tested from the test data management module, performing parameter setting on the initial configuration parameter instruction to obtain a configuration parameter instruction and storing the configuration parameter instruction to the test data management module;

the test item configuration module is used for determining all required devices to be tested according to preset test requirements, selecting all configuration parameter instructions corresponding to each device to be tested from the test data management module, selecting the configuration parameter instructions required by the preset test requirements from all the configuration parameter instructions, adjusting the operation sequence of all the devices to be tested, obtaining test items and storing the test items to the test data management module;

and the test execution module is used for determining the equipment to be tested according to the preset test requirement, acquiring the corresponding test item, analyzing the test item, driving the equipment to be tested to complete the test according to the analysis result of the test item, receiving the test result of the equipment to be tested and storing the test result to the test data management module.

The communication navigation equipment test system of the invention is further improved in that:

the system also comprises a login management module and a right management module, wherein the right management module comprises a right configuration module and a right distribution module; the login management module is used for acquiring login information, matching the login information with preset account information stored in the test data management module, and completing login when the account information matched with the login information exists; otherwise, prompting a login error; the authority configuration module is used for configuring corresponding authority levels for different account information and configuring executable operation for each authority level to obtain an authority configuration table and store the authority configuration table in the test data management module; and the authority distribution module is used for acquiring the authority level of the account information corresponding to the login information and configuring executable operation for the current test system according to the authority configuration table.

The power-on self-checking module and the functional self-checking module are also included; the power-on self-test module is used for generating and sending a power-on self-test instruction to all test instruments of the communication navigation test system when the communication navigation test system is powered on, and receiving and displaying power-on self-test feedback results of all the test instruments; and the function self-checking module is used for generating and sending a function self-checking instruction to the to-be-tested equipment according to the test requirement, receiving and displaying the feedback information of the to-be-tested equipment.

The test data management module is used for managing the test items in the test data management module.

The remote control unit is internally provided with a remote test instruction configuration module, a remote test item configuration module and a remote test execution module; the remote test instruction configuration module is in communication connection with the test instruction configuration module and the test data management module and is used for executing the function of the test instruction configuration module; the test instruction configuration module is used for displaying the remote test instruction configuration module in real time; the remote test item configuration module is in communication connection with the test item configuration module and the test data management module and is used for executing the functions of the test item configuration module; the test item configuration module is used for displaying the remote test item configuration module in real time; the remote test execution module is used for determining the required equipment to be tested according to the preset test requirement, acquiring the corresponding test item and then sending the corresponding test item to the test execution module; the test execution module is used for displaying the remote test execution module in real time, analyzing the test items, driving the required equipment to be tested to complete the test according to the analysis result of the test items, receiving the test result of the required equipment to be tested and storing the test result to the test data management module.

In a second aspect of the present invention, a method for testing communication and navigation equipment includes the following steps:

s1: determining the required equipment to be tested according to the preset test requirement, selecting a preset initial configuration parameter instruction corresponding to the equipment to be tested, performing parameter setting on the initial configuration parameter instruction to obtain a configuration parameter instruction, and storing the configuration parameter instruction;

s2: determining all required devices to be tested according to a preset test requirement, selecting all configuration parameter instructions corresponding to each device to be tested, selecting the configuration parameter instructions required by the preset test requirement from all the configuration parameter instructions, and adjusting the operation sequence of all the devices to be tested to obtain a test item;

s3: determining the equipment to be tested according to the preset test requirement, acquiring the corresponding test item, analyzing the test item, driving the equipment to be tested to complete the test according to the analysis result of the test item, receiving and storing the test result of the equipment to be tested, and completing the test of the communication navigation equipment.

The invention further improves the communication navigation equipment test method in that:

before S1, the following steps are performed: configuring corresponding authority levels for all the preset account information and configuring executable operation for each authority level to obtain and store an authority configuration table; acquiring current login information of the test system, matching the login information with account information, and completing login when the account information matched with the login information exists; otherwise, prompting a login error; and after the login is finished, acquiring the authority level of the account information corresponding to the login information, and configuring executable operation for the current test system according to the authority configuration table.

Before S1, the following steps are performed: when the communication navigation test system is powered on, generating and sending a power-on self-test instruction to all test instruments of the communication navigation test system, and receiving and displaying power-on self-test feedback results of all the test instruments; and generating and sending a function self-checking instruction to the to-be-tested equipment according to the test requirement, and receiving and displaying feedback information of the to-be-tested equipment.

In a third aspect of the present invention, an apparatus includes a memory, a processor, and a computer program stored in the memory and executable on the processor, and the processor implements the steps of the communication navigation apparatus testing method when executing the computer program.

In a fourth aspect of the present invention, a computer-readable storage medium stores a computer program, and the computer program, when executed by a processor, implements the steps of the communication navigation device testing method.

Compared with the prior art, the invention has the following beneficial effects:

the communication navigation equipment testing system completes the parameter setting of the preset initial configuration parameter instruction by setting the testing instruction configuration module, so that the configuration parameter instruction can be obtained, the configuration parameter instruction realizes the testing basis, and the configuration parameter instruction is flexibly configurable, so that the testing system can be compatible with the testing of various communication navigation equipment, and the universality of the testing system is greatly improved. Furthermore, by setting a test item configuration module, determining the equipment to be tested according to the preset test requirement, selecting a configuration parameter instruction for the equipment to be tested, then setting the test sequence of the equipment to be tested, generating a test item and storing the test item in a test data management module, wherein the configuration of the test item is an important aspect for improving the expandability of the system, a tester does not need to edit the test item with heavy operation, and the tester focuses on equipment testing and fault analysis; meanwhile, the requirement on the service capability of testers is reduced, and the stored test items can be used for testing under the condition that the test principle is not known, so that the test cost is reduced. And then the test execution module analyzes the test item and drives the to-be-tested equipment to complete the test, receives the test result of the to-be-tested equipment and stores the test result to the test data management module, so that the whole test is realized, the test result based on the test data management module is stored, and the test result playback function can be realized.

Furthermore, a login management module and a right management module are arranged to ensure the safety of the whole test system; and the authority levels are reasonably distributed, and the accuracy of modifying the test items is ensured.

Furthermore, a power-on self-test module and a function self-test module are arranged to complete the starting of the equipment to be tested and the detection of the action state, so that the normal operation of the test is ensured.

Furthermore, a test item management module is arranged and used for importing, deleting, modifying and inquiring the test items in the test data management module, and after the existing test items are exported and stored, if the subsequent tests need the same or similar test items, a user can directly import the test items without configuring the test items one by one, so that the test efficiency is improved.

Furthermore, a remote control unit is arranged, the functions of the test instruction configuration module and the test item configuration module are realized through the remote test instruction configuration module, the remote test item configuration module and the remote test execution module, and partial functions of the test execution module meet the test requirement without being limited by distance environment, the comprehensive control unit does the same display operation in the corresponding module, test data needing to be stored can be transmitted to the comprehensive control unit in real time and stored properly, the test requirements of remote test and local monitoring are met, the test work is greatly facilitated, the test efficiency is improved, and the flexibility of the test is increased.

Drawings

FIG. 1 is a flow chart of the privilege login function of the present invention;

FIG. 2 is a flow chart of the test instruction configuration of the present invention;

FIG. 3 is a flow chart of test item configuration according to the present invention;

FIG. 4 is a flow chart of the test of the present invention;

fig. 5 is a schematic diagram of the communication between the remote control end and the test platform main control end according to the present invention.

Detailed Description

In order to make the technical solutions of the present invention better understood, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that the terms "first," "second," and the like in the description and claims of the present invention and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the invention described herein are capable of operation in sequences other than those illustrated or described herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

The invention is described in further detail below with reference to the accompanying drawings:

the communication navigation equipment test system comprises a comprehensive control unit and a remote control unit, wherein the comprehensive control unit is in Ethernet communication connection with the remote control unit.

Integrated control unit

The comprehensive control unit mainly comprises an authority management module, a self-checking module, a test instruction configuration module, a test item management module, a test execution module and a test data management module.

1. Authority login module

The right login module mainly comprises a login management module and a right management module.

1) Login management module

A login management module: the account information base is used for acquiring login information, matching the login information with account information stored in the account information base, and completing login when the account information matched with the login information exists in the account information base; otherwise, prompting for a login error.

2) Authority management module

Referring to fig. 1, an authority management module of the communication navigation testing system filters a menu after a user logs in, and the authority management module mainly includes an authority configuration module and an authority distribution module.

The authority configuration module: the authority configuration table is used for configuring corresponding authority levels for different account information in the account information base and configuring executable operation for each authority level to obtain and store an authority configuration table; three levels of authority are designed in the communication navigation test system. Primary authority: the method has the capability of distributing all authorities, including the capability of changing the cross-linking relation of system hardware interfaces and the like, the capability of changing the authorities of login personnel, the capability of modifying important information of a test data management module and the like. This is the highest level of authority for the entire system. Secondary authority: the test items can be configured under the condition of definite system interface, wherein the test items comprise instruction configuration, test item configuration, test flow configuration and test flow sequencing capability. Three-level authority: the method only has the capability of completing the test task by using the existing test flow and test items, and can not change and configure the test instruction, the test items and the test flow.

An authority distribution module: and the system is used for acquiring the information of the current login account and distributing the authority level to the current login account according to the authority configuration table. After login verification, the communication navigation test system can calculate the operation which can be performed according to the role owned by the user, and displays a corresponding menu according to the operation, so that the current user has no authority to operate or can not perform the function, and does not display the function.

2. Self-checking module

The function of the self-checking module is mainly divided into a power-on self-checking module and a functional self-checking module according to the self-checking purpose.

1) Power-on self-checking module

A power-on self-test module: when the communication navigation test system is started and logged in, a self-checking instruction is sent to all test instruments, drive board cards and the like contained in the system, the power-on state of the communication navigation test system is analyzed according to the self-checking return instructions of the instruments and the drive board cards, and the result is output and displayed in a report form.

2) Function self-checking module

Function self-checking module: the function self-checking module is used for sending a function self-checking instruction to the to-be-tested instrument equipment or the board card by a user according to a test requirement, receiving feedback information of the to-be-tested instrument equipment or the board card, and checking whether the to-be-tested instrument equipment or the board card works normally according to information returned by the feedback information. The function self-checking instruction is configured according to the function of the object to be self-checked. In the communication navigation system, the configuration of a test instruction can be carried out according to a test object and a test instrument, after the configuration of the self-checking instruction is completed, the instruction exists in a test data management module, and when the self-checking function test is carried out, the corresponding self-checking instruction is searched out and issued according to the self-checking object. The judgment of the self-checking result also has independence according to different self-checking objects, the configuration item corresponding to the self-checking instruction also has self-checking state criterion, the configuration item is stored in the test data management module after the configuration is finished, and the state returned by the self-checking object is analyzed and displayed according to the criterion stored in the test data management module. The process of function self-checking comprises the communication function detection of the board card and the functionality detection of a specific instruction. For the instrument and equipment with abnormal self-checking state, the functional self-checking has the function of preliminary diagnosis.

3. Test instruction configuration module

Referring to fig. 2, the test instruction configuration flow is a command word of a simple and unified calling mode for an instrument or board operation, and describes what command (method) the call will execute, and also describes the format of the following parameters. The instructions are closely related to the functions of the instruments and the cards, the parameters and the formats of the instructions must be combined with the interface processing program of the instruments or the cards, the fixed processing flow of the instruments or the cards is arranged in the interface processing program of the instruments or the cards, and in the instruction configuration, only the changed and configured contents, such as ports, specific values and the like, are reserved.

According to the scheme, complicated work such as instrument connection configuration, test code compiling, test task setting and the like is converted into mouse operation under a friendly man-machine interface. Therefore, in the design, concepts such as virtual resources and virtual channels are utilized to encapsulate physical resources and channel information (such as range and port configuration) and interact with operators through a friendly interface, so that visual configuration operation of test control is realized.

4. Test item configuration module

Referring to fig. 3, in the test item configuration flow, the test items of the generic navigation device test system are composed of test instruction sets corresponding to the test items. The flexible configurability of the test items is based on the configurability of the instructions, and various board cards, instruments, modules including a power supply and the like in the system can realize the parameter configuration of a software interface.

All operations of an instrument or a board card are configured in the form of operation instructions and stored in the test data management module, that is, all functional operation instruction sets of the instrument or the equipment are generated. And calling instructions in an instruction set corresponding to the equipment or the board card to be tested from the test data management module according to the information of the equipment or the board card to be tested to perform screening, combination and parameter configuration, so as to form a test item.

The universal navigation equipment test system provides a visual programming interface, and reduces the complexity of an operator in programming test items. The configuration of the test item is established on the basis of instruction configuration, and the content of the test item comprises instrument or board card requirements, port configuration, a test flow, an operation instruction for the test instrument and the tested object, excitation data for the test instrument and the tested object and the like. A test item is typically performed by one or more test instruments or cards in combination. The user selects the instrument or board card required by the test item according to the requirement of the test item, the software automatically loads the configured operation instruction corresponding to the instrument or board card, the user selects the required instruction or instruction set, the operation sequence is adjusted, and the operation sequence is stored in the test data management module, so that the test item configuration work of one instrument or board card is completed. And (4) sequentially configuring all test item instructions of all instruments or board cards required by the test items, adjusting the operation sequence, and storing the operation sequence in the test data management module. At this point, the configuration work of one test item is completed. In addition, in the configuration process of the test item, if the parameters in the operation instruction need to be modified, the parameters can be directly modified, the parameters newly configured by the user are used for the test item after storage, and the parameters in the original configuration instruction are still reserved.

The test item configuration module operation interface provides the import and export functions of the test items, and after the existing test items are exported and stored, if the subsequent tests need the same or similar test items, the user can directly import the test items without configuring the test items item by item. The configurable module of the test item is an important aspect for improving the system expandability, the test configurability is realized through a virtual instrument technology, a tester does not need a test item editing task with heavy operation any more, and the main attention is paid to equipment testing and fault analysis.

5. Test item management module

The test item management module is used for adding, deleting, modifying and inquiring test items in the test data management module. The universal navigation equipment test system comprises a test item management operation interface, all test items in the current system are obtained by reading a test item list configured in a test data management module, a user can modify the test items through operation function buttons such as addition, deletion and modification on the interface, and the test items in the test data management module can be refreshed by clicking a storage function button after the modification is completed. The test item management operation interface has a search query function, so that a user can query according to the key information of the test item to quickly find the test item to be modified.

6. Test execution module

Referring to fig. 4, the test execution module of the communication navigation device test system executes a test process, and the test execution module includes a test management module and a test driver module.

The test management module is used for managing preparation work before test item execution, and comprises the contents of test environment preparation (instrument or board card and configuration), test mode, test information establishment and the like. Before a test is performed, it is necessary to register information of a device under test, test information, select a test item, determine a manner of performing the test, and the like.

a) Device under test information

The information is mainly for subsequent data organization and query. The test of the tested device is not performed once but many times, so that the information of the tested device is newly established during the first test, and the information is selected during the subsequent tests. Therefore, the information of the newly-built tested equipment is provided, and meanwhile, a convenient and quick selection function is provided.

b) Test information

A tested device, which is not tested only once; for a test item, a device under test may also be tested multiple times. Therefore, before each test, the information of the test is established, and the tests are convenient to distinguish.

c) Test item selection

To perform the test, a test item is naturally selected, which represents the test flow and test scenario of the test item. In a test process, most of the cases do not select only a single test item, but select a plurality of test items to perform comprehensive test together according to a certain test flow. Therefore, one test operation is likely to correspond to a plurality of test items.

d) Test resource allocation

After the test items are selected, the whole test resources need to be configured, such as selecting the test resources (selecting a real object or a virtual device), configuring the test resources, and the like.

e) Test execution mode

The test is performed in a manner that includes both single or multiple cycles.

f) Test results

The communication navigation test system is used for testing the functional qualification of the tested equipment, and has the functions of recording whether the test passes or not, counting and inquiring the test result and the like.

The test driver module is the heart of the test platform, which drives the test. The test driving module is used for:

a) and analyzing the content contained in the test item.

In the test execution process, the communication navigation test system searches all the operation instructions contained in the test item in the test data management module and sends the operation instructions to an operation object (instrument or plate) according to the configuration sequence. The operation instruction user display interface is a simple instruction function prompt phrase, but the system analyzes the instruction into a language format capable of driving the operation object by searching a test data management module corresponding to the corresponding instruction, and sends the language format to the operation object.

b) And driving the test sequence to be carried out according to the flow of the test items.

c) And controlling the test to be carried out according to the set running mode.

d) And dynamically adjusting the association relation of the instrument or board card resources according to the configuration in the test items.

One test instrument or board can be called by different tested devices to complete the test work. Different tests may have different objects to be tested, different configurations of test items, and different associations between the devices to be tested and the test instruments or boards. The change of the incidence relation is realized by changing port numbers, IP addresses and the like according to the self communication characteristics of the tested equipment and the testing instrument or the board card.

e) And sending instructions to the instrument or board interface program.

The manner in which the command is transmitted to the instrument or board after being parsed is determined by the communications that the instrument or board can support, such as ethernet communications or 485 communications.

f) And acquiring feedback information from an instrument or board card interface program, and judging the test state.

The judgment of the test state is based on the parameter criterion which is derived from the configuration in the acquisition class instruction in the instruction configuration. The criterion type of the parameter is typically one or more valid ranges, one or more valid values, etc. depending on the type of acquisition signal of the acquisition instruction.

7. Test data management module

The test data management module: the first is for managing pre-test data: all configuration information of the test instruments and the board cards required to be used in the using process of the system comprises an instruction set, test items and a test flow. And secondly, managing test result data after the test is completed. The test data management module of the communication navigation equipment test system is a database.

The pre-test data management includes system information management and configuration information management.

1) System information management

The system information includes state information of the instrument board card of the whole test system, cross-linking relation information configured by a user, and the like. The communication navigation equipment test system provides a visual and convenient system information configuration interface for a user, and the user can realize system information management by storing the changed system information configuration interface into the test data management module.

2) Configuration information management

The instructions and test items configured by the user through the test platform software, the test flow and the like are also stored in the test data management module.

And managing test result data, wherein after each test, the test platform stores the test process data and the result data of each test item in the test flow in a test report in detail. And the self-checking test information of the important instrument board card is also stored in the test data management module.

Second, remote control unit

The remote control unit is provided with a function self-checking module, an instruction configuration module, a test item configuration module and a test item execution module in the comprehensive control unit.

The remote control unit relies on and synthesizes the Ethernet communication system between the control units. The remote management system shares the test data management module with the comprehensive management and control unit through the Ethernet, namely, the remote management and control unit can use, manage and configure the operation instructions and the test items contained in the test data management module of the comprehensive management and control unit. When a user has a requirement of remote control, the remote control unit is used for sending a control request to the comprehensive control unit, after the request passes, functions of a self-checking module, an instruction configuration module, a test item configuration module and a test item execution module in the remote control unit are opened to the user, the user can configure and send instructions on a configuration interface or a test interface like using the comprehensive control unit, and analysis, driving, execution, storage of test data and the like of the instructions are still completed by the comprehensive control unit. At this time, the remote management and control unit has the same test function as the comprehensive management and control unit. And the test requirement without the limitation of distance environment is met.

Meanwhile, the remote control unit sends the instruction to the comprehensive control unit through the Ethernet in the testing process, the comprehensive control unit performs the same display operation in a corresponding interface after receiving the instruction, the comprehensive control unit sends the data to the remote control unit through the Ethernet when acquiring and displaying the received data, and the remote control unit synchronously displays the data in the corresponding interface. The remote control and local monitoring functions are realized.

The invention also discloses a communication navigation equipment testing method, which comprises the following steps:

s1: configuring corresponding authority levels for all the preset account information and configuring executable operation for each authority level to obtain and store an authority configuration table; acquiring current login information of the test system, matching the login information with account information, and completing login when the account information matched with the login information exists; otherwise, prompting a login error; and after the login is finished, acquiring the authority level of the account information corresponding to the login information, and configuring executable operation for the current test system according to the authority configuration table.

S2: when the communication navigation test system is powered on, generating and sending a power-on self-test instruction to all test instruments of the communication navigation test system, and receiving and displaying power-on self-test feedback results of all the test instruments; and generating and sending a function self-checking instruction to the to-be-tested equipment according to the test requirement, and receiving and displaying feedback information of the to-be-tested equipment.

S3: determining the required equipment to be tested according to the preset test requirement, selecting a preset initial configuration parameter instruction corresponding to the equipment to be tested, and performing parameter setting on the initial configuration parameter instruction to obtain a configuration parameter instruction and storing the configuration parameter instruction.

S4: determining all required devices to be tested according to a preset test requirement, selecting all configuration parameter instructions corresponding to each device to be tested, selecting the configuration parameter instructions required by the preset test requirement from all the configuration parameter instructions, and adjusting the operation sequence of all the devices to be tested to obtain a test item.

S5: determining the required equipment to be tested according to the preset test requirement, acquiring the corresponding test item, analyzing the test item, driving the required equipment to be tested to complete the test according to the analysis result of the test item, receiving and storing the test result of the required equipment to be tested, and completing the test of the communication navigation equipment.

The communication navigation equipment testing method can be stored in a computer readable storage medium if the testing method is realized in the form of a software functional unit and sold or used as an independent product. Based on such understanding, all or part of the flow of the method according to the embodiments of the present invention may also be implemented by a computer program, which may be stored in a computer-readable storage medium, and when the computer program is executed by a processor, the steps of the method embodiments may be implemented. Wherein the computer program comprises computer program code, which may be in the form of source code, object code, an executable file or some intermediate form, etc. Computer-readable storage media, including both non-transitory and non-transitory, removable and non-removable media, may implement information storage by any method or technology. The information may be computer readable instructions, data structures, modules of a program, or other data. It should be noted that the computer readable medium may contain content that is subject to appropriate increase or decrease as required by legislation and patent practice in jurisdictions, for example, in some jurisdictions, computer readable media does not include electrical carrier signals and telecommunications signals as is required by legislation and patent practice. In an exemplary embodiment, a computer readable storage medium is also provided, which stores a computer program that, when executed by a processor, implements the steps of the communication and navigation device testing method. The computer storage medium may be any available medium or data storage device that can be accessed by a computer, including but not limited to magnetic memory (e.g., floppy disk, hard disk, magnetic tape, magneto-optical disk (MO), etc.), optical memory (e.g., CD, DVD, BD, HVD, etc.), and semiconductor memory (e.g., ROM, EPROM, EEPROM, nonvolatile memory (NANDFLASH), Solid State Disk (SSD)), etc.

In an exemplary embodiment, there is also provided a computer device, including a memory, a processor, and a computer program stored in the memory and executable on the processor, the processor implementing the steps of the communication and navigation device testing method when executing the computer program. The processor may be a Central Processing Unit (CPU), other general purpose processor, a Digital Signal Processor (DSP), an Application Specific Integrated Circuit (ASIC), an off-the-shelf programmable gate array (FPGA) or other programmable logic device, discrete gate or transistor logic, discrete hardware components, etc.

The invention aims to be compatible with a test method of various navigation equipment, designs a universal navigation equipment test system which is flexible and configurable in communication navigation equipment test and has local and remote test capabilities on the basis of the management function of a test data management module and under the condition of integrating and simplifying the test flows and instructions of various navigation equipment. It has the following advantages, first: the information and the operation instruction of the communication navigation equipment to be tested are flexible and configurable; secondly, the method comprises the following steps: the test items and the test flow are flexibly configurable; thirdly, the method comprises the following steps: local and remote test modes; fourthly: the monitoring function is locally provided during remote testing; fifth, the method comprises the following steps: test flow, test items and import and export of test data; sixth: the universal navigation equipment test system has flexible configurability, the complexity of the incidence relation in the test system is higher and higher along with the increase of configuration equipment, the fault types of the system are increased, and a good and perfect fault reminding mechanism and a navigation mechanism are important factors for ensuring the health of the system. The flexible configurable characteristics of the system can be utilized to increase a fault type configuration interface, and for different fault types, different types of reminding mechanisms are established, execution is forbidden, error alarm, page reminding and the like are realized; and the test configuration, the execution navigation and the help prompt box can be flexibly configured according to different test requirements.

The above-mentioned contents are only for illustrating the technical idea of the present invention, and the protection scope of the present invention is not limited thereby, and any modification made on the basis of the technical idea of the present invention falls within the protection scope of the claims of the present invention.

Claims (10)

1. A communication navigation equipment test system is characterized by comprising a comprehensive control unit, wherein a test instruction configuration module, a test item configuration module, a test execution module and a test data management module are arranged in the comprehensive control unit;

the test instruction configuration module is used for determining the required equipment to be tested according to the preset test requirement, selecting a preset initial configuration parameter instruction corresponding to the equipment to be tested from the test data management module, performing parameter setting on the initial configuration parameter instruction to obtain a configuration parameter instruction and storing the configuration parameter instruction to the test data management module;

the test item configuration module is used for determining all required devices to be tested according to preset test requirements, selecting all configuration parameter instructions corresponding to each device to be tested from the test data management module, selecting the configuration parameter instructions required by the preset test requirements from all the configuration parameter instructions, adjusting the operation sequence of all the devices to be tested, obtaining test items and storing the test items to the test data management module;

and the test execution module is used for determining the equipment to be tested according to the preset test requirement, acquiring the corresponding test item, analyzing the test item, driving the equipment to be tested to complete the test according to the analysis result of the test item, receiving the test result of the equipment to be tested and storing the test result to the test data management module.

2. The communication navigation equipment test system of claim 1, further comprising a login management module and a right management module, wherein the right management module comprises a right configuration module and a right assignment module;

the login management module is used for acquiring login information, matching the login information with preset account information stored in the test data management module, and completing login when the account information matched with the login information exists; otherwise, prompting a login error;

the authority configuration module is used for configuring corresponding authority levels for different account information and configuring executable operation for each authority level to obtain an authority configuration table and store the authority configuration table in the test data management module;

and the authority distribution module is used for acquiring the authority level of the account information corresponding to the login information and configuring executable operation for the current test system according to the authority configuration table.

3. The communication navigation equipment test system of claim 1, further comprising a power-on self-test module and a functional self-test module;

the power-on self-test module is used for generating and sending a power-on self-test instruction to all test instruments of the communication navigation test system when the communication navigation test system is powered on, and receiving and displaying power-on self-test feedback results of all the test instruments;

and the function self-checking module is used for generating and sending a function self-checking instruction to the to-be-tested equipment according to the test requirement, receiving and displaying the feedback information of the to-be-tested equipment.

4. The communication navigation device test system of claim 1, further comprising a test item management module, wherein the test item management module is configured to import, delete, modify, and query the test items in the test data management module.

5. The communication navigation equipment test system of claim 1, further comprising a remote management and control unit, wherein a remote test instruction configuration module, a remote test item configuration module and a remote test execution module are arranged in the remote management and control unit;

the remote test instruction configuration module is in communication connection with the test instruction configuration module and the test data management module and is used for executing the function of the test instruction configuration module;

the test instruction configuration module is used for displaying the remote test instruction configuration module in real time;

the remote test item configuration module is in communication connection with the test item configuration module and the test data management module and is used for executing the functions of the test item configuration module;

the test item configuration module is used for displaying the remote test item configuration module in real time;

the remote test execution module is used for determining the required equipment to be tested according to the preset test requirement, acquiring the corresponding test item and then sending the corresponding test item to the test execution module;

the test execution module is used for displaying the remote test execution module in real time, analyzing the test items, driving the required equipment to be tested to complete the test according to the analysis result of the test items, receiving the test result of the required equipment to be tested and storing the test result to the test data management module.

6. A communication navigation equipment testing method is characterized by comprising the following steps:

s1: determining the required equipment to be tested according to the preset test requirement, selecting a preset initial configuration parameter instruction corresponding to the equipment to be tested, performing parameter setting on the initial configuration parameter instruction to obtain a configuration parameter instruction, and storing the configuration parameter instruction;

s2: determining all required devices to be tested according to a preset test requirement, selecting all configuration parameter instructions corresponding to each device to be tested, selecting the configuration parameter instructions required by the preset test requirement from all the configuration parameter instructions, and adjusting the operation sequence of all the devices to be tested to obtain a test item;

s3: determining the equipment to be tested according to the preset test requirement, acquiring the corresponding test item, analyzing the test item, driving the equipment to be tested to complete the test according to the analysis result of the test item, receiving and storing the test result of the equipment to be tested, and completing the test of the communication navigation equipment.

7. The communication and navigation device testing method of claim 6, further comprising the following steps before S1:

configuring corresponding authority levels for all the preset account information and configuring executable operation for each authority level to obtain and store an authority configuration table; acquiring current login information of the test system, matching the login information with account information, and completing login when the account information matched with the login information exists; otherwise, prompting a login error; and after the login is finished, acquiring the authority level of the account information corresponding to the login information, and configuring executable operation for the current test system according to the authority configuration table.

8. The communication and navigation device testing method of claim 6, further comprising the following steps before S1:

when the communication navigation test system is powered on, generating and sending a power-on self-test instruction to all test instruments of the communication navigation test system, and receiving and displaying power-on self-test feedback results of all the test instruments; and generating and sending a function self-checking instruction to the to-be-tested equipment according to the test requirement, and receiving and displaying feedback information of the to-be-tested equipment.

9. An apparatus comprising a memory, a processor and a computer program stored in the memory and executable on the processor, characterized in that the processor implements the steps of the method according to any of claims 6 to 8 when executing the computer program.

10. A computer-readable storage medium, in which a computer program is stored which, when being executed by a processor, carries out the steps of the method according to any one of claims 6 to 8.

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