CN114710526B - Management system and method of airborne test system - Google Patents

Abstract

The embodiment of the application discloses a management system and a method of an airborne test system, wherein the system comprises the following components: the database is used for storing attribute information of each test device in the airborne test system; the protocol conversion module is used for carrying out network communication protocol conversion; the management module is used for receiving management operation of a user on target test equipment in the airborne test system and generating a management control request based on the management operation; the scheduling module is used for acquiring target attribute information of the target test equipment from the database according to the received management control request; judging whether the network communication protocol of the target test equipment is a standard protocol according to the target attribute information; and when the network communication protocol of the target test equipment is a non-standard protocol, the protocol conversion module is called to realize the communication between the scheduling module and the target test equipment. The technical problem of flight test inefficiency among the prior art is solved.

Description

Management system and method of airborne test system

Technical Field

The application relates to the technical field of aircraft manufacturing, in particular to a management system and method of an airborne test system.

Background

The flight test machine-mounted test flight data acquisition system (abbreviated as an onboard test system, an English abbreviated ADAS system) is usually composed of a general data acquisition subsystem, a special data acquisition subsystem, a video acquisition subsystem, a recording subsystem, a telemetry transmission subsystem and the like, wherein each subsystem is from different manufacturers at home and abroad, interfaces, cables, communication protocols and configuration files are defined by each manufacturer, and software used in configuration, programming, loading and inspection is special software provided by each manufacturer.

At present, in the flight test process, test equipment and test parameters are required to be adjusted due to any change of a test task, and each subsystem is required to be reconfigured, programmed, loaded and checked respectively, even if routine checking of each subsystem of the test system is performed before and after each flight in the flight test process, special software and cables provided by each manufacturer are used for switching back and forth to check one by one, so that the efficiency of the flight test is seriously affected.

Disclosure of Invention

The main purpose of the application is to provide a management system and a management method of an airborne test system, which aim at solving the technical problem of low flight test efficiency in the prior art.

To achieve the above object, the present application provides a management system of an on-board test system, including:

the database is used for storing attribute information of each test device in the airborne test system;

the protocol conversion module is used for carrying out network communication protocol conversion;

the management module is used for receiving management operation of a user on target test equipment in the airborne test system and generating a management control request based on the management operation;

the scheduling module is used for acquiring target attribute information of the target test equipment from the database according to the received management control request; judging whether the network communication protocol of the target test equipment is a standard protocol according to the target attribute information; and when the network communication protocol of the target test equipment is a non-standard protocol, the protocol conversion module is called to realize the communication between the scheduling module and the target test equipment.

Optionally, the system further comprises: the file conversion module is used for converting the format of the generated configuration file;

the scheduling module is further configured to invoke the file conversion module to convert the format of the configuration file into a target format matched with the target test device, and send the converted configuration file to the target test device.

Optionally, the management module is further configured to receive a configuration operation of a user, and generate a configuration request based on the configuration operation;

the system further comprises:

and the file compiling module is used for receiving the configuration request, generating the configuration file according to the configuration request and sending the configuration file to the scheduling module.

Optionally, the scheduling module is further configured to obtain a target configuration file of the target test device through communication between the scheduling module and the target test device, and send the target configuration file to the management module.

Optionally, the scheduling module is further configured to obtain, from the database, a target IP of the target test device according to the received management control request; based on the target IP, sending request broadcast to the airborne test system to obtain a target MAC address of the target test equipment; and acquiring target attribute information of the target test equipment from the database based on the target MAC address.

In addition, to achieve the above object, the present application further provides a method for managing an airborne test system, including:

the management module receives management operation of a user on target test equipment in the airborne test system and generates a management control request based on the management operation;

the scheduling module acquires target attribute information of the target test equipment from the database according to the received management control request; wherein, the database stores attribute information of each test device in the organic vehicle-mounted test system;

the scheduling module judges whether the network communication protocol of the target test equipment is a standard protocol according to the target attribute information;

and when the network communication protocol of the target test equipment is a non-standard protocol, the scheduling module calls a protocol conversion module so as to realize the communication between the scheduling module and the target test equipment.

Optionally, when the network communication protocol of the target test device is a non-standard protocol, the scheduling module invokes a protocol conversion module, so as to implement the step of communicating between the scheduling module and the target test device, and further includes:

the scheduling module receives a configuration file;

the scheduling module calls the file conversion module to convert the format of the configuration file into a target format matched with the target test equipment;

and the scheduling module sends the converted configuration file to the target test equipment.

Optionally, the method further comprises:

the management module receives configuration operation of a user and generates a configuration request based on the configuration operation;

and the file compiling module receives the configuration request, generates the configuration file according to the configuration request, and sends the configuration file to the scheduling module.

Optionally, when the network communication protocol of the target test device is a non-standard protocol, the scheduling module invokes a protocol conversion module, so as to implement the step of communicating between the scheduling module and the target test device, and further includes:

the scheduling module is communicated with the target test equipment through the scheduling module, acquires a target configuration file of the target test equipment, and sends the target configuration file to the management module.

Optionally, the step of the scheduling module obtaining the target attribute information of the target test device from the database according to the received management control request includes:

the scheduling module acquires a target IP of the target test equipment from the database according to the received management control request;

the scheduling module sends a request broadcast to the airborne test system based on the target IP so as to obtain a target MAC address of the target test equipment;

and the scheduling module acquires target attribute information of the target test equipment from the database based on the target MAC address.

The beneficial effects that this application can realize.

The embodiment of the application provides a management system and a method of an airborne test system, wherein the system comprises the following components: the database is used for storing attribute information of each test device in the airborne test system; the protocol conversion module is used for carrying out network communication protocol conversion; the management module is used for receiving management operation of a user on target test equipment in the airborne test system and generating a management control request based on the management operation; the scheduling module is used for acquiring target attribute information of the target test equipment from the database according to the received management control request; judging whether the network communication protocol of the target test equipment is a standard protocol according to the target attribute information; and when the network communication protocol of the target test equipment is a non-standard protocol, the protocol conversion module is called to realize the communication between the scheduling module and the target test equipment. That is, the management system in communication connection with the airborne test system is arranged, the equipment information is stored in advance through the database, the scheduling module can directly acquire the equipment attribute information before communicating with the airborne test system, and the nonstandard protocol can be converted by the protocol conversion module, so that the unified communication and management of each equipment in the protocol conversion module are realized through the management module, the management of each equipment in the prior art is avoided, the management efficiency of the airborne test system is obviously improved through unified management, the flight test efficiency is improved, and the technical problem of low flight test efficiency in the prior art is solved.

Drawings

Fig. 1 is a schematic structural diagram of a management system of an airborne test system according to an embodiment of the present application;

fig. 2 is a flow chart of a management method of an airborne test system according to an embodiment of the present application.

The realization, functional characteristics and advantages of the present application will be further described with reference to the embodiments, referring to the attached drawings.

Detailed Description

It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the present application.

The main solutions of the embodiments of the present application are: the system and the method for managing the airborne test system comprise the following steps: the database is used for storing attribute information of each test device in the airborne test system; the protocol conversion module is used for carrying out network communication protocol conversion; the management module is used for receiving management operation of a user on target test equipment in the airborne test system and generating a management control request based on the management operation; the scheduling module is used for acquiring target attribute information of the target test equipment from the database according to the received management control request; judging whether the network communication protocol of the target test equipment is a standard protocol according to the target attribute information; and when the network communication protocol of the target test equipment is a non-standard protocol, the protocol conversion module is called to realize the communication between the scheduling module and the target test equipment.

The flight test machine-mounted test flight data acquisition system (ADAS system for short) is usually composed of a general data acquisition subsystem, a special data acquisition subsystem, a video acquisition subsystem, a recording subsystem, a telemetry transmission subsystem and the like, wherein each subsystem is from different manufacturers at home and abroad, interfaces, cables, communication protocols and configuration files are defined by each manufacturer, and software used in configuration, programming, loading and inspection is special software provided by each manufacturer. At present, in the flight test process, test equipment and test parameters are required to be adjusted due to any change of a test task, and each subsystem needs to be reconfigured, programmed, loaded and checked respectively, even if routine checking is performed on each subsystem of the test system before and after each flight in the flight test process, special software and cables provided by each manufacturer are used for switching back and forth to check one by one, which leads to long flight test period, high cost, and difficult daily checking and maintenance and upgrading, thereby seriously affecting the efficiency and progress of the flight test.

Therefore, the technical scheme is that the management system in communication connection with the airborne test system is arranged, the equipment information is stored in advance through the database, the scheduling module can directly acquire the equipment attribute information before communicating with the airborne test system, and the nonstandard protocol can be converted by the protocol conversion module, so that unified communication and management of each equipment in the protocol conversion module are realized through the management module, the equipment is prevented from being managed respectively in the prior art, the management efficiency of the airborne test system is obviously improved through unified management, the flight test efficiency is improved, and the technical problem of low flight test efficiency in the prior art is solved.

Referring to fig. 1, fig. 1 is a management system of an airborne test system according to an embodiment of the present application. The system comprises:

the database is used for storing attribute information of each test device in the airborne test system;

the protocol conversion module is used for carrying out network communication protocol conversion;

the management module is used for receiving management operation of a user on target test equipment in the airborne test system and generating a management control request based on the management operation;

the scheduling module is used for acquiring target attribute information of the target test equipment from the database according to the received management control request; judging whether the network communication protocol of the target test equipment is a standard protocol according to the target attribute information; and when the network communication protocol of the target test equipment is a non-standard protocol, the protocol conversion module is called to realize the communication between the scheduling module and the target test equipment.

It will be appreciated that referring to fig. 1, the on-board test system generally includes a plurality of test devices, i.e., test device 1 through test device n. The management system of the embodiment is provided with the management system in communication connection with the airborne test system, and stores the equipment information in advance through the database, so that the scheduling module can directly acquire the equipment attribute information before communicating with the airborne test system, and the nonstandard protocol can be converted by the protocol conversion module, so that the unified communication and management of each equipment in the protocol conversion module can be realized through the management module, the unified management of each equipment in the prior art is avoided, the management efficiency of the airborne test system is obviously improved, the flight test efficiency is improved, and the technical problem of low flight test efficiency in the prior art is solved.

Specific module functions are described in detail below.

Referring to fig. 1, the scheduling module establishes communication connection channels with the database, the protocol conversion module, the onboard test system and the management module respectively.

In particular, the database may be a separate database server, or may be a storage device of a computer device, which is not particularly limited in this embodiment. The method is mainly used for storing attribute information of each test device in the airborne test system and can comprise the following steps: device name, device type, lot, manufacturer, MAC address, IP address, network communication protocol, communication interface type, profile format, etc. It will be appreciated that each test device in the on-board test system may be from a different manufacturer, different type, different model of test device. Therefore, the attribute information sub-devices can be stored in the database in advance, so that the follow-up management is facilitated.

The protocol conversion module is a network communication protocol conversion module and is used for carrying out network communication protocol conversion. I.e. the different network communication protocols used by test equipment from different manufacturers, different kinds and different models in the onboard test system are mutually converted with the unified and standard Simple Network Management Protocol (SNMP). In the implementation process, if the test equipment supports SNMP, the conversion of a network communication protocol is not needed, and the management module can directly access a Management Information Base (MIB) of the test equipment through the SNMP protocol to check and set configuration information of the test equipment; if the test equipment does not support SNMP, the corresponding test equipment communication protocol conversion program is started to mutually convert the network communication protocol used by the test equipment and the SNMP protocol, and the MIB belonging to the test equipment and storing the configuration information of the test equipment is locally established and maintained, and after the conversion and the establishment, the management module can access the test equipment MIB through the SNMP protocol to check and set the configuration information of the test equipment.

The management module is a port interacted with a user and is used for configuring and checking configuration information of each test device in the airborne test system, and each test device is from different manufacturers, different types and different models, so that the corresponding configuration management check interface is called corresponding to each test device. Therefore, the module can receive the management operation of the user on the target test equipment in the onboard test system and generate a management control request based on the management operation. The management operation may include operations such as checking, and the like, and the management control request may include requests such as checking, and the like.

The scheduling module is used for data processing and task scheduling, and the module performs test equipment information retrieval and information feedback acquisition to the database; the dispatching test protocol conversion module starts a corresponding communication protocol conversion program to carry out network communication with the test equipment. Therefore, the module can acquire the target attribute information of the target test equipment from the database according to the received management control request; judging whether the network communication protocol of the target test equipment is a standard protocol according to the target attribute information; and when the network communication protocol of the target test equipment is a non-standard protocol, the protocol conversion module is called to realize the communication between the scheduling module and the target test equipment. The standard protocol may be SNMP protocol, among others.

It should be noted that the target test device refers to one or more test devices in the on-board test system, and thus, the object of the system operation of the present embodiment is also one or more test devices in the on-board test system.

Therefore, the system of the embodiment is provided with the management system in communication connection with the airborne test system, the device information is stored in advance through the database, the scheduling module is used for directly acquiring the device attribute information before communicating with the airborne test system, and the nonstandard protocol can be converted by the protocol conversion module, so that the unified communication and management of each device in the protocol conversion module are realized through the management module, the user is prevented from respectively managing each device in the prior art, the management efficiency of the airborne test system is obviously improved through unified management, the flight test efficiency is improved, and the technical problem of low flight test efficiency in the prior art is solved.

Referring to fig. 1, as an alternative embodiment, the system further includes:

the file conversion module is used for converting the format of the generated configuration file;

in a specific implementation process, the file conversion module is used for converting the generated configuration file (namely, an XidML file, which is an extensible markup language special for the airborne test equipment) for storing the configuration information of each test equipment in the airborne test system into a configuration file format used by the test equipment after intercepting the relevant configuration information of the test equipment.

Correspondingly, in this embodiment, the scheduling module is further configured to invoke the file conversion module to convert the format of the configuration file into a target format matched with the target test device, and send the converted configuration file to the target test device.

Referring to fig. 1, as an alternative embodiment, the management module is further configured to receive a configuration operation of a user, and generate a configuration request based on the configuration operation;

the system further comprises:

and the file compiling module is used for receiving the configuration request, generating the configuration file according to the configuration request and sending the configuration file to the scheduling module.

In a specific implementation, the file compiling module is used for compiling an XidML file of the onboard test system. The XidML file may describe a type of test equipment, configuration of the test equipment, a functional module, an acquisition channel, acquisition parameters, interface connection, a data packet structure, data transmission, and the like in the airborne test system. The XidML file is suitable for a complex airborne test system and can support test equipment of different manufacturers, different types and different models.

As an optional implementation manner, the scheduling module is further configured to obtain, through communication between the scheduling module and the target test device, a target configuration file of the target test device, and send the target configuration file to the management module.

It will be appreciated that in some cases, the user (technician) needs to view the configuration file of the existing test device or modify the existing configuration file through the management module, so the scheduling module may also obtain the target configuration file of the target test device through the communication between the scheduling module and the target test device, and send the target configuration file to the management module.

As an optional implementation manner, the scheduling module is further configured to obtain, from the database, a target IP of the target test device according to the received management control request; based on the target IP, sending request broadcast to the airborne test system to obtain a target MAC address of the target test equipment; and acquiring target attribute information of the target test equipment from the database based on the target MAC address.

In the implementation process, because the pre-stored equipment attribute information is not necessarily completely accurate, or the test equipment is updated, the acquired attribute information may be wrong, so that the scheduling module can acquire the MAC address in real time in a broadcast mode, and the corresponding attribute information is acquired, thereby ensuring the accuracy of the equipment information.

Referring to fig. 2, based on the same inventive principles as the previous embodiments, embodiments of the present application provide a method for managing an on-board test system, including:

s20, a management module receives management operation of a user on target test equipment in the airborne test system and generates a management control request based on the management operation;

s40, a scheduling module acquires target attribute information of the target test equipment from the database according to the received management control request; wherein, the database stores attribute information of each test device in the organic vehicle-mounted test system;

s60, judging whether the network communication protocol of the target test equipment is a standard protocol or not according to the target attribute information by the scheduling module;

and S80, when the network communication protocol of the target test equipment is a non-standard protocol, the scheduling module calls a protocol conversion module so as to realize the communication between the scheduling module and the target test equipment.

As an optional implementation manner, when the network communication protocol of the target test device is a non-standard protocol, the scheduling module invokes a protocol conversion module, so as to implement the step of communicating between the scheduling module and the target test device, and further includes:

the scheduling module receives a configuration file;

the scheduling module calls the file conversion module to convert the format of the configuration file into a target format matched with the target test equipment;

and the scheduling module sends the converted configuration file to the target test equipment.

As an alternative embodiment, further comprising:

the management module receives configuration operation of a user and generates a configuration request based on the configuration operation;

and the file compiling module receives the configuration request, generates the configuration file according to the configuration request, and sends the configuration file to the scheduling module.

As an optional implementation manner, when the network communication protocol of the target test device is a non-standard protocol, the scheduling module invokes a protocol conversion module, so as to implement the step of communicating between the scheduling module and the target test device, and further includes:

the scheduling module is communicated with the target test equipment through the scheduling module, acquires a target configuration file of the target test equipment, and sends the target configuration file to the management module.

As an optional implementation manner, the step of the scheduling module obtaining the target attribute information of the target test device from the database according to the received management control request includes:

the scheduling module acquires a target IP of the target test equipment from the database according to the received management control request;

the scheduling module sends a request broadcast to the airborne test system based on the target IP so as to obtain a target MAC address of the target test equipment;

and the scheduling module acquires target attribute information of the target test equipment from the database based on the target MAC address.

A complete workflow of managing an on-board test system using the system of the present embodiment is described only briefly below.

The method comprises the steps that firstly, a management module requests a scheduling module to search an information database of an onboard test system (ADAS) test device to obtain IP addresses of registered test devices, the IP addresses of the test devices are sent to the ADAS system one by one to Request broadcasting of ARP requests, each test device of the ADAS system responds to an ARP Reply response packet after receiving the ARP Request broadcasting, and the ARP Reply response packet contains the MAC addresses of the test devices.

The scheduling module receives ARP Reply response packets of all the test devices of the ADAS system, acquires MAC addresses in the ARP Reply response packets of all the test devices, searches the MAC addresses of the test devices one by one to an ADAS system test device information database, and feeds back manufacturers, types, models, communication protocols and the like of the test devices corresponding to the MAC addresses of the test devices to the scheduling module after receiving the search information sent by the scheduling module; the scheduling module starts a corresponding communication protocol conversion program according to the equipment ID and the scheduling protocol conversion module so as to communicate with the test equipment.

The management module accesses the test equipment supporting the SNMP protocol preferentially through the SNMP protocol (the test equipment communication protocol conversion program of the test equipment is in a direct communication mode), and acquires an equipment Management Information Base (MIB) of the test equipment; and starting the scheduling module to schedule the protocol conversion module, starting a corresponding communication protocol conversion program to carry out network communication with the test equipment which does not support the SNMP protocol, and obtaining the configuration information of the test equipment. The user can view and edit all configuration information of the test equipment in the corresponding test equipment configuration management interface. After the user configures the management interface in the management module to complete the configuration of all the test devices, an XidML file is generated, and the file contains complete configuration information of the test devices of the on-board test system.

The dispatching module reads the XidML file, searches the ADAS system testing equipment information database according to the equipment description, and after receiving the search information sent by the dispatching module, the ADAS system testing equipment information database feeds back the manufacturer, the type, the model, the equipment configuration file format and the like of the testing equipment corresponding to the testing equipment name to the dispatching module, the dispatching module dispatches the file conversion module accordingly, and dispatches the corresponding equipment configuration file conversion program to convert the configuration information of the equipment intercepted from the XidML file into the configuration file with the corresponding format.

The scheduling module starts the protocol conversion module according to the mapping relation of the equipment ID-communication protocol-information description file, schedules the corresponding communication protocol and sends the test equipment configuration file to the specific test equipment.

It should be understood that the foregoing is merely illustrative, and the technical solutions of the present application are not limited in any way, and those skilled in the art may perform the setting based on the needs in practical applications, and the present application is not limited herein.

It is clear from the foregoing description that the method of this embodiment corresponds to the system of the foregoing embodiment, and therefore, the specific implementation manner and the achieved technical effects of the method may refer to the management system of the foregoing embodiment, which is not described in detail.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or system that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or system. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or system that comprises the element.

The foregoing embodiment numbers of the present application are merely for describing, and do not represent advantages or disadvantages of the embodiments.

The foregoing description is only of the preferred embodiments of the present application, and is not intended to limit the scope of the claims, and all equivalent structures or equivalent processes using the descriptions and drawings of the present application, or direct or indirect application in other related technical fields are included in the scope of the claims of the present application.

Claims (8)

1. A management system for an on-board test system, comprising:

the database is used for storing attribute information of each test device in the airborne test system;

the protocol conversion module is used for carrying out network communication protocol conversion;

the management module is used for receiving management operation of a user on target test equipment in the airborne test system and generating a management control request based on the management operation;

the scheduling module is used for acquiring the target IP of the target test equipment from the database according to the received management control request; based on the target IP, sending request broadcast to the airborne test system to obtain a target MAC address of the target test equipment; acquiring target attribute information of the target test equipment from the database based on the target MAC address; judging whether the network communication protocol of the target test equipment is a standard protocol according to the target attribute information; and when the network communication protocol of the target test equipment is a non-standard protocol, the protocol conversion module is called to realize the communication between the scheduling module and the target test equipment.

2. The system of claim 1, wherein the system further comprises: the file conversion module is used for converting the format of the generated configuration file;

the scheduling module is further configured to invoke the file conversion module to convert the format of the configuration file into a target format matched with the target test device, and send the converted configuration file to the target test device.

3. The system of claim 2, wherein the management module is further configured to receive a configuration operation of a user and generate a configuration request based on the configuration operation;

the system further comprises:

and the file compiling module is used for receiving the configuration request, generating the configuration file according to the configuration request and sending the configuration file to the scheduling module.

4. The system of claim 1, wherein the scheduling module is further configured to obtain a target configuration file of the target test device through communication between the scheduling module and the target test device, and send the target configuration file to the management module.

5. A method of managing an on-board test system, comprising:

the management module receives management operation of a user on target test equipment in the airborne test system and generates a management control request based on the management operation;

the scheduling module acquires the target IP of the target test equipment from a database according to the received management control request;

the scheduling module sends a request broadcast to the airborne test system based on the target IP so as to obtain a target MAC address of the target test equipment;

the scheduling module acquires target attribute information of the target test equipment from the database based on the target MAC address; wherein, the database stores attribute information of each test device in the organic vehicle-mounted test system;

the scheduling module judges whether the network communication protocol of the target test equipment is a standard protocol according to the target attribute information;

and when the network communication protocol of the target test equipment is a non-standard protocol, the scheduling module calls a protocol conversion module so as to realize the communication between the scheduling module and the target test equipment.

6. The method of claim 5, wherein the scheduling module invokes a protocol conversion module to enable the scheduling module to communicate with the target test device when the network communication protocol of the target test device is a non-standard protocol, further comprising:

the scheduling module receives a configuration file;

the scheduling module calls a file conversion module to convert the format of the configuration file into a target format matched with the target test equipment;

and the scheduling module sends the converted configuration file to the target test equipment.

7. The method as recited in claim 6, further comprising:

the management module receives configuration operation of a user and generates a configuration request based on the configuration operation;

and the file compiling module receives the configuration request, generates the configuration file according to the configuration request, and sends the configuration file to the scheduling module.

8. The method of claim 5, wherein the scheduling module invokes a protocol conversion module to enable the scheduling module to communicate with the target test device when the network communication protocol of the target test device is a non-standard protocol, further comprising:

the scheduling module is communicated with the target test equipment through the scheduling module, acquires a target configuration file of the target test equipment, and sends the target configuration file to the management module.