CN112529522B

CN112529522B - Comprehensive electromechanical management software architecture system

Info

Publication number: CN112529522B
Application number: CN202011400155.6A
Authority: CN
Inventors: 王骄阳; 卢毅; 周纯操; 汪浩源; 周歧廷; 吴凌蛟
Original assignee: AVIC Chengdu Aircraft Design and Research Institute
Current assignee: AVIC Chengdu Aircraft Design and Research Institute
Priority date: 2020-12-04
Filing date: 2020-12-04
Publication date: 2023-05-26
Anticipated expiration: 2040-12-04
Also published as: CN112529522A

Abstract

The invention belongs to the technical field of aircraft electromechanical management, and discloses a comprehensive electromechanical management software architecture system which comprises a user task layer, a public service layer, an operating system layer and a hardware control layer; the user task layer is a hierarchy of input of electromechanical control software, and a plurality of electromechanical control software corresponding to different electromechanical systems are connected with the electromechanical management system from the user task layer; the public service layer is provided with interfaces for various electromechanical control software and a support module, and the support module comprises a comprehensive data management module, a test maintenance agent module and a comprehensive communication management module; the operating system layer is a layer with real-time embedded operating system simulation modules; the hardware control layer is used for driving the electromechanical system. The invention can improve the application level of the software implementation method, the comprehensive software demand analysis method, the direct conversion technology of the software model to codes, the optimization of the software development flow and the like of the national high comprehensive system.

Description

Comprehensive electromechanical management software architecture system

Technical Field

The invention belongs to the technical field of aircraft electromechanical management, relates to an electromechanical management software system, and in particular relates to a comprehensive electromechanical management software architecture system.

Background

With the improvement of the electronic and intelligent degree of weaponry, various kinds of equipment start to develop to comprehensive design, wherein due to the high sensitivity to volume and weight and the urgent requirements on the improvement of performance and intelligent level, the aircraft has more research and practice on the aspect of comprehensive control of electromechanical systems, the single-machine code scale breaks through millions of lines and develops to tens of millions, and the functional software of various systems has different requirements on real-time performance and safety.

The improvement of the comprehensive degree of the electromechanical system necessarily brings about the improvement of the software complexity, the software scale and the complexity of the software are exponentially increased, and the design and engineering implementation methods are required to be greatly changed. Because of lack of intensive research and long-term accumulation, the current highly comprehensive software development method is still in a fumbling stage, and under the increasingly severe progress pressure, the quality of software is seriously affected by inefficient development and testing, and the software problem has become a main problem for restricting the progress and quality.

Disclosure of Invention

In order to solve the problems, the invention provides a comprehensive electromechanical management software architecture system, which simplifies the development process of application software, greatly improves the development efficiency and the software quality, has less work when needing modification, and reduces the cost of software modification.

The technical scheme of the invention is as follows:

an integrated electromechanical management software architecture system is used for an electromechanical management system and comprises a user task layer, a public service layer, an operating system layer and a hardware control layer; the user task layer is a hierarchy of input of electromechanical control software, and a plurality of electromechanical control software corresponding to different electromechanical systems are connected with the electromechanical management system from the user task layer; the public service layer is provided with interfaces for various electromechanical control software and a support module, and the support module comprises a comprehensive data management module, a test maintenance agent module and a comprehensive communication management module; the operating system layer is a layer with real-time embedded operating system simulation modules; the hardware control layer is used for driving the electromechanical system.

Further, the user task layer comprises a plurality of task modules, and each task module is connected with a corresponding interface of the public service layer; the task modules have no direct interaction with each other.

Further, the operating system layer and the hardware control layer are isolated from the user task layer by a common service layer.

Furthermore, the task module of the user task layer shields the influence of the hardware control layer, so that the task module only realizes the logic processing function of the task module and does not need to pay attention to the actual interface of the hardware control layer and the topological relation of the system.

Further, the public service layer is connected with and controls the operating system layer and provides a user task layer data interface and a communication interface; the public service layer provides unified management for all interface data and part of link data of the system, and intercommunication of all system data is realized through the cross transmission links.

Further, the integrated data management module and the integrated communication management module of the public service layer manage the interfaces and the data links of the whole system according to a unified standard mode, and are only related to the interface distribution and the topology of the system, and are not related to the application of each task module.

Furthermore, the public service layer is also provided with a mode switching support module which is controlled by the task module and used for switching the working mode of the electromechanical management system.

Furthermore, the user task layer, the public service layer, the operating system layer and the hardware control layer are all provided with simulation control expansion modules. And the development of a new electromechanical system is facilitated.

The invention has the advantages that:

the invention can improve the application level of the software implementation method, the comprehensive software demand analysis method, the software interface standardization, the software digital virtual machine implementation technology, the technology used in the software test verification of the software modeling simulation, the software automation test technology, the technology of directly converting the software model into codes, the software development flow optimization and the like of the national highly comprehensive system.

Drawings

FIG. 1 is a functional block diagram of an embodiment of the present invention;

FIG. 2 is a schematic diagram of the operation of a duplex electromechanical management computer according to an embodiment of the invention;

FIG. 3 is a flow chart of the electromechanical management computer software of an embodiment of the present invention.

Detailed Description

This section is an embodiment of the present invention for explaining and explaining the technical solution of the present invention.

The user task layer comprises a plurality of task modules, and each task module is connected with a corresponding interface of the public service layer; the task modules have no direct interaction with each other.

The operating system layer and the hardware control layer are isolated from the user task layer by a common service layer.

The task module of the user task layer shields the influence of the hardware control layer, so that the task module only realizes the logic processing function of the task module and does not need to pay attention to the actual interface of the hardware control layer and the topological relation of the system.

The public service layer is connected with and controls the operating system layer and provides a user task layer data interface and a communication interface; the public service layer provides unified management for all interface data and part of link data of the system, and intercommunication of all system data is realized through the cross transmission links.

The comprehensive data management module and the comprehensive communication management module of the public service layer manage the interfaces and the data links of the whole system according to a unified standard mode, and are only related to the interface distribution and the topology of the system, and are not related to the application of each task module.

The public service layer is also provided with a mode switching support module which is controlled by the task module and used for switching the working mode of the electromechanical management system.

The user task layer, the public service layer, the operating system layer and the hardware control layer are all provided with simulation control expansion modules. And the development of a new electromechanical system is facilitated.

Another embodiment of the present invention will be described below with reference to the accompanying drawings.

As shown in fig. 1, using a hierarchical software architecture, the electromechanical management system software is divided into: the system comprises a user task layer, a public service layer, an operating system layer and a hardware control layer.

The public service layer provides unified management of all interface data and part link data of the system, and intercommunication of all system data is realized through the cross transmission links, so that application programs running on all computers can conveniently acquire data information of the whole system, and independence of application and system hardware architecture is realized.

The data management and communication management module manages the interfaces and the data links of the whole system according to a unified mode, has single functions, is only related to the interface distribution and the topology of the system, is irrelevant to the application of each subsystem, and reduces the correlation with the hardware architecture of the system through a standardized driving interface.

The subsystem task data management and the communication management are interacted through a standard interface, direct coupling among subsystem modules is eliminated, when software testing and experiment are carried out, an independent subsystem task is integrated with the data management and communication management module, and required data are injected in an external injection mode, so that independent testing and verification of each module are realized.

As shown in FIG. 3, the electromechanical management computer software process is linearized as much as possible according to the process of inputting data, logic processing and outputting data, and the state of the software can be obtained by observing data at the input and output places, and meanwhile, the state of the software can be controlled by only injecting data at the place where the data is input.

Claims

1. The comprehensive electromechanical management software architecture system is characterized by comprising a user task layer, a public service layer, an operating system layer and a hardware control layer; the user task layer is a hierarchy of input of electromechanical control software, and a plurality of electromechanical control software corresponding to different electromechanical systems are connected with the electromechanical management system from the user task layer; the public service layer is provided with interfaces for various electromechanical control software and a support module, and the support module comprises a comprehensive data management module, a test maintenance agent module and a comprehensive communication management module; the operating system layer is a layer with real-time embedded operating system simulation modules; the hardware control layer is used for driving the electromechanical system;

the user task layer comprises a plurality of task modules, and each task module is connected with a corresponding interface of the public service layer; the task modules have no direct interaction with each other;

the operating system layer and the hardware control layer are isolated from the user task layer through the public service layer;

the public service layer is connected with and controls the operating system layer and provides a user task layer data interface and a communication interface; the public service layer provides unified management for all interface data and part of link data of the system, and the intercommunication of all system data is realized through the cross transmission link;

2. The integrated mechatronic management software architecture system of claim 1, wherein the task module of the user task layer shields the hardware control layer from the task module to enable the task module to implement only its own logic processing functions without concern for the actual interface of the hardware control layer and the system topology.

3. The integrated mechatronic management software architecture system of claim 1, further comprising a mode switching support module controlled by the task module for switching modes of operation of the mechatronic management system.

4. The integrated mechatronic management software architecture system of claim 1, wherein the user task layer, the common services layer, the operating system layer, and the hardware control layer all have analog control expansion modules.