Control platform architecture design method for dynamic association context, storage medium and equipment

Abstract

The invention discloses a control platform architecture design method for a dynamic association context, a storage medium and equipment. A control platform architecture based on the dynamic association context is constructed; the dynamic association context control platform architecture is simplified; a specific hardware architecture is defined by adopting a software programming mode; a task definition hardware architecture preset model is set in a software mode, four typical associated context models are preloaded in the task definition hardware architecture preset model, and a control platform architecture determines to select a model matched with a current task by sensing the task type and dynamically optimizing and configuring network parameters through a middleware programming model;and a task definition hardware architecture preset model is determined, and when a fault occurs in the use process, the task is migrated to another optical communication matrix switch through an optical communication matrix switch, and the control task is continuously executed. According to the invention, a traditional fixed embedded system architecture is broken through, and the hardware architecture is flexibly adapted to various applications through a software definition mode.

Description

technical field [0001] The invention belongs to the technical field of aerospace electronic systems, and in particular relates to a control platform architecture design method, storage medium and equipment of a dynamic correlation context. Background technique [0002] The control platform is the core of the aerospace electronic system, which is used for the data processing of the spacecraft flight process and the implementation of real-time and highly reliable flight control. Especially in order to meet the requirements of aircraft remote target indication, mission planning, networking and chain building, scheduled route flight, target comprehensive analysis, autonomous navigation flight, etc., multi-type random task complex processing and high reliability operation. Traditional control platforms have been unable to meet the needs of various types of random state control calculations. The main difficulties faced are as follows: [0003] First, most of the system architect...

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Problems solved by technology

Does not have functions such as dynamic reconstruction and comprehensive processing of data signals

[0004] Second, the storage allocation of each processor in the system is fixed; the structure of the shared bus system is a tightly coupled interconnection form. Since there is no communication port, the data exchange between processors must pass through their respective attached memories. Increase and decrease in the number of processors

[0005] Third, under the distributed bus structure, the embedded computer is divided into multiple relatively independent sub-processors according to different functions, instead of realizing multi-task comprehensive distributed processing within the whole machine according to task characteristics and allocated resources, these sub-processors Machines have their own independent software and hardware, sub-processor resources are basically not reused

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