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Resource scheduling method of wide beam frequency conversion time-difference locating system

A time-difference positioning and system resource technology, which is applied in resource allocation and multi-channel program devices, can solve the problems of less research on resource scheduling and lack of resource scheduling methods in multi-station wide-beam frequency conversion time-difference positioning systems, and shorten the discovery time. Guaranteed to track the effect of stability

Active Publication Date: 2014-02-19
THE 724TH RES INST OF CHINA SHIPBUILDING IND
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Problems solved by technology

[0005] The above method solves the resource scheduling problem of the time difference positioning system to a certain extent, but the resource scheduling method for integrated detection of IFF, TACAN, and radar signals for the wide beam frequency conversion time difference positioning system is still relatively lacking, and the related resource scheduling algorithm is mainly reflected in In terms of active detection, there are few studies on resource scheduling of multi-station wide-beam frequency-variable time-of-flight positioning systems, and related technical research is urgently needed

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  • Resource scheduling method of wide beam frequency conversion time-difference locating system
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  • Resource scheduling method of wide beam frequency conversion time-difference locating system

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Embodiment Construction

[0014] The following is attached figure 1 - attached Figure 4 The specific implementation of the resource scheduling method of the wide-beam frequency conversion time-difference positioning system is given.

[0015] 1. The overall implementation of the system

[0016] The overall implementation of the system is attached figure 1 Shown: 1) Send the radar signal, IFF, TACAN signal detection application task to the application task parameter generator to generate the corresponding dispatch queue. 2) Send the scheduling queue and delayed task queue generated by the application task parameter generator to the priority analyzer for prioritization. 3) Send the scheduling queue sorted by the priority analyzer to the scheduling executor, analyze each task, and send the tasks to the execution task queue, delete task queue, and delay task queue respectively according to the judgment.

[0017] 2. Application task parameter generator design

[0018] attached figure 2 The step 2) in...

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Abstract

The invention relates to a resource scheduling implementation method of a wide beam frequency conversion time-difference locating system. The electromagnetic environment in the face of the system and the system functional requirement can be analyzed in real time, the antenna array resource, the channel frequency resource and the time resource can be adjusted in a self-adaptation mode, so that resource scheduling of the wide beam frequency conversion time-difference locating system is well completed, and integrated sea and air detection of radar signals, IFF signals and TACAN signals can be achieved. According to the intercepting and tracking characteristic of time-difference locating, an implementation framework of resource scheduling of the wide beam frequency conversion time-difference locating system is designed, and a task parameter adaptive generation, task priority evaluation and scheduling adaptive execution algorithm is also designed. According to the method, the resources of time, space, frequency and the like of the wide beam frequency conversion time-difference locating system can be scheduled in an optimized mode, target discovery time is shortened, and tracking stability is guaranteed.

Description

technical field [0001] The invention relates to a method for resource scheduling of a wide-beam frequency-variable time-difference positioning system, in particular to an implementation framework for resource scheduling of the wide-beam frequency-variable time-difference positioning system, adaptive generation of scheduling task parameters, task priority evaluation, and scheduling adaptive execution algorithms. Background technique [0002] Time difference positioning uses the time difference of the same radiation source signal to reach multiple stations to form a hyperbola (surface) for positioning. As a passive positioning technology, long-baseline time-of-flight positioning has been widely used in engineering because of its high positioning accuracy and simple positioning algorithm. [0003] Time difference positioning requires multiple stations to receive the same signal. Therefore, it is necessary to uniformly schedule the time, space, and frequency resources of multipl...

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G06F9/50G06F9/46
Inventor 胡进严波臧勤
Owner THE 724TH RES INST OF CHINA SHIPBUILDING IND
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