Task Scheduling and Multiple Operation Analysis of Multi-Function Radars

정순조,; 장대성,; 최한림,; 양재훈,

doi:10.5139/jksas.2014.42.3.254

Cited by 3 publications

(1 citation statement)

References 10 publications

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“…또한, 빔 스케줄링은 표적 우선순위 할당 알 고리즘으로부터 얻어진 각 표적의 우선순위를 바탕으로 탐색 및 추적 빔을 시간적으로 적절하게 할당하는 과정이 다. 이러한 빔 스케줄링은 기존의 최적화 문제 중 job shop 스케줄링 문제 [5] [6], [7] 과 더불어 MFR 의 실제 운용 상황을 더 효과적으로 반영할 수 있도록 프 레임 시간(frame time), 표적의 드랍아웃(drop-out)을 새로 이 고려하여 각 알고리즘의 성능을 비교 및 분석하였다. 을 통해 얻을 수 있으며 [8] , 속력 정보의 경우 첫 번째 스캔 과 두 번째 스캔 사이의 표적 위치 정보를 비교하여 얻을 수 있다.…”

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Beam Scheduling for Shipborne Multi-Function Radar Based on Job Shop Scheduling Theory

Jeong¹,

Jin²,

Choi³

et al. 2019

J. Korean Inst. Electromagn. Eng. Sci.

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Beam scheduling is necessary for a multifunction radar(MFR) to perform multiple tasks and manage the resources of the radar efficiently. In this paper, we introduce the concept of the job shop problem to solve the beam-scheduling problem, and apply heuristic algorithms to enable reasonable beam allocation by the MFR. Then, we select three indicators, frame time, total weighed tardiness, and the number of targets dropped out, by considering realistic operation of the MFR. Based on the simulation results, we analyze the scheduling of each algorithm according to the number of targets and compare the performance of the algorithms.

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Beam Scheduling for Shipborne Multi-Function Radar Based on Job Shop Scheduling Theory

Jeong¹,

Jin²,

Choi³

et al. 2019

J. Korean Inst. Electromagn. Eng. Sci.

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The study of data transfer method non-matching meshes interface using common-refinement method for fluid-structure interface

한상호¹,

이창수²,

김종암

2014

Journal of the Korean Society for Aeronautical & Space Scie

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During multi-physics or multi-phase simulations accompanying fluid-structure-thermal interaction, data transfer problems always arise along non-matching interfaces caused by different computational meshes for each physical domain. Common-refinement scheme, among many available methods, is attractive since it is known to yield conservative and accurate data transfer for non-matching interface cases. This is particularly important in simulating compressible unsteady fluid-structure-thermal interaction inside solid propellant rockets, where grid size along solid-fluid interfaces is substantially different. From this perspective, we examine performances of common-refinement-based data transfer scheme between structured quadrilateral (structure part) and unstructured triangular (fluid part) meshes by comparing computed results with other data transfer methods.

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