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一种解决多星遥感地面接收资源冲突及优化的方法 被引量:5

Optimization method to resolve the confliction of ground station receiving resources for multi-satellites data
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摘要 针对多星遥感任务规划中的地面接收资源冲突问题,提出了一种利用互斥关系矩阵解决多星遥感中地面接收资源冲突及优化分配的技术,详细解释了互斥矩阵技术的实现方法;应用该技术能够给出多种无冲突的优化分配预案。同时以遥感任务完成量为基准,根据卫星星上数据存储能力和星地数据传输能力,采用优化决策技术建立了一种地面接收资源分配的综合评价模型,用来对多个地面站分配的无冲突预案进行评估,解决多星遥感地面接收资源分配的最优化问题。 This article puts forward an optimization method based on mutex-matrix to resolve the confliction of the ground station resources in receiving multi-satellites remote sensing data,and describes its achievement in detail.This method can provide manifold preferable no-confliction multi-missions solutions of the ground station resources arrangement.Moreover,this article establishes an integrated evaluating model on the arrangement of the ground station resources,which is based on the number of the achieved remote sensing tasks and considers satellite's data storage capacity and data transferring capacity.This model is used to evaluate the no-confliction multi-missions solutions on the arrangement of the ground station resources.The best evaluation result can be selected as the optimization solution of the data receiving mission on the assumed condition.
作者 王无敌 周志鑫 李湘 詹明 王宏琦
机构地区 中国科学院电子学研究所 中国科学院空间信息处理与应用系统技术重点实验室 中国科学院研究生院 北京遥感信息研究所
出处 《系统工程与电子技术》 EI CSCD 北大核心 2011年第6期1299-1304,共6页 Systems Engineering and Electronics
关键词 地面接收资源冲突 互斥矩阵 无冲突预案评估 综合评价模型 confliction of ground station receiving resources mutex-matrix no-confliction multi-missions solution integrated evaluating model
分类号 TP301.6 [自动化与计算机技术—计算机系统结构]
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  • 1Chizek J G. Military transformation: intelligence, surveillance and reconnaissance, congressional research service (CRS)intelli gence and related ikssues[R]. Washington, D. C. : Congres sional Research Service, 2003: 1 - 34.
  • 2Das A, Chakrabarti B K. Quantum annealing and related optimization methods[M]. Heidelberg: Springer,2005 : 145 - 150.
  • 3Rabbath C A, Gagnon E, Lauzon M. On the cooperative control of multiple unmanned aerial vehicles[J]. IEEE Canadian Riviezu-Spring / Printemps, 2004,46 ( 1 ) : 15 - 19.
  • 4Cerny V. ThermodynamicaI approach to the travelling salesman problem: an efficient simulation algorithm[J]. Journal of Optimization Theory and Applications, 1985,45(1) :41 - 45.
  • 5Bellicha A. Maintenance of a solution in a dynamic constraint satisfaction problem[C]//Proc, of the Artificial Intelligence in Engineering XIII , 1993:261 - 274.
  • 6Elkhyari A, Gueret C, Jussien N. Conflict based repair techniques for solving dynamic scheduling problems[J]. Lecture Notes in Computer Science,2006(2470) :137 - 173.
  • 7Rasmussen S J, Shima T. Tree search algorithm for assigning cooperating UAVs to multiple tasks[J]. International Journal of Robust Nonlinear Control ,2007,18(2) : 135 - 153.
  • 8Cordeau J F, Laporte G. Maximizing the value of an Earth observa tion satellite orbit[J]. Journal of the Operational Research Society, 2005,56(8) :962 - 968.
  • 9Darren M C. An evolved autonomous con*roller for satellite task scheduling[J].Lecture Notes in Computer Science, 2004 (3102) : 253 - 254.
  • 10Bourdeau E. Hierarchical context diagraras with UML: an experience report on satellite ground system analysis[J]. Lecture Notes in Computer Science, 1999(1618) :227 - 239.

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系统工程与电子技术
2011年 第6期

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