摘要
在分布式MIMO雷达网络场景下,由于MIMO雷达网络的时间能量资源限制,在同一时间下对某一目标,只允许采用有限数量的发射站和接收站来对其进行监视跟踪。因此需要寻求一种合理有效的方法在满足雷达网络发射站接收站数量约束的前提下尽可能高的提高对目标的跟踪性能。该文利用后验克拉美罗下界(PCRLB)作为性能指标,优化多目标跟踪情况下性能最差的目标构建为一个布尔规划问题(BP)。在将原问题松弛为半正定规划问题后(SDP)利用分块坐标下降迭代法取得联合选择的近似最优解。通过仿真实验,验证了该文提出的方法能够根据目标场景动态的规划选择所需的发射站和接收站。相比固定非动态选择拥有更好的性能。并且在拥有更小计算量的前提下获得了近似于穷举搜索的性能。
Only a subset of transmitters and receivers in a distributed Multi-Input Multi-Output(MIMO) radar network is allowed to actively track a target at a particular instance due to the limited time and energy resource of a MIMO radar network. It is therefore desirable to obtain an efficient method to overcome the resource constraints while optimizing the tracking performance. In this study, posterior Cramer-Rao lower bound is used as the performance metric and the selection problem is formulated as a Boolean programming problem aiming at optimizing the worst tracking performance of multiple targets. It is later relaxed to a semidefinite programming and solved by the block coordinate descend method. Numerical results show that proposed method superior to the fixed selection method. In addition, with less computation complexity, the proposed method obtains nearly equivalent performance compared with exhaustive search method.
出处
《雷达学报(中英文)》
CSCD
2017年第1期73-80,共8页
Journal of Radars
基金
国家自然科学基金(61671139)~~
关键词
雷达网络资源管理
传感器管理
分布式MIMO雷达
目标跟踪
Radar network resource management
Sensor selection
Distributed Multi-Input Multi-Output(MIMO) radar
Target tracking
