1 |
许建 , 杨庚 , 陈正宇 , 等. 基于二次独立集的数据融合调度算法. 通信学报 2014,12(1): 1306~1313
|
2 |
师东生 . WSN 中一种基于混合 CS 的分簇数据收集方案. 计算机应用研究 2014,31(3): 892~897
|
3 |
杨庚 , 李森 , 陈正宇 , 等. 传感器网络中面向隐私保护的高精确度数据融合算法. 计算机学报 2013,36(1): 189~199
|
4 |
乐俊 , 张维明 , 肖卫东 , 等. 无线传感器网络中一种基于非均匀划分的分簇数据融合算法. 计算机研究与发展 2011,48(z2): 247~254
|
5 |
余阳 , 吴银峰 , 冯仁剑 , 等. 应用于管道气体泄漏监测的 WSN层级式数据融合方法. 高技术通讯 2012,22(1): 1~7
|
6 |
林蔚 , 尹娟 . 无线传感器网络含有缺失数据的数据融合研究. 计算机应用研究 2012,28(4): 631~636
|
7 |
马守明 , 王汝传 , 叶宁 . 基于信誉度集对分析的 WSN 完全数据融合. 计算机研究与发展 2011,48(8): 1652~1658
|
8 |
李小亚 , 潘家辉 . 无线传感器网络能量平衡的数据汇聚路由算法. 华南师范大学学报(自然科学版), 2012,44(2): 53~57
|
9 |
Luo C , Wu F , Sun J , et al. Compressive data gathering for large-scale wireless sensor networks. Proceedings of the 15th Annual International Conference on Mobile Computing and Networking, Beijing, China 2009: 145~156
|
10 |
Luo J , Xiang L , Rosenberg C . Does compressed sensing improve the throughput of wireless sensor networks. Proceedings of 2010 IEEE International Conference on Communications(ICC), Cape Town, South Africa 2010: 1~6
|
11 |
Xiang L , Luo J , Vasilakos A . Compressed data aggregation for energy efficient wireless sensor networks. Proceedings of 8th Annual IEEE Communications Society Conference on Sensor, Mesh and Ad Hoc Communications and Networks(SECON), Salt Lake City, Utah, USA 2011: 46~54
|
12 |
Gilbert A C , Strauss M J , Tropp J A , et al One sketch for all:fast algorithms for compressed sensing. Proceedings of the Thirty-Ninth Annual ACM Symposium on Theory of Computing, San Diego, California, USA 2007: 237~246
|
13 |
Park J , Jung B C , Kim J M , et al. Sparse signal recovery with parallel orthogonal matching pursuit and its performances. Journal of the Korea Institute of Information and Communication Engineering, 2013,17(8): 1784~1789
|
14 |
Zhang W , Huang B , Zhou T . An improvement on StOMP for sparse solution of linear underdetermined problems. Proceedings of 32nd Chinese Control Conference(CCC), Xi'an, China, IEEE 2013: 1951~1956
|
15 |
Jeong Y S , Han Y H , Park J J , et al. MSNS: mobile sensor network simulator for area coverage and obstacle avoidance based on GML. EURASIP Journal on Wireless Communications and Networking, 2012(1): 1~15
|