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27 May 2015, pp 1-26, (SCI, IF = 1.731). [4] He M.W. , Sun L.L., Hu K.Y., Zhu Y.L., Chen H.N. (陈瀚宁, 通信作者), Analysis of DoD inkjet printhead performance for printable electronics fabrication using dynamic lumped element modeling and swarm intelligence based optimal prediction, Journal Central South University. (2015) 22: 3925?3934, (SCI, IF = 0.551). [5] Chen, H.N. (陈瀚宁), Zhu, Y.L. et al. Bacterial Colony Foraging Algorithm: Combining Chemotaxis, Cell-to-cell Communication, and Self-adaptive Strategy, Information Sciences, 2014,273: 73-10, (SCI, IF = 3.242). [6] Chen H.N. ( 陈瀚宁), Zhu Y.L. et al., Multi-Hive Bee Foraging Algorithm for Multi-objective Optimal Power Flow Considering the Cost, Loss, and Emission, International Journal of Electrical Power &

Energy Systems, 2014, 60: 203-220, (SCI, IF = 3.432). [7] Chen H.N. (陈瀚宁), Zhu Y.L. et al. Multi-colony bacteria foraging optimization with cell-to-cell communication for RFID network planning, Applied Soft Computing, 2010, 10(2): 539-547, (SCI, IF = 2.810). [8] Chen H.N. (陈瀚宁), *Niu, B;

Ma, L.B.;

Su, W.X.;

Zhu, Y.L., Bacterial colony foraging optimization, Neurocomputing, 2014,137: 268C284, (SCI, IF = 2.083). [9] Ma, L.B.;

Zhu, Y.L.;

Hu, K.Y.;

*Chen, H.N. (陈瀚宁, 通信作者), Cooperative artificial bee colony algorithm for multi-objective RFID network planning, Journal of Network and Computer Applications, 2014, 42: 143C162, (SCI, IF = 2.229). [10] [8] Chen H.N. (陈瀚宁), Zhu Y.L. et al., Multiobjective RFID Network Optimization Using Multiobjective Evolutionary and Swarm Intelligence Approaches, Mathematical Problems in Engineering, 2014, 2014: 1C13, (SCI: 608CH, IF=1.383). [11] Chen H.N. ( 陈瀚宁), Zhu Y.L. et al. Bacterial Colony Foraging Optimization. Neurocomputing. Aug 2012. ( SCI IF=1.58) [12] Chen H.N. (陈瀚宁), Zhu Y.L. A Discrete Multi-swarm Optimizer for RFID Network Scheduling. Journal of Central South University. Aug 2012. ( SCI IF=0.564) [13] Liu W., Niu B., Zhu Y.L., Chen H.N. (陈瀚宁, 通讯作者) Artificial Bee Colony Algorithm for Reader Collision Problem in RFID Network. Journal of Computational and Theoretical Nanoscience. 2013, 10(12). ( SCI IF= 0.912) [14] Liu W., Niu B., Zhu Y.L., Chen H.N. (陈瀚宁, 通讯作者) Robot Path Planning Using a Self-adaptive Bacterial Foraging Algorithm. Journal of Computational and Theoretical Nanoscience. 2013, 10(12). (SCI IF= 0.912) [15] Chen H.N. (陈瀚宁), Zhu Y.L. Bacterial Colony Foraging Model: combing chemotaxis, Cell-to-cell Communication, and Self-adaptive strategy. Journal of Investigative Medicine. 2013, 61(4): S9-S9. ( SCI: 151RJ, IF=1.964) [16] Chen H.N. (陈瀚宁), Zhu Y.L. A Lifecycle Model for Simulating Bacterial Colony Evolution. Journal of Investigative Medicine. 2013, 61(4): S25-S25. ( SCI: 151RJ, IF=1.964) [17] Chen H.N. (陈瀚宁), Zhu Y.L. Bio-inspired Algorithm for Optimal Dynamic Deployment of RFID Reader Networks. Electronics World. 2013, 119(1921): 36-39. ( SCI: 074WU, IF=0.013 封面发表) [18] Ma L.B., Hu K.Y., Zhu Y.L., Chen H.N. (陈瀚宁, 通讯作者) Computational Evolution of Social Behavior in Bacterial Colony Optimization Model. Journal of Pure and Applied Microbiology. 2013, 7(Special Edition): 487-493. ( SCI IF=0.065) [19] Chen H.N. (陈瀚宁), Zhu Y.L., Hu K.Y., Ding M, Su, W.X. A Novel Bacterial Foraging Algorithm For Multi-working Mode Product Color Planning. Information-An International Interdisciplinary Journal. 2012, 15(1): 123-130. ( SCI: 912OO, IF=0.358) [20] Yan X.H., Zhu Y.L., Zhang H., Chen H.N. (陈瀚宁), Niu B. An Adaptive Bacterial Foraging Optimization Algorithm with Lifecycle and Social Learning. Discrete Dynamics in Nature and Society. 2012, Article ID 409478,