[1] Bjrklund P, Vrbrand P, Yuan D. Optimized planning of frequency hopping in cellular networks. Computers & Operations Research, 2005, 32(1): 169-186.[2] Ke P H, Zhang S Y. Frequency hopping sequences based on d-form function. The Journal of China Universities of Posts and Telecommunications, 2010, 17(4): 58-62.[3] Gennian G, Fuji-Hara R, Miao Y. Further combinatorial constructions for optimal frequency hopping sequences. Journal of Combinatorial Theory, Series A, 2006, 113(8): 1699-1718.[4] Li Y L. Model and simulation of slow frequency hopping system using signal progressing worksystem. Communications in Computer and Information Science, 2011, 105(4): 242-249.[5] Zhu X L, Hu Y S, Yu Q. Study of DFH system G function algorithm. Computer and Digital Engineering, 2005, 33(8): 46-48. (in Chinese) 朱秀林, 胡用时, 于奇. 差分跳频系统的G函数算法研究. 计算机与数字工程, 2005, 33(8): 46-48.[6] Qiu W B, Du X M, Zhu L Y. Performance analysis of DFH system based on RS codes. Microcomputer Information, 2007, 23(18): 110-111, 114. 仇文博, 杜兴民, 朱礼亚. RS码下的差分跳频系统性能分析. 微计算机信息, 2007, 23(18): 110-111, 114.[7] Gan L C, Wu S Y. A kind of shortwave frequency hopping code based on DFH trasform function. Journal of Electronics & Information Technology, 2005, 27(2): 218-220. (in Chinese) 甘良才, 吴双元. 一种基于差分跳频转移函数的短波跳频码. 电子与信息学报, 2005, 27(2): 218-220.[8] Yang L N, Li H, Xin Z Y. Generation and property analysisof a new chaotic sequence. Microcomputer Information, 2008, 24(3-1): 189, 205-206. (in Chinese) 杨丽宁, 李红, 信张轶. 一种新的混沌序列的产生及其性能分析. 微计算机信息, 2008, 24(3-1): 189, 205-206.[9] Lopelli E, van der Tang J, van Roermund A. Ultra low power frequency hopping spread spectrum transmitters and receivers. Analog Circuit Design, 2006, 3: 377-441.[10] Dong B H, Li S Q, Shi F Q. A differential frequency hopping code generator construction method. Journal of Electronics & Information Technology, 2010, 32(4): 816-820. (in Chinese) 董彬虹, 李少谦, 史锋旗. 一种差分跳频码发生器的构造方法. 电子与信息学报, 2010, 32(4): 816-820.[11] Sahu P P, Panda S. Frequency hopping spread spectrum signaling using code quadratic FSK technique for multichannel. Computers & Electrical Engineering, 2010, 36(6): 1187-1192.[12] Lee S H, Lee Y H. Adaptive frequency hopping and power control based on spectrum characteristic of error sources in Bluetooth systems. Computers & Electrical Engineering, 2010, 36(2): 341-351.[13] Mills D G, Egnor D E, Edelson G S. A performance comparison of differential frequency hopping and fast frequency hopping. Proc Milcom, 2004, 1(4): 45-50.[14] Naik K, Wei D S L, Su Y T, et al. A random graph-based madel to analyze packet interference between frequency hopping systems with an application to Bluetooth. Computer Communications, 2008, 31(14): 3286-3291.[15] Li Z R, Zhuang Y Q, Zhang B. Novel frequency hopping sequences generator based on AES algorithm. Transactions of Tianjin University, 2010, 16(1): 22-27.[16] Song M, Wigginton S. Frequency hopping patter detection in wireless ad hoc networks. Information Technology: Coding and Computing, 2005, 23(3): 112-117. |