摘要
为提高混沌移动键控方案的通信效率,提出基于移动键控和耦合超混沌系统的异步保密通信方案。在发送端,将十六进制信号嵌入到增益后的混沌状态变量中,利用转换器控制模块实现多个状态变量交替变换掩盖信号,经添加高斯噪声后发送出去。在接收端通过检测噪声强度动态调整检测阈值,可成功提取出发送的信号。数值模拟验证了该系统在含噪声信道环境下,双方通过自适应调整混沌信号增益实现保密通信,随着信噪比(SNR)的增加,比特误码率(BER)呈平滑降低趋势,确保了系统的稳定性。
To improve the communication efficiency of shift keying, an asynchronous secure communication scheme was proposed based on shift keying and coupled hyperchaotic systems. In the sender, hexadecimal digital signal was embedded into gained state variables, and the original signal was masked alternately through converter control module, then was sent out after adding Gaussian noise. In the receiver, the signal could be extracted successfully through adjusting the threshold dynamically. Numerical simulation verifies that under the condition of channel with noise, the sender and the receiver can securely communicate successfully, the Bit Error Ratio (BER) reduces smoothly with the increase of Signal-to-Noise Ratio (SNR), through adjusting the gain of chaotic signals adaptively, which ensures the stability of the proposed communication system.
出处
《计算机应用》
CSCD
北大核心
2018年第3期780-785,883,共7页
journal of Computer Applications
基金
国家自然科学基金资助项目(61662073
61363082)
新疆少数民族科技人才特殊培养计划科研项目(201123116)
新疆维吾尔自治区普通高等学校人文社会科学重点研究基地项目(050316C02)~~
关键词
十六进制数字信号
异步保密通信
超混沌移动键控
信道噪声
比特误码率
hexadecimal digital signal
asynchronous secure communication
hyperchaotic shift keying
channel noise
Bit Error Rate (BER)
