IS-95 CDMA and cdma2000: cellular/PCS systems implementations
IS-95 CDMA and cdma2000: cellular/PCS systems implementations
Wireless Communications: Principles and Practice
Wireless Communications: Principles and Practice
Wireless Security: Models, Threats, and Solutions
Wireless Security: Models, Threats, and Solutions
A Toeplitz displacement method for blind multipath estimation forlong code DS/CDMA signals
IEEE Transactions on Signal Processing
Message-driven frequency hopping: design and analysis
IEEE Transactions on Wireless Communications
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Historically developed for secure communication and military use, CDMA has been identified as a major modulation and multiple-access technique for 3G systems and beyond. In addition to the wide bandwidth and low power-spectrum density which make CDMA signals robust to narrowband jamming and easy to be concealed within the noise floor, the physical layer built-in information privacy of CDMA system is provided by pseudorandom scrambling. In this paper, first, security weakness of the operational and proposed CDMA airlink interfaces is analyzed. Second, based on the advanced encryption standard (AES), we propose to enhance the physical layer built-in security of CDMA systems through secure scrambling. Performance analysis demonstrates that while providing significantly improved information privacy, CDMA systems with secure scrambling have comparable computational complexity and overall system performance with that of conventionally scrambled systems. Moreover, it is shown that by scrambling the training sequence and the message sequence separately with two independent scrambling sequences, both information privacy and system performance can be further improved. The proposed scheme can readily be applied to 3G systems and beyond.