A memetic random-key genetic algorithm for a symmetric multi-objective traveling salesman problem
Computers and Industrial Engineering
Timing analysis in low-latency mix networks: attacks and defenses
ESORICS'06 Proceedings of the 11th European conference on Research in Computer Security
Spectral efficiency of CDMA with random spreading
IEEE Transactions on Information Theory
Counting the number of renewals during a random interval in a discrete-time delayed renewal process
Operations Research Letters
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In this paper, we propose a novel evolutionary Random Interval Fingerprint RIF for active RFID and ZigBee systems. This new approach can enable more secure multi-party communication since, if the wireless packets are forged by another wireless communication party, the interval fingerprint can provide another way to detect the spoofing packet. Moreover, the random evolutionary algorithms, both genetic and memetic, are also proposed as a means to generate the random interval fingerprint. Compared to the conventional random generator, our approach is flexible in generating uniform random and long cycle numbers, and more robust for the anti-cracking. It is difficult for the forged party to produce the fake random intervals. Finally, we provide an application example, a completed work survey, pseudo-code and analysis result to prove that our concept is feasible for the Wireless communication.