In this paper, a new parallel-by-cell approach to the undistorteddata compression based on cellular automaton and genetic algorithm is presented.The local compression rules in a cellular automaton are obtained by usin...In this paper, a new parallel-by-cell approach to the undistorteddata compression based on cellular automaton and genetic algorithm is presented.The local compression rules in a cellular automaton are obtained by using a geneticevolutionary algorithm. The correctness of the hyper-parallel compression, the timecomplexity, and the relevant symbolic dynamic behaviour are discussed. In comparison with other traditional sequential or small-scale parallel methods for undistorteddata compression, the proposed approach shows much higher real-time performance,better suitability and feasibility for the systolic hardware implementation.展开更多
This paper defines second-order and third-order permutation global functions and presents the corresponding higher-order cellular automaton approach to the hyper-parallel undistorted data compression. The genetic algo...This paper defines second-order and third-order permutation global functions and presents the corresponding higher-order cellular automaton approach to the hyper-parallel undistorted data compression. The genetic algorithm is successfully devoted to finding out all the correct local compression rules for the higher-order cellular automaton. The correctness of the higher-order compression rules, the time complexity, and the systolic hardware implementation issue are discussed. In comparison with the first-order automaton method reported, the proposed higher-order approach has much faster compression speed with almost the same degree of cellular structure complexity for hardware implementation.展开更多
文摘In this paper, a new parallel-by-cell approach to the undistorteddata compression based on cellular automaton and genetic algorithm is presented.The local compression rules in a cellular automaton are obtained by using a geneticevolutionary algorithm. The correctness of the hyper-parallel compression, the timecomplexity, and the relevant symbolic dynamic behaviour are discussed. In comparison with other traditional sequential or small-scale parallel methods for undistorteddata compression, the proposed approach shows much higher real-time performance,better suitability and feasibility for the systolic hardware implementation.
基金the National Natural Science Foundation of China under Grant !.69773037Foundational R&D Plan of China under Grant!G1999D3270
文摘This paper defines second-order and third-order permutation global functions and presents the corresponding higher-order cellular automaton approach to the hyper-parallel undistorted data compression. The genetic algorithm is successfully devoted to finding out all the correct local compression rules for the higher-order cellular automaton. The correctness of the higher-order compression rules, the time complexity, and the systolic hardware implementation issue are discussed. In comparison with the first-order automaton method reported, the proposed higher-order approach has much faster compression speed with almost the same degree of cellular structure complexity for hardware implementation.
