The antenna selection algorithm is the exhaustive search method. Its computational complexity grows rapidly as the number of antennas increases. It is quite impractical.
穷举搜索天线选择算法的计算复杂度随天线的增多变大,影响实际应用。
Experimental results indicate that comparing to exhaustive search, the proposed method improves the coding speed and compression ratio greatly with slight quality degradation of decoded image.
实验结果表明,相对于全局搜索,所提方法大幅地提高了编码速度和压缩比,而解码质量只略有下降。
Based on the simple exhaustive search (es) method, a reduced-space search (RS) algorithm and an AI algorithm are developed respectively, which make the search space reduced dramatically.
从简单普适的穷搜(ES)法出发分别建立了降维搜索(RS)算法和AI算法,从而大幅度缩小了搜索空间。
Based on the simple exhaustive search (es) method, a reduced-space search (RS) algorithm and an AI algorithm are developed respectively, which make the search space reduced dramatically.
从简单普适的穷搜(ES)法出发分别建立了降维搜索(RS)算法和AI算法,从而大幅度缩小了搜索空间。
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