土方量计算有多种算法。
在执行加密时,有多种密码学算法可供选择。
There are a variety of cryptographic algorithms to choose from when performing encryption.
但是每个人的变异有细小的影响,所以研究人员开发出一种算法结合了多种突变的共同影响。
Each individual variant had little impact, however, so the researchers developed an algorithm to combine the effects of multiple variants acting together.
会计核算的方法有多种,如收付实现制核算法、成本核算法、权责发生制核算法。
There are many methods of accounting, such as cash method of accounting, cost method of accounting, accrual method of accounting.
极点配置问题的算法有多种,特别是对于多输入系统,其计算较为复杂。
With various algorithms, especially for a multi input system, the technique involves a calculation.
目前已经有多种基于物理的软体模型模拟算法,但计算量大与算法复杂是这些方法的主要缺陷。
There are multi-kind simulation methods of soft body modeling based on physics, but huge computation and complex algorithm are the limitations of these methods.
极点配置问题的算法有多种,特别是对于多输入系统,其计算较为复杂。
This issue have manifold algorithms, especially for multi-input system, it's calculation are rather complex.
算法也能从相似顾客的商品里选择推荐,有多种可以利用的方法,常见的一种技术是,按照购买该商品的相似顾客数量,对每件商品进行排序。
The algorithm can select recommendations from the similar customers' items using various methods as well, a common technique is to rank each item according to how many similar customers purchased it.
仿真结果表明,多水下机器人编队自适应控制算法有较好的稳定性,对于多水下机器人编队研究及多种海洋探测应用具有重要的意义。
Simulation results show the stability of the MAUV adaptive formation control algorithm and its significance in the field of MAUVS formation research and many ocean exploration applications.
一个加密库代码,有aes,BLUEFISH的很多种加密算法。
A code for encryption, AES, BLUEFISH a very wide variety of encryption algorithms.
试验结果表明,该算法能够快速有效地提取胎儿心电信号,并能有效地抑制多种噪声,有较强的实用性。
Experimental results show that the algorithm can rapidly and efficiently extract FECG and greatly restrain lots of noise, and has stronger practicability.
现有的分类预测的方法有许多种,常见的有决策树算法(C4.5)、贝叶斯分类算法、BP算法与支持向量机等。
There are many classification methods to forecast such as decision tree algorithm (C4.5), Bayes algorithm, BP algorithm and SVM.
虽然目前已经有多种参数算法,但如何克服参数选取的随意性及分形造型的不可预知性问题还有待于深入的研究。
At present, we have lots of parameter algorithms, but more work need to be done to get over the random of parameters selection and unpredictability of fractals shape.
虽然目前已经有多种参数算法,但如何克服参数选取的随意性及分形造型的不可预知性问题还有待于深入的研究。
At present, we have lots of parameter algorithms, but more work need to be done to get over the random of parameters selection and unpredictability of fractals shape.
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