| ID | 原文 | 译文 |
| 16245 | 近年来已有相关文献对锂离子电池SoC的估算方法进行了综述。 | In recent years, some review literature onthe Lithium-ion battery SoC estimation has been published. |
| 16246 | 然而已有相关综述对估算方法的总结不够全面且缺少流程表达。 | However, the existing literature has not summarized the estimation methods comprehensively and lack of process description. |
| 16247 | 该文首先介绍了锂离子电池的工作原理,阐述了影响电池SoC估算的因素。 | In this paper, the working principle ofLithium-ion battery is firstly introduced, as well as the factors affecting the SoC estimation of battery. |
| 16248 | 其次,通过总结最新的研究成果对电池SoC估算方法进行了归纳分析。 | Secondly, summary and analysis of the battery SoC estimation methods are conducted by the latest researchachievement. |
| 16249 | 根据各类算法的不同特性将其分为查表法、安时积分法、基于模型的方法、数据驱动的方法以及混合方法五大类。 | According to the different characteristics of various algorithms, the battery SoC estimation can bedivided into five categories: look-up table method, ampere hour integration method, model-based method, data-driven method and hybrid method. |
| 16250 | 说明了各类估算方法的主要特征并对模型或算法的优缺点进行综合的比较和讨论。 | The main characteristics of various estimation methods are explained and the advantages and disadvantages of models or algorithms are comprehensively compared and discussed. |
| 16251 | 最后,对电动汽车中锂离子电池SoC估算方法的未来发展方向做出展望。 | Finally, the future development direction of SoC estimation methods for Lithium-ion batteries in electric vehicles is prospected. |
| 16252 | 针对激光测振系统中散斑效应导致的语音脉冲噪声,该文研究了一种基于4阶累积量的峰度检测算法,推导了峰度系数和归一化峰度系数的数学迭代公式,并在FPGA的实现中提出了一种峰度系数的动态阈值的判决方法。 | For the speech impulse noise caused by the speckle effect in the laser vibration measurement system, a kurtosis detection algorithm based on the fourth-order cumulant is studied, and the mathematical iterative formulas for the kurtosis coefficient and the normalized kurtosis coefficient are deduced, and a method for determining the dynamic threshold of kurtosis coefficient is proposed in FPGA. |
| 16253 | 基于实验数据的仿真结果表明,该算法较理论公式减少了约25%的计算量,节省了硬件资源,对较小幅度的脉冲噪声具有更敏感的检测性能。 | The simulation results based onexperimental data show that the algorithm reduces the calculation by about 25% compared with the theoreticalformula and saves hardware resources, and has a more sensitive detection performance for lower amplitudeimpulse noise. |
| 16254 | 针对签名验签速度难以满足特定应用领域需求的问题,该文设计了一种高性能Ed25519算法的硬件实现架构。 | The speed of existing signature and verification architecture is difficult to meet the requirement of the specific applications domain, to solve this problem a high-performance hardware architecture of Ed25519 algorithm is developed. |