| ID | 原文 | 译文 |
| 24705 | 在算法搜索阶段设计多种基于问题性质的探索策略和基于贝叶斯网络的概率模型对问题解空间进行深度与宽度的协同搜索。 | A variety of exploration strategies based on the problem features and a Bayesian network‑based probability model were designed to conduct a depth and width search of the problem solution space. |
| 24706 | 此外,提出基于重启策略的种群更新机制以加强算法跳出局部最优的能力。 | In addition, a population update mechanism based on the restart strategy was proposed to strengthen the algorithm's ability to jump out of the local optimum. |
| 24707 | 实验部分构造多种对比算法来验证 EABC 中各关键环节的有效性。 | In the experimental part, multiple comparison algorithms were constructed to verify the effectiveness of the EABC's key components. |
| 24708 | 通过基于实例的数值仿真以及与 NFOA(Novel Fruit fly Optimization Algorithm)、KMEA(Knowledge‑based Multi‑agent Evolu‐tionary Algorithm)和 CCIWO(Cooperative Co‑evolutionary Invasive Weed Optimization)的算法比较验证了 EABC 的有效性和鲁棒性。 | Simulation results based on some instances and comparisons with NFOA (Novel Fruit fly Optimization Algorithm), KMEA (Knowledge‑basedMulti‑agent Evolutionary Algorithm) and CCIWO (Cooperative Co‑evolutionary Invasive Weed Optimization) demonstrated the effectiveness and robustness of the proposed algorithm. |
| 24709 | 本文提出了一种基于同步电荷提取的高效多压电能俘获电路(High Efficiency Multi-piezoelectric EnergyHarvesting Circuit Based on Synchronous Electric Charge Extraction, EM-SECE)。 | In this paper, a high efficiency multi-piezoelectric harvesting circuit based on synchronous charge extraction (EM-SECE) is presented. |
| 24710 | 所提出的电路利用改进的正负峰值检测结构,减小了压电元件(Piezoelectric Transducer , PZT)达到电压峰值处和开关动作之间的相位差,从而提高了单个压电元件的能量收集效率。 | The proposed circuit utilizes an improved positive and negative peak detection structure so that the phase difference between the peak voltage of the piezoelectric transducer and the switching action is reduced, and then the energy harvesting efficiency of the single piezoelectric transducer is improved. |
| 24711 | 并且利用单电感的时分复用,实现基于单电感的多个压电元件振动能俘获。 | Further, using time division multiplexing of single inductor, multi-piezoelectric energy harvesting is achieved. |
| 24712 | 所提出电路具有无整流桥结构,且可以实现自供电的特点。 | The proposed circuit is of self-powered characteristic with no rectifying bridge structure。 |
| 24713 | 实验结果表明,相同实验条件下,单压电 EM-SECE 电路的俘获功率为标准能量俘获电路(SEH)最大功率的 3.09 倍; | The experimental results show that under the same experimental condition, the harvesting power of the EM-SECE circuit for single piezoelectric transducer is 3.09 times than the maximum power of the standard energy harvesting circuit; |
| 24714 | 在仅用一个电感的情况下,双压电 EM-SECE 电路的俘获功率为两个单压电 EM-SECE电路之和的97%。 | with only one inductor, the harvesting power of the EM-SECE circuit with double piezoelectric transducers is 0.97 times of the harvesting power sum of two piezoelectric transducers. |