| ID | 原文 | 译文 |
| 40686 | 物联网中部署在不同监控区域的传感器传递监控数据到融合中心,所有链路试图通过不公平地获取信道访问来增加它们的传输机会。 | In the Internet of Things (IoT), sensors deployed in different monitoring areas transmit monitoring data to the fusion center, and all links attempt to increase their transmission opportunities by unfairly acquiring channel access. |
| 40687 | 但是,单条链路的自私行为将会加剧链路之间的传输冲突,这使得对延迟敏感的实时数据吞吐量恶化,严重影响数据融合的性能。 | However, the selfish behavior of a single link will aggravate the transmission conflicts between links, which will worsen the real-time data throughput sensitive to latency and seriously affect the performance of data fusion. |
| 40688 | 为了保障融合数据实时可靠地传输,提出了一种基于博弈论的分布式调度策略NCG-CSMA。在参与者不需要彼此进行信息交互的前提下,以分布式的方式引导每个参与者做出理性决策, | In order to guarantee the real-time and reliable transmission of fusion data, this paper proposes a distributed scheduling strategy, named NCG-CSMA, based on game theory, which does not require players to interact to their own information with other competitors and guides each player to make rational decisions in a distributed way. |
| 40689 | 为带有严格时延约束的异构融合数据提供传输服务,同时保障对数据融合价值大的数据包的传输,保障数据融合的性能。 | Considering the value attribute and time characteristic of data packets, this strategy provides more transmission opportunities for packets that are urgent and of high value for data fusion, so asto guarantee the performance of data fusion. |
| 40690 | 实验结果表明:提出的策略与其它现有的策略相比具有更好的实时性能。 | The simulation results have shown that the proposed strategy achieves good delay-guaranteed satisfaction compared with the existing strategies. |
| 40691 | 基于TSMC 0.18μm CMOS工艺,设计了一种应用于物联网(IoT)无线传感器节点的双输入双输出高转换效率能量收集电路, | Based on TSMC 0.18μm CMOS process, a high conversion efficiency energy harvesting circuit with dual-input and dual-outputwas designed for wireless sensor nodes of the Internet of Things (IoT). |
| 40692 | 在最大功率点跟踪技术和整流技术支持下实现对压电能(PZ)和热电能(TEG)两种能量源的自主能量收集。 | With the support of maximum power point tracking technology and rectification technology, the autonomously harvest energy from both piezoelectric energy (PZ) and thermoelectric energy (TEG) sources was realized. |
| 40693 | 电路在轻载状态下,Boost升压回路对超级电容和负载供电,实现双路输出; | Under light load, the Boost circuit can supply power to the super-capacitor and the load to achieve dual output, |
| 40694 | 在重载状态下,Boost升压和Buck降压回路同时对负载供电,弥补了能源不足的缺陷。 | and under heavy load, the Boost and Buck circuits supply power to the load at the same time to compensate for the energy shortage. |
| 40695 | 通过引入非连续导通模式(DCM)、连续导通模式(CCM)的自主切换技术,有效减少电感上的电流反向泄漏,显著提高了电路转换效率。 | By introducing the independent switching technology of discontinuous conduction mode (DCM) and continuous conduction mode (CCM), the reverse current leakage on the inductor is effectively reduced and the conversion efficiency of the circuit is significantly improved. |