To solve the low power transfer efficiency and magnetic field leakage problems of cardiac pacemaker wireless powering, we proposed a wireless power supply system suitable for implanted cardiac pacemaker based on mu-ne...To solve the low power transfer efficiency and magnetic field leakage problems of cardiac pacemaker wireless powering, we proposed a wireless power supply system suitable for implanted cardiac pacemaker based on mu-negative(MNG) and mu-nearzero(MNZ) metamaterials. First, a hybrid metamaterial consisted of central MNG unit for magnetic field concentration and surrounding MNZ units for magnetic leakage shielding was established by theoretical calculation. Afterwards, the magnetic field distribution of wireless power supply system with MNG-MNZ metamaterial slab was acquired via finite element simulation and verified to be better than the distribution with conventional MNG slab deployed. Finally, an experimental platform of wireless power supply system was established with which power transfer experiment and system temperature rise experiment were conducted.Simulation and experimental results showed that the power transfer efficiency was improved from 44.44%,19.42%, 8.63% and 6.19% to 55.77%, 62.39%, 20.81%and 14.52% at 9.6 mm, 20 mm, 30 mm and 50 mm,respectively. The maximum SAR acquired by SAR simulation under human body environment was-7.14 dbm and maximum reduction of the magnetic field strength around the receiving coil was 2.82 A/m. The maximum temperature rise during 30min charging test was 3.85℃,and the safety requirements of human bodies were met.展开更多
Energy supply is one of the most critical challenges of wireless sensor networks(WSNs)and industrial wireless sensor networks(IWSNs).While research on coverage optimization problem(COP)centers on the network’s monito...Energy supply is one of the most critical challenges of wireless sensor networks(WSNs)and industrial wireless sensor networks(IWSNs).While research on coverage optimization problem(COP)centers on the network’s monitoring coverage,this research focuses on the power banks’energy supply coverage.The study of 2-D and 3-D spaces is typical in IWSN,with the realistic environment being more complex with obstacles(i.e.,machines).A 3-D surface is the field of interest(FOI)in this work with the established hybrid power bank deployment model for the energy supply COP optimization of IWSN.The hybrid power bank deployment model is highly adaptive and flexible for new or existing plants already using the IWSN system.The model improves the power supply to a more considerable extent with the least number of power bank deployments.The main innovation in this work is the utilization of a more practical surface model with obstacles and training while improving the convergence speed and quality of the heuristic algorithm.An overall probabilistic coverage rate analysis of every point on the FOI is provided,not limiting the scope to target points or areas.Bresenham’s algorithm is extended from 2-D to 3-D surface to enhance the probabilistic covering model for coverage measurement.A dynamic search strategy(DSS)is proposed to modify the artificial bee colony(ABC)and balance the exploration and exploitation ability for better convergence toward eliminating NP-hard deployment problems.Further,the cellular automata(CA)is utilized to enhance the convergence speed.The case study based on two typical FOI in the IWSN shows that the CA scheme effectively speeds up the optimization process.Comparative experiments are conducted on four benchmark functions to validate the effectiveness of the proposed method.The experimental results show that the proposed algorithm outperforms the ABC and gbest-guided ABC(GABC)algorithms.The results show that the proposed energy coverage optimization method based on the hybrid power bank deployment model generates more accurate results than the results obtained by similar algorithms(i.e.,ABC,GABC).The proposed model is,therefore,effective and efficient for optimization in the IWSN.展开更多
将无线电能传输技术引入航天器的旋转供电中是推动航天器进一步发展的重要手段。而现有应用最广的磁耦合式无线电能传输技术(inductive power transfer,IPT)因成本高、重量大、存在涡流损耗等缺陷而难以在航天领域中得到大规模应用。而...将无线电能传输技术引入航天器的旋转供电中是推动航天器进一步发展的重要手段。而现有应用最广的磁耦合式无线电能传输技术(inductive power transfer,IPT)因成本高、重量大、存在涡流损耗等缺陷而难以在航天领域中得到大规模应用。而电场耦合式无线电能传输技术(capacitive power transfer,CPT)以其成本低、重量轻等优点,近年来受到广泛关注,在航天领域具有巨大潜力。从传统IPT技术在航天领域应用的缺陷入手,分析将CPT技术引入航天领域无线供电场景的重要性。进而介绍了CPT技术的发展历程与基本原理,并对CPT技术在轻量化、大功率、旋转型三个领域的研究现状进行综述来论证其在航天领域应用的潜力。最后总结了CPT技术在航天领域应用存在的问题并分析了解决这些问题可行的技术手段。展开更多
为解决建筑多电源供配电系统运行状态监测范围覆盖率较低的问题,提出基于无线通信的建筑多电源供配电系统运行状态监测方法。文章利用远距离无线电(Long Range Radio,LoRa)技术,融入ZigBee层次化协议架构理念,设计无线通信网络,部署无...为解决建筑多电源供配电系统运行状态监测范围覆盖率较低的问题,提出基于无线通信的建筑多电源供配电系统运行状态监测方法。文章利用远距离无线电(Long Range Radio,LoRa)技术,融入ZigBee层次化协议架构理念,设计无线通信网络,部署无线监测网络,全面覆盖并实时监控建筑内多电源供配电系统的运行状态,通过先进的数据处理、信号放大、多维监测体系及异常检测机制,实时监测系统运行状态。实验结果表明,设计方法利用无线通信技术的优势,有效消除了监测盲区,提高了监测范围覆盖率,具有应用价值。展开更多
基金supported by 2023 Liaoning Provincial Department of Education Basic Research Project (General Project)(JYTMS20230815)。
文摘To solve the low power transfer efficiency and magnetic field leakage problems of cardiac pacemaker wireless powering, we proposed a wireless power supply system suitable for implanted cardiac pacemaker based on mu-negative(MNG) and mu-nearzero(MNZ) metamaterials. First, a hybrid metamaterial consisted of central MNG unit for magnetic field concentration and surrounding MNZ units for magnetic leakage shielding was established by theoretical calculation. Afterwards, the magnetic field distribution of wireless power supply system with MNG-MNZ metamaterial slab was acquired via finite element simulation and verified to be better than the distribution with conventional MNG slab deployed. Finally, an experimental platform of wireless power supply system was established with which power transfer experiment and system temperature rise experiment were conducted.Simulation and experimental results showed that the power transfer efficiency was improved from 44.44%,19.42%, 8.63% and 6.19% to 55.77%, 62.39%, 20.81%and 14.52% at 9.6 mm, 20 mm, 30 mm and 50 mm,respectively. The maximum SAR acquired by SAR simulation under human body environment was-7.14 dbm and maximum reduction of the magnetic field strength around the receiving coil was 2.82 A/m. The maximum temperature rise during 30min charging test was 3.85℃,and the safety requirements of human bodies were met.
文摘Energy supply is one of the most critical challenges of wireless sensor networks(WSNs)and industrial wireless sensor networks(IWSNs).While research on coverage optimization problem(COP)centers on the network’s monitoring coverage,this research focuses on the power banks’energy supply coverage.The study of 2-D and 3-D spaces is typical in IWSN,with the realistic environment being more complex with obstacles(i.e.,machines).A 3-D surface is the field of interest(FOI)in this work with the established hybrid power bank deployment model for the energy supply COP optimization of IWSN.The hybrid power bank deployment model is highly adaptive and flexible for new or existing plants already using the IWSN system.The model improves the power supply to a more considerable extent with the least number of power bank deployments.The main innovation in this work is the utilization of a more practical surface model with obstacles and training while improving the convergence speed and quality of the heuristic algorithm.An overall probabilistic coverage rate analysis of every point on the FOI is provided,not limiting the scope to target points or areas.Bresenham’s algorithm is extended from 2-D to 3-D surface to enhance the probabilistic covering model for coverage measurement.A dynamic search strategy(DSS)is proposed to modify the artificial bee colony(ABC)and balance the exploration and exploitation ability for better convergence toward eliminating NP-hard deployment problems.Further,the cellular automata(CA)is utilized to enhance the convergence speed.The case study based on two typical FOI in the IWSN shows that the CA scheme effectively speeds up the optimization process.Comparative experiments are conducted on four benchmark functions to validate the effectiveness of the proposed method.The experimental results show that the proposed algorithm outperforms the ABC and gbest-guided ABC(GABC)algorithms.The results show that the proposed energy coverage optimization method based on the hybrid power bank deployment model generates more accurate results than the results obtained by similar algorithms(i.e.,ABC,GABC).The proposed model is,therefore,effective and efficient for optimization in the IWSN.
文摘将无线电能传输技术引入航天器的旋转供电中是推动航天器进一步发展的重要手段。而现有应用最广的磁耦合式无线电能传输技术(inductive power transfer,IPT)因成本高、重量大、存在涡流损耗等缺陷而难以在航天领域中得到大规模应用。而电场耦合式无线电能传输技术(capacitive power transfer,CPT)以其成本低、重量轻等优点,近年来受到广泛关注,在航天领域具有巨大潜力。从传统IPT技术在航天领域应用的缺陷入手,分析将CPT技术引入航天领域无线供电场景的重要性。进而介绍了CPT技术的发展历程与基本原理,并对CPT技术在轻量化、大功率、旋转型三个领域的研究现状进行综述来论证其在航天领域应用的潜力。最后总结了CPT技术在航天领域应用存在的问题并分析了解决这些问题可行的技术手段。
文摘根据要求,500 kV及以上输电线路必须装设在线监测设备,从而很好地辅助维护人员及时了解输电线路的实时状态。为保证在线监测设备在各种情况下高效运行,需要配备一套稳定、可靠、抗干扰能力强的供电系统。立足无线电能传输(Wireless Power Transmission,WPT)技术,并遵循国家倡导的绿色电网理念,提出一种射频取电无线电能传输技术,并围绕该技术的原理、设计展开论述,以期优化超高压输电线路监测设备的供电方式,进一步保障对超高压输电线路的实时监测,推动超高压输电线路的稳定运行。
文摘为解决建筑多电源供配电系统运行状态监测范围覆盖率较低的问题,提出基于无线通信的建筑多电源供配电系统运行状态监测方法。文章利用远距离无线电(Long Range Radio,LoRa)技术,融入ZigBee层次化协议架构理念,设计无线通信网络,部署无线监测网络,全面覆盖并实时监控建筑内多电源供配电系统的运行状态,通过先进的数据处理、信号放大、多维监测体系及异常检测机制,实时监测系统运行状态。实验结果表明,设计方法利用无线通信技术的优势,有效消除了监测盲区,提高了监测范围覆盖率,具有应用价值。