A typical electronic communication system, such as GPS receiver, unmanned aerial vehicle's (UAV's) data link, and radar, faces multi-dimensional and complicated electromagnetic interference in operating environmen...A typical electronic communication system, such as GPS receiver, unmanned aerial vehicle's (UAV's) data link, and radar, faces multi-dimensional and complicated electromagnetic interference in operating environment. To measure the anti- interference performance of the electronic communication system in the complicated electromagnetic interference environment, a method of multi-dimensional and complicated electromagnetic interference hardware-in-the-loop simulation in an anechoic room is proposed. It takes into account the characteristics of interference signals and the positional relationship among interference, the receiver and the transmitter of the electronic communication system. It uses the grey relational method and the angular domain mapping error correction method to control the relevant parameters, the microwave switch and so on, thus achieving the approximately actual mapping of the outdoor multi-dimensional and complicated electromagnetic interference in the anechoic room. To verify the effectiveness of this method, the multi-dimensional and complicated electromagnetic interference of the UAV's data link is simulated as an example. The results show that the degree of correlation between the calculated signal to interference ratio of the data link receiver in the actual scene and the measured signal to interference ratio of the data link receiver simulated with this method in the anechoic room is 0.968 1, proving that the method is effective for simulating the complicated electromagnetic interference.展开更多
本文主要介绍了SURFER图件到M APG IS图件的转换,使用M APG IS软件中的图象转换、控制点文件及图件“误差校正”等功能绘制激电测深断面图的详细方法和步骤,解决了剖面地形起伏不平和AB/2供电极距不等间距情况下计算机制作激电测深断面...本文主要介绍了SURFER图件到M APG IS图件的转换,使用M APG IS软件中的图象转换、控制点文件及图件“误差校正”等功能绘制激电测深断面图的详细方法和步骤,解决了剖面地形起伏不平和AB/2供电极距不等间距情况下计算机制作激电测深断面图方面的难题。展开更多
针对广域分布式新能源普遍缺乏新能源资源监测装置,而导致功率预测精度不足的问题,提出一种基于气象资源插值与迁移学习的广域分布式光伏功率预测方法。首先,基于地理信息和粗颗粒气象数据,对广域范围下的气象资源数据进行网格化插值;其...针对广域分布式新能源普遍缺乏新能源资源监测装置,而导致功率预测精度不足的问题,提出一种基于气象资源插值与迁移学习的广域分布式光伏功率预测方法。首先,基于地理信息和粗颗粒气象数据,对广域范围下的气象资源数据进行网格化插值;其次,依据插值结果对具有相同气象特征的光伏电站进行自组织映射(self-organizing maps,SOM)网络聚类,并对每一类中的光伏电站进行迁移学习的源域和目标域的划分,以保证预测精度;然后,结合长短期记忆(long short term memory,LSTM)网络,引入误差修正环节,建立源域至目标域的双迁移模型;最后,以浙江省绍兴市的分布式光伏电站为实例验证该方法的有效性。相比于对各个光伏电站单独建模,所提方法能将目标域光伏电站的训练速度提高10倍以上,且在预测精度方面也有显著提升,具有一定的推广应用价值。展开更多
基金supported by the National Natural Science Foundation of China(61571368)the certain Ministry Foundation(2014607B006)
文摘A typical electronic communication system, such as GPS receiver, unmanned aerial vehicle's (UAV's) data link, and radar, faces multi-dimensional and complicated electromagnetic interference in operating environment. To measure the anti- interference performance of the electronic communication system in the complicated electromagnetic interference environment, a method of multi-dimensional and complicated electromagnetic interference hardware-in-the-loop simulation in an anechoic room is proposed. It takes into account the characteristics of interference signals and the positional relationship among interference, the receiver and the transmitter of the electronic communication system. It uses the grey relational method and the angular domain mapping error correction method to control the relevant parameters, the microwave switch and so on, thus achieving the approximately actual mapping of the outdoor multi-dimensional and complicated electromagnetic interference in the anechoic room. To verify the effectiveness of this method, the multi-dimensional and complicated electromagnetic interference of the UAV's data link is simulated as an example. The results show that the degree of correlation between the calculated signal to interference ratio of the data link receiver in the actual scene and the measured signal to interference ratio of the data link receiver simulated with this method in the anechoic room is 0.968 1, proving that the method is effective for simulating the complicated electromagnetic interference.
文摘针对广域分布式新能源普遍缺乏新能源资源监测装置,而导致功率预测精度不足的问题,提出一种基于气象资源插值与迁移学习的广域分布式光伏功率预测方法。首先,基于地理信息和粗颗粒气象数据,对广域范围下的气象资源数据进行网格化插值;其次,依据插值结果对具有相同气象特征的光伏电站进行自组织映射(self-organizing maps,SOM)网络聚类,并对每一类中的光伏电站进行迁移学习的源域和目标域的划分,以保证预测精度;然后,结合长短期记忆(long short term memory,LSTM)网络,引入误差修正环节,建立源域至目标域的双迁移模型;最后,以浙江省绍兴市的分布式光伏电站为实例验证该方法的有效性。相比于对各个光伏电站单独建模,所提方法能将目标域光伏电站的训练速度提高10倍以上,且在预测精度方面也有显著提升,具有一定的推广应用价值。