基于LoRa的地下停车场车辆定位系统设计
|
摘要
利用LoRa在抗干扰、低功耗、低成本方面的优势,设计了一种基于LoRa的地下停车场车辆定位系统;针对地下停车场特殊通信环境,对非视距(Not Line of Sight,NLOS)时延模型进行分析;将排序算法与典型均值滤波算法相结合,改善典型均值滤波算法只能将脉冲噪声在滤波窗口内均摊而不能彻底消除的固有缺陷;通过参数拟合的方法,对地下停车场环境下规律性的NLOS时延和节点模块处理误差进行抑制;对三边定位算法进行优化,提高定位精度,避免无解情况的发生;在实际环境中进行测试,验证了系统的可行性。
With the advantages of LoRa in anti-interference,low power consumption and low cost,a vehicle positioning system based on LoRa for underground parking lots is designed.The NLOS delay model is analyzed in the special communication environment of underground parking lots.In this paper we combine the sorting algorithm with the typical mean filtering algorithm to overcome the downside of the typical mean filtering algorithm that the impulse noise can only be shared equally in the filter window and cannot be completely eliminated.Besides,we use the method of parameter fitting to suppress the regular NLOS delay in underground parking environment and processing the error of the label node module.We also optimize the Trilateration Method to improve the accuracy of positioning and avoid the situation of the occurrence of no solution.The system is applied in actual environment and the feasibility of the system is verified.
With the advantages of LoRa in anti-interference,low power consumption and low cost,a vehicle positioning system based on LoRa for underground parking lots is designed.The NLOS delay model is analyzed in the special communication environment of underground parking lots.In this paper we combine the sorting algorithm with the typical mean filtering algorithm to overcome the downside of the typical mean filtering algorithm that the impulse noise can only be shared equally in the filter window and cannot be completely eliminated.Besides,we use the method of parameter fitting to suppress the regular NLOS delay in underground parking environment and processing the error of the label node module.We also optimize the Trilateration Method to improve the accuracy of positioning and avoid the situation of the occurrence of no solution.The system is applied in actual environment and the feasibility of the system is verified.
引文
[1]张秋霞,王凌云.基于GPS/GSM汽车跟踪定位系统的设计与实现[J].电子设计工程,2017,25(7):27-30.
[2]曹永升,梁胜祥,谢冠恒,等.移动定位技术的现状与发展趋势[J].电子技术应用,2015,41(1):17-20.
[3]倪瑛,戴娟.ZigBee定位技术的研究[J].南京工业职业技术学院学报,2013,13(2):43-46.
[4]赵静,苏光添.LoRa无线网络技术分析[J].移动通信,2016,40(21):50-57.
[5]杨磊,梁活泉,张正,等.基于LoRa的物联网低功耗广域系统设计[J].信息通信技术,2017,11(1):40-46.
[6]Augustin A,Yi J,Clausen T,et al.A Study of LoRa:Long Range&Low Power Networks for the Internet of Things[J].Sensors,2016,16(9):1466
[7]贾树利,张强.无线定位技术研究[J].黑龙江科技信息,2011(9):81.
[8]刘世森,汤朝明,吴畏.无线传感器网络中的TOA测距方法研究[J].工矿自动化,2012,38(3):31-34.
[9]Hara S,Anzai D,Yabu T,et al.A perturbation analysis on the performance of TOA and TDOA localization in mixed LOS/NLOS environments[J].IEEE Transactions on Communications,2013,61(2):679-689.
[10]杨洪娟,刘宁庆,李博.一种改进的减小NLOS影响的定位算法[J].科学技术与工程,2009,9(17):4969-4972.
[11]易子麟,尹东,胡安洲,等.基于非局部均值滤波的SAR图像去噪[J].电子与信息学报,2012,34(4):950-955.
[12]陈磊,刘伟.基于RSSI的测距优化和三边定位算法研究[J].湖北工业大学学报,2016,31(2):49-52.
[2]曹永升,梁胜祥,谢冠恒,等.移动定位技术的现状与发展趋势[J].电子技术应用,2015,41(1):17-20.
[3]倪瑛,戴娟.ZigBee定位技术的研究[J].南京工业职业技术学院学报,2013,13(2):43-46.
[4]赵静,苏光添.LoRa无线网络技术分析[J].移动通信,2016,40(21):50-57.
[5]杨磊,梁活泉,张正,等.基于LoRa的物联网低功耗广域系统设计[J].信息通信技术,2017,11(1):40-46.
[6]Augustin A,Yi J,Clausen T,et al.A Study of LoRa:Long Range&Low Power Networks for the Internet of Things[J].Sensors,2016,16(9):1466
[7]贾树利,张强.无线定位技术研究[J].黑龙江科技信息,2011(9):81.
[8]刘世森,汤朝明,吴畏.无线传感器网络中的TOA测距方法研究[J].工矿自动化,2012,38(3):31-34.
[9]Hara S,Anzai D,Yabu T,et al.A perturbation analysis on the performance of TOA and TDOA localization in mixed LOS/NLOS environments[J].IEEE Transactions on Communications,2013,61(2):679-689.
[10]杨洪娟,刘宁庆,李博.一种改进的减小NLOS影响的定位算法[J].科学技术与工程,2009,9(17):4969-4972.
[11]易子麟,尹东,胡安洲,等.基于非局部均值滤波的SAR图像去噪[J].电子与信息学报,2012,34(4):950-955.
[12]陈磊,刘伟.基于RSSI的测距优化和三边定位算法研究[J].湖北工业大学学报,2016,31(2):49-52.
© 2004-2018 中国地质图书馆版权所有 京ICP备05064691号 京公网安备11010802017129号 地址:北京市海淀区学院路29号 邮编:100083 电话:办公室:(+86 10)66554848;文献借阅、咨询服务、科技查新:66554700 |