TD-AltBOC:A new COMPASS B2 modulation 被引量：20

TD-AltBOC:A new COMPASS B2 modulation

导出

摘要 AltBOC(15,10) is the baseline of COMPASS B2 signal modulation.It is a BOC-like signal having different PN codes in the lower and the upper main split lobes,which allow one signal service per lobe.The two lobes can be received and processed separately like two BPSK(10) signals,or coherently processed to achieve better performance.Interoperability among COMPASS B2,Galileo E5 and GPS L5 is also achievable using AltBOC modulation.However,Galileo's 4-code AltBOC has drawbacks such as low efficiency and great receiver complexity.This paper presents a new modulation type named TD-AltBOC (Time Division AltBOC).The signal generation scheme and receiving method are presented,and are compared with AltBOC in the areas of power spectrum,ranging accuracy,anti-multipath performance,anti-interference performance,processing flexibility and complexity.Analysis results show TD-AltBOC has similar spectrum characteristics,interoperability,flexibility and anti-interference performance with AltBOC.When the frontend bandwidth is more than 50 MHz,TD-AltBOC can achieve better ranging accuracy and anti-multipath performance.It also has such advantages as high efficiency and low receiver complexity.TD-AltBOC could be a good solution to COMPASS B2 navigation signal. AltBOC（15,10） is the baseline of COMPASS B2 signal modulation.It is a BOC-like signal having different PN codes in the lower and the upper main split lobes,which allow one signal service per lobe.The two lobes can be received and processed separately like two BPSK（10） signals,or coherently processed to achieve better performance.Interoperability among COMPASS B2,Galileo E5 and GPS L5 is also achievable using AltBOC modulation.However,Galileo＇s 4-code AltBOC has drawbacks such as low efficiency and great receiver complexity.This paper presents a new modulation type named TD-AltBOC （Time Division AltBOC）.The signal generation scheme and receiving method are presented,and are compared with AltBOC in the areas of power spectrum,ranging accuracy,anti-multipath performance,anti-interference performance,processing flexibility and complexity.Analysis results show TD-AltBOC has similar spectrum characteristics,interoperability,flexibility and anti-interference performance with AltBOC.When the frontend bandwidth is more than 50 MHz,TD-AltBOC can achieve better ranging accuracy and anti-multipath performance.It also has such advantages as high efficiency and low receiver complexity.TD-AltBOC could be a good solution to COMPASS B2 navigation signal.

作者 TANG ZuPing ZHOU HongWei WEI JiaoLong YAN Tao LIU YuQi RAN YiHang ZHOU YanLing

机构地区 Department of Electronics and Information Engineering Beijing Institute of Tracking and Telecommunication Technology

出处《Science China(Physics,Mechanics & Astronomy)》 SCIE EI CAS 2011年第6期1014-1021,共8页 中国科学：物理学、力学、天文学（英文版）

关键词信号调制指南针 TD 抗干扰性能互操作性测距精度 BOC调制 BPSK GNSS COMPASS signal structure TD-AltBOC signal modulation

分类号 TN911.3 [电子电信—通信与信息系统] TH762.3 [机械工程—精密仪器及机械]

引文网络
相关文献

参考文献7

1唐祖平,周鸿伟,胡修林,冉一航,刘禹圻,周艳玲.Compass导航信号性能评估研究[J].中国科学：物理学、力学、天文学,2010,40(5):592-602. 被引量：23
2唐祖平,胡修林,黄旭方.卫星导航信号设计中的抗多径性能分析[J].华中科技大学学报（自然科学版）,2009,37(5):1-4. 被引量：25
3Tang Z P.Research on relevant theory for GNSS signal design and evaluation[]..2009
4Pies L,Lestarquit L,et al.Software Simulation Tools for GNSS2 BOC Signal Analysis[].Procof ION GPS.2002
5Lestarquit L,Artaud G,Issler J L.AltBOCfor dummies or eve-rything you al ways wanted to know about AltBOC[].IONGNSSstInternational Technical Meeting of the SatelliteDivision.2008
6Galileo Project Office.European GNSS(Galileo)OpenService Signal in Space Interface Control Document[]..2010
7Gao G X.DME/TACAN Interference and Its Mitigation in L5/E5 Bands[].ION GNSS th International Technical Meeting of the Satellite Division.2007

二级参考文献20

1van Dierendonck A J, Fenton P, Ford T. Theory and performance of narrow correlate spacing in a GPS re- ceiver[J]. Journal of the Institute of Navigation, 1992, 39(3): 265-283.
2Parkinson B W, Jr James S J, Penina A, et al. Global positioning system: theory and applications, volume Ⅰ[M]. Washington: AIAA, 1996.
3Kaplan E D,Hegarty C J.GPS原理与应用[M].2版.寇艳红,译.北京:电子工业出版社,2007.
4Misra P,Enge P.全球定位系统-信号、测量与性能[M].2版.罗鸣,译.北京:电子工业出版社,2008.
5Markus I, Rodriguez J A A, Hein G W. Criteria for GNSS multipath performance assessment[C]// ION GNSS 18th International Technical Meeting of the Satellite Division. Washington: Institute of Navigation, 2005:2 166-2 177.
6Rodriguez J A A, Hein G W, Stefan W, et al. The MBOC modulation: the final touch to the galileo frequency and signal plan[C]//ION GNSS 20th International Technical Meeting of the Satellite Division. Washington: Institute of Navigation, 2007: 1 515- 1 529.
7Hein G W, Rodriguez J A A, Betz J W, et al. MBOC: the new optimized spreading modulation recommended for Galileo L1OS and GPS L1C[C]//IEEE/ION PLANS 2006. Washington: Institute of Navigation, 2006: 883-892.
8Eissfeller B, Hein G W, Winkel J, et al. Requirements on the galileo signal structure[C]//ION GPS 2000. Washington: Institute of Navigation, 2000: 1 772-1 781.
9Thomas B, Brian B, Hanspeter K. Selected signal analysis results for galileo[C]//ION GPS 2001. Washington: Institute of Navigation, 2001:1 291- 1 303.
10Phehs R E, Enge P. Multipath mitigation for narrowband receivers[C]// Position Location and Navi gation Symposium. San Diego: IEEE, 2000:30-36.

共引文献42

1唐祖平,周鸿伟,胡修林,冉一航,刘禹圻,周艳玲.Compass导航信号性能评估研究[J].中国科学：物理学、力学、天文学,2010,40(5):592-602. 被引量：23
2周艳玲,王代萍.CBOC调制方式及其性能分析[J].电讯技术,2010,50(7):21-25. 被引量：5
3冯晓超,桑怀胜,翟建勇,董军.GNSS接收机多径抑制性能检测技术[J].桂林电子科技大学学报,2010,30(4):290-293. 被引量：3
4黄磊,莫钧.GNSS信号兼容捕获算法[J].中国科学：物理学、力学、天文学,2011,41(5):645-652. 被引量：4
5XU Ying YUAN Hong.Navigation signal structure based on complex carrier modulation[J].Science China(Physics,Mechanics & Astronomy),2011,54(6):1035-1045. 被引量：3
6周艳玲,胡修林,唐祖平.长椭圆球波函数在卫星导航中的应用研究[J].宇航学报,2011,32(9):1890-1894. 被引量：6
7张锴,李井源,张勇虎,王飞雪.带限信道中准相干码相关参考波形技术多径抑制性能分析[J].国防科技大学学报,2012,34(2):64-69. 被引量：4
8李豹,许江宁,曹可劲,朱银兵.北斗二代导航信号抗多径性能分析与仿真[J].中国惯性技术学报,2012,20(3):339-342. 被引量：17
9张锴,刘瀛翔,倪少杰,王飞雪.QStrobe:一种高阶BOC卫星导航信号的无模糊多径抑制算法[J].宇航学报,2012,33(11):1674-1680. 被引量：6
10宿晨庚,郭树人,周鸿伟.新型GNSS信号波形设计[J].北京航空航天大学学报,2012,38(12):1676-1681. 被引量：2

同被引文献133

1谭述森.北斗卫星导航系统的发展与思考[J].宇航学报,2008,29(2):391-396. 被引量：178
2GUO Rui1,2,3,4,HU XiaoGong2,4,LIU Li1,WU XiaoLi1,HUANG Yong2,4 & HE Feng1 1 Beijing Global Information Application and Development Center,Beijing 100094,China,2 Shanghai Astronomical Observatory,Chinese Academy of Sciences,Shanghai 200030,China,3 Graduate University of Chinese Academy of Sciences,Beijing 100049,China,4 Space Navigation and Positioning Technology,Laboratory of Shanghai Municipal,Shanghai 200030,China.Orbit determination for geostationary satellites with the combination of transfer ranging and pseudorange data[J].Science China(Physics,Mechanics & Astronomy),2010,53(9):1746-1754. 被引量：13
3赵宗贵,曹可劲.一种基于对抗效果的地面防空作战威胁估计方法[J].中国电子科学研究院学报,2006,1(2):114-122. 被引量：8
4帅平,曲广吉,陈忠贵.区域导航星座分析设计研究[J].空间科学学报,2006,26(4):268-276. 被引量：14
5聂俊伟,李峥嵘,芈小龙,王飞雪.伽利略系统信号调制体制研究[J].全球定位系统,2006,31(6):1-6. 被引量：9
6江力,孙建伶,王新宇,杨长生.一种基于动态词典的英文文本压缩算法[J].江南大学学报（自然科学版）,2007,6(4):442-445. 被引量：2
7Perello G, Malik M, Falcone M. Selected RNSS measurements and analysis [ C ]. Toulouse: Proceedings of ENCGNSS, 2008.
8Weiler R, Kakarlapudi S, Navigation Payloads vs. Receivers: sampling frequency effect [C]. Fourth European Workshop on GNSS Signals and Signal Processing, 2009.
9Soellner M, Kurzhals C, Heehenblaikner G, et al. GNSS offline signal quality assessment [ C ]. Proceedings of the 21st International Technical Meeting of the Satellite Division, 2008: 909-920.
10Issler J L, Paonni M, Eissfeller B. Toward centimetric positioning thanks to L- and S-Band GNSS and to meta-GNSS signals [C]. Programme and Abstract Book-Sth ESA Workshop on Satellite Navigation Technologies and European Workshop on GNSS Signals and Signal Processing, 2010.

引证文献20

1高敏,李晓东,王海军.北斗卫星导航信号多径性能分析[J].遥测遥控,2013,34(2):35-40. 被引量：2
2SUN FuPing LIU Shuai ZHU XinHui MEN BaoHong.Research and progress of Beidou satellite navigation system[J].Science China(Information Sciences),2012,55(12):2899-2907. 被引量：20
3孟庆丰,焦国太,王陆潇,耿生群,丁洁.AltBOC导航信号质量评估与分析[J].中北大学学报（自然科学版）,2013,34(4):474-480. 被引量：1
4崔小准,李懿,武向军,陈宇,樊永军.Measuring Absolute Delay of RNSS Signal Channel Using Digital Envelope Detection[J].Journal of Donghua University(English Edition),2013,30(2):114-117. 被引量：3
5李颖,赵风海,李金海,孙金海,阎跃鹏.Galileo系统E1/E5/E6频段信号分析与仿真[J].计算机工程与设计,2014,35(2):368-375. 被引量：3
6苏伟朋,郝永生,李跟臣,邱国龙,李冬鹏.针对战情信息的LZW压缩算法研究[J].计算机与数字工程,2014,42(2):227-230.
7崔小准,陈宇,董海青,王庆华,朱剑涛.BOC信号通道零值精密测试方法[J].重庆大学学报（自然科学版）,2014,37(4):65-70. 被引量：3
8徐成涛,刘瀛翔,唐小妹,王飞雪.双边带调制信号间的互相关影响及分析[J].中南大学学报（自然科学版）,2014,45(4):1098-1104.
9袁琳峰,郭承军,展红英.一种新型北斗B2频段信号的设计[J].科学技术与工程,2014,22(19):243-247.
10杨建雷,金天,黄智刚,秦红磊.补0的TD-AltBOC多信号分量联合捕获方法[J].哈尔滨工程大学学报,2014,35(11):1427-1433. 被引量：2

二级引证文献64

1谢剑锋,胡钢,马胜.基于Android技术的北斗/GPS车载导航系统设计[J].单片机与嵌入式系统应用,2013,13(10):76-79. 被引量：3
2沈达,张立新.基于北斗/GPS定位装置的研制[J].电子世界,2013(23):67-67. 被引量：1
3YANG WenKe,GONG Hang,LIU ZengJun,LI YuanLing,SUN GuangFu.Improved two-way satellite time and frequency transfer with Multi-GEO in BeiDou navigation system[J].Science China(Information Sciences),2014,57(2):163-177. 被引量：4
4李松亭,李建成,谷晓忱,庄钊文.Dual-band RF receiver for GPS-L1 and compass-B1 in a 55-nm CMOS[J].Journal of Semiconductors,2014,35(2):92-101. 被引量：1
5崔小准,李懿,丛飞,司端国,王庆华.输入输出相关处理的RDSS通道零值测试[J].中国计量学院学报,2014,25(1):22-27. 被引量：2
6崔小准,康成斌,刘安邦,刘崇华,刘天雄.星间链路发射机时延零值的数字标定算法[J].宇航学报,2014,35(9):1044-1049. 被引量：4
7戴志军,徐余法,苏强强,梅晓娟.基于北斗授时定位的太阳能追光系统[J].上海电机学院学报,2014,17(3):144-150. 被引量：4
8Liu Junhong,Gu Defeng,Ju Bing,Yao Jing,Duan Xiaojun,Yi Dongyun.Basic performance of BeiDou-2 navigation satellite system used in LEO satellites precise orbit determination[J].Chinese Journal of Aeronautics,2014,27(5):1251-1258. 被引量：9
9王万昭,王惠良,和志强.基于北斗导航系统的航标遥控遥测单元设计[J].河北工业科技,2014,31(2):156-159. 被引量：3
10刘崇华,崔小准,王璐,赵毅,付林春.数字波形匹配的导航信号载波精密同步方法[J].中国计量学院学报,2014,25(4):349-354.

1数显圆规[J].文体用品与科技,2013(15):5-5.
2高顺,赵永瑞,张春蕊,李云祥,金纬地.经验系数对往复式压缩机动力学的影响[J].现代制造技术与装备,2015,51(4):40-41.
3Yin Pumin.Adjusting the Compass[J].ChinAfrica,2015,7(4):18-21.
4曲伟,叶红安.A Novel Micro-Displacement Measuring Method Based on Optical Path Modulation[J].Chinese Physics Letters,2010,27(7):119-122. 被引量：1
5张桐,佟首峰.准直失配对空间相干激光通信混频效率的影响[J].长春理工大学学报（自然科学版）,2013,36(1):13-15. 被引量：4
6伊国胜,王江,韩春晓,邓斌,魏熙乐,李诺.The modulation of brain functional connectivity with manual acupuncture in healthy subjects:An electroencephalograph case study[J].Chinese Physics B,2013,22(2):550-558. 被引量：3
7LU Fangjun.Status of the Hard X-ray Modulation Telescope Project[J].空间科学学报,2014,34(5):544-546. 被引量：2
8LU Fangjun a main technical principal of the HXMT project.Hard X-ray Modulation Telescope[J].Bulletin of the Chinese Academy of Sciences,2011,25(3):235-236.
9Seo-young HWANG,Yo-sub HWANG,Jang-myung LEE.A Precise Localization Method for a High Speed Mobile Robot Using iGS and Dual Compass[J].Journal of Measurement Science and Instrumentation,2011,2(3):276-282.
10阿锐.新德克Compass 1.5MK Ⅱ指南针监听音箱[J].视听技术,2005(7):35-37.

Science China(Physics,Mechanics & Astronomy)

2011年第6期

浏览历史

内容加载中请稍等...