Ethics and Technology

Principles of Satellite Navigation System

 


Principles of Satellite Navigation System

Abstract

Satellite navigation is the era that uses navigation satellites to transmit positioning indicators, so as to offer actual-time positioning for customers within the air, on the floor, at sea, and in area. Since it is able to provide excessive-precision records consisting of three-dimensional function, speed and time (PVT) for any location and on any humans and objects, it has unprecedented benefits over different navigational technologies. Thus, it is able to be broadly applied in civil fields which include transportation, surveying, mapping, telecommunications, water conservancy, fishery, forest hearth prevention, catastrophe discount, and catastrophe relief. It can also be used in unarmed fields such as aerospace and missile guidance. Consequently, the satellite navigation machine has become a keystone for a rustic’s space information infrastructure, and an important indicator to mirror its repute as a current u . S ., a high-quality electricity, and the country’s comprehensive countrywide energy. Major international locations and organizations all over the international have been vigorously growing satellite navigation systems with numerous characteristics. @ Read More kexino1403 lizahadon     

Keywords

These key phrases have been introduced with the aid of gadget and no longer via the authors. This procedure is experimental and the keywords can be up to date as the gaining knowledge of algorithm improves.

The original version of this chapter become revised: For distinctive records please see Erratum. The erratum to this bankruptcy is to be had at 10.1007/978-981-10-5571-3_7

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References

Misra P, Enge P. Global positioning machine: indicators, measurements, and performance. Lincoln, MA: Ganga-Jamuna Press; 2004.

Kaplan ED, Hegarty CJ. Understanding GPS: concepts and packages. Artech House; 2005.

Van Nee DJR, Coenen AJRM. New fast GPS code-acquisition technique the usage of FFT. Electron Lett. 1991;27(2):158–60.

Sklar JR. Interference mitigation approaches for the global positioning device. Lincoln Lab J. 2003;14(2):489–509.

O’Brien AJ. Adaptive antenna arrays for precision GNSS receivers. PhD dissertation. The Ohio State University; 2009.

Amin MG, Sun W. A novel interference suppression scheme for global navigation satellite tv for pc systems the usage of antenna array. IEEE J Sel Areas Commun. 2005;23(five):999–1012.

Borio D. GNSS acquisition inside the presence of non-stop wave interference. IEEE Trans Aerosp Electron Syst. 2010;forty six(1):forty seven–60.

Hinedi S, Statman JI. High-dynamic GPS trackings final report. JPL Publication. 1988;88–35:nine–11.

Humphrey TE, Ledvina BM, Psiaki ML, et al. Assessing the spoofing danger: development of a portable GPS civilian spoofer. In: The 21th international technical assembly of the satellite division of the Institute of Course plotting (ION GNSS), 16–19 Sep. 2008, Savannah Georgia, USA. 2008. P. 2314–25.

Daneshmand S, Jafarnia-Jahromi A, Broumandan A, et al. A low complexity GNSS spoofing mitigation technique the use of a double antenna array. GPS World Mag. 2011;22(12):forty four–6.

Fante RL, Vaccaro JJ. Cancellation of jammers and jammer multipath in a GPS receiver. IEEE Aerosp Electron Syst Mag. 1998;thirteen(eleven):25–eight.

Kalyanarman SK, Braasch MS, Kelly JM. Code monitoring architecture influence on GPS service multipath. IEEE Trans Aerosp Electron Syst. 2006;42(2):548–sixty one.

Daneshmand S, Broumandan A, Asl N, et al. GNSS multipath mitigation with a shifting antenna array. IEEE Trans Aerosp Electron Syst. 2013;forty nine(1):693–8.

Hegarty C, Kim T, Ericson S. Methodology for figuring out compatibility of GPS L5 with existing systems and preliminary outcomes. In: Proceedings of the Institute of Navigation annual assembly. 1999. Number 1, p. 1–10.

Gao GX, Denks H, Steingassnd A, et al. DME interference mitigation based on flight take a look at information over European warm spot. GPS Solut. 2013;17(4):561–73.

Lu D, Wu R, Liu H. Global positioning device anti-jamming set of rules primarily based on duration repetitive CLEAN. IET Radar Sonar Navig. 2013;7(2):164–9.

Wang W, Du Q, Wu R, et al. Interference suppression with flat benefit constraint for satellite tv for pc navigation systems. IET Radar Sonar Navig. 2015;9(7):852–6.

Wu R, Li C, Lu D. Power minimization with spinoff constraints for high dynamic GPS interference suppression. Sci China: Inf Sci. 2012;55(4):857–66.

Lu D, Wu R, Wang W. Robust widenull anti-jamming algorithm for high dynamic GPS. In: International convention on signal processing lawsuits. 2012. P. 378–81.

Ma Y, Lu D, Wang W, et al. A high-dynamic null-widen GPS anti-jamming algorithm based on statistical version of the converting interference DOA. China Satell Navig Conf. 2014;(I):695–702.

Wu R, Ge L, Lu D, et al. A excessive-dynamic wideband interference suppression in GNSS through reduced-rank STAP. In: Proceedings of the 28th worldwide technical assembly of the satellite division of the Institute of Course plotting (ION GNSS + 2015). 2015.

Lu D, Li S, Wu R. Simultaneous null and predominant lobe widening for jamming suppression in mindset excessive-dynamic GNSS receiver. In: Proceedings of the 28th worldwide technical assembly of the satellite tv for pc department of the Institute of Navigation (ION GNSS + 2015). 2015.

Zhang Y, Wang L, Wang W, et al. Spoofing jamming suppression techniques for GPS based totally on DOA estimating. China Satell Navig Conf. 2014;(I):683–ninety three.

Zhang Y, Wang L, Wang W, et al. Spoofing interference suppression for GNSS primarily based on estimating guidance vectors. China Satell Navig Conf. 2015;I:765–71.

Wang L, Wu R, Zhang Y, et al. Multi-kind interference suppression for GNSS primarily based on despread-respread technique. In: Proceedings of the 28th global technical assembly of the satellite tv for pc department of the Institute of Navigation (ION GNSS + 2015). 2015.

Wu R, Jia Q, Wang W. Efficient FFT-based algorithms for multipath interference mitigation in GNSS. In: Fourier remodel sign processing and physical sciences. INTECH; 2015. @ Read More oneloopmarketing1403 aidasinc1403