Localization algorithms for multilateration (MLAT) systems in airport surface surveillance

Mantilla-Gaviria, Ivan A.; Leonardi, Mauro; Galati, Gaspare; Tejedor, Juan Vicente Balbastre

doi:10.1007/s11760-013-0608-1

Cited by 47 publications

(40 citation statements)

References 20 publications

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“…Multilateration based on Least-Squares (MLS) [15] is one widely used cyber method. Also, the localization error of MLS was studied to improve the localization accuracy [16]. Cramer Rao Bound is used to calculate the localization error bound [17][18][19], in which probability density function of noise is needed to calculate Fisher information matrix.…”

Section: Related Workmentioning

confidence: 99%

Linear system construction of multilateration based on error propagation estimation

Zhang

Gao

et al. 2016

J Wireless Com Network

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Iterative localization algorithms are critical part in the control of mobile autonomous robots because they feed fundamental position information to the robots. In a harsh unknown environment, the estimation of environmental noise is hardly obtained during the movement of the robots. It means that the state-of-the-art methods, which increase localization accuracy using error management, are unsuitable. In this paper, we deduced an upper bound of the localization error without knowing the precise model of environment noise when the anchor nodes have position errors. Utilizing the minimum upper bound, we can construct an optimal localization linear system of iterative localization algorithms based on least square. An algorithm of generating localization linear system is proposed by using the minimum upper bound. The algorithm reduces the impact of the shortage of environmental information on localization error propagation. Our simulation results show that the algorithm is insensitive to noise and can improve the localization accuracy by constructing a proper localization linear system with a high probability.

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Section: Related Workmentioning

confidence: 99%

Linear system construction of multilateration based on error propagation estimation

Zhang

Gao

et al. 2016

J Wireless Com Network

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“…Due to the non-linear relationship between the TDOA measurements and the emitter position, several approaches have been developed to linearize this relationship. This resulted in the different type of lateration algorithms and can be grouped as linear and non-linear approach [2, 7,8]. The nonlinear approach lateration algorithm utilizes linear approximation methods and iteration process to establish a linear relationship between the TDOA measurements and emitter position [2, 9,10].…”

Section: Introductionmentioning

confidence: 99%

Position estimation performance evaluation of a linear lateration algorithm with an SNR-based reference station selection technique

Yaro

2018

Nig. J. Tech.

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The position estimation accuracy of the multilateration system lateration algorithm depends on several factors such as the number of stations deployed, time difference of arrival (TDOA) estimation technique and the choice of reference station. In this paper, a technique to select the suitable reference station for the lateration algorithm based on received signal-to-noise (SNR) at each of the deployed stations is presented. The position estimation performance analysis of the lateration algorithm with the reference selection technique is carried out and improvement in the position estimation accuracy is determined by comparing it with the convention approach of using fixed reference station. Monte Carlo simulation results when compared with the conventional approach based on a square station configuration showed a reduction in the position estimation error of about 20%.

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“…Multilateration is also proposed as a very efficient integrity check for ADS-B position data (see, for example, [11][12][13]). Jamming and message deletion vulnerabilities cannot be reduced with encryption or multilateration and are closely related to the ADS-B receiver hardware and software implementations that are developed according to the international "standards" or "recommendations" and require particular anti-jamming techniques implemented in the receiver (see for example [7]).…”

Section: Introductionmentioning

confidence: 99%

Air Traffic Security: Aircraft Classification Using ADS-B Message’s Phase-Pattern

2017

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Automatic Dependent Surveillance-Broadcast (ADS-B) is a surveillance system used in Air Traffic Control. With this system, the aircraft transmits their own information (identity, position, velocity, etc.) to any equipped listener for surveillance scope. The ADS-B is based on a very simple protocol and does not provide any kind of authentication and encryption, making it vulnerable to many types of cyber-attacks. In the paper, the use of the airplane/transmitter carrier phase is proposed as a feature to perform a classification of the aircraft and, therefore, distinguish legitimate messages from fake ones. The feature extraction process is described and a classification method is selected. Finally, a complete intruder detection algorithm is proposed and evaluated with real data.

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Localization algorithms for multilateration (MLAT) systems in airport surface surveillance

Cited by 47 publications

References 20 publications

Linear system construction of multilateration based on error propagation estimation

Linear system construction of multilateration based on error propagation estimation

Position estimation performance evaluation of a linear lateration algorithm with an SNR-based reference station selection technique

Air Traffic Security: Aircraft Classification Using ADS-B Message’s Phase-Pattern

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