6533b7cefe1ef96bd12572bc

RESEARCH PRODUCT

ETP/GDOP Behavior Study for N-Sensors Arrays ina Multilateration Radar System

Juan Vicente Balbastre-tejedorElías De Los ReyesIvan A. Mantilla-gaviriaRuy Fernando Ruiz-mojica

subject

Dilution of precision3d positioninglcsh:TExpected Theoretical Precision Geometric Dilution of Precision MultilaterationMultilaterationlcsh:TechnologyRadar systemsSystem qualityWide area multilaterationGeographylcsh:TA1-2040Antenna height considerationsexpected theoretical precision geometric dilution of precision multilaterationlcsh:Engineering (General). Civil engineering (General)CartographyRemote sensing

description

In this paper, we evaluated the ETP (Expected Theoretical Precision) and GDOP (Geometric Dilution Of Precision) enhancement related to the number of sensors in a Multilateration radar system. An introduction about the principles of the Multilateration radar system basis operation is described, then, the formulation for evaluation the ETP/GDOP of the 3D positioning is shown. We observed that the ETP and GDOP enhance with the increase of the number of sensors. A substantial improvement was obtained until nine sensors but, for more sensors that improvement is reduced. Results for a 75km×75km area are shown, including LAM (Local Area Multilateration) and WAM (Wide Area Multilateration) settings and different values of the aircraft height (5m for LAM surface, 5000m and 8000m for WAM). Additional parameters are shown in order to evaluate the system quality. These parameters are the Expected Theoretical Precision Gain (ETP Gain), Homogenization Level (HL) and Percentage Over a Reference Value (PORV). Due to the proportionality between the ETP and GDOP, only ETP results are shown. In the simulations the same settings of the sensors was used; 3ns for instrumental error and 27m for antenna height. These are typically values for real Multilateration radar system used for the air traffic control.

yearjournalcountryeditionlanguage
2009-06-30ITECKNE
https://doi.org/10.15332/iteckne.v6i1.299