Hybrid tracking of maneuvering multiple-aircraft in 3D space

Hybrid tracking of maneuvering multiple-aircraft in 3D space

This paper investigates a design of three-dimensional multiple-aircraft tracking and identification. For this, we combined the nonlinear 3D constant-turn model and multiple-target tracking and identity management (MTIM) algorithm. The MTIM algorithm, proposed by Hwang, can keep track of multiple air...

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Bibliographische Detailangaben
Hauptverfasser: Kyungho Yoo, Daehee Won, Sangkyung Sung, Young Jae Lee
Format: Tagungsbericht
Sprache:eng
Schlagworte:
3D space
Aerospace engineering
Air traffic control
Aircraft navigation
Angular velocity
Filters
Global Positioning System
GPS
Hybrid Estimation
Identity management systems
IMM
MTIM
State estimation
Target tracking
Traffic control
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Beschreibung
Zusammenfassung:This paper investigates a design of three-dimensional multiple-aircraft tracking and identification. For this, we combined the nonlinear 3D constant-turn model and multiple-target tracking and identity management (MTIM) algorithm. The MTIM algorithm, proposed by Hwang, can keep track of multiple aircraft and their identities. We used a conventional hybrid estimator, known as interacting multiple model (IMM) algorithm, for estimating the continuous and discrete state simultaneously. Based on the automatic dependent surveillance-broadcast (ADS-B) concept, the position and velocity of the aircraft is assumed to be obtained from the GPS navigation data. The simulation study demonstrates that the extended framework of the MTIM algorithm performs well in 3D space.