Matthew Ridley scite author profile

Matthew Ridley

3Publications

88Citation Statements Received

47Citation Statements Given

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Affiliations

Northrop Grumman (United States), University of Sydney, Australian Centre for Robotic Vision

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The ANSER Project: Data Fusion across Multiple Uninhabited Air Vehicles

Sukkarieh¹,

Nettleton

Kim

et al. 2003

int j robot res

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The objective of the autonomous navigation and sensing experiment research (ANSER) project is to demonstrate decentralized data fusion (DDF) and simultaneous localization and map building (SLAM) across multiple uninhabited air vehicles (UAVs). To achieve this objective, the project specifies the development of four UAVs, where each UAV houses up to two terrain sensors and an INS/GPS navigation system. The terrain sensors include a scanning radar, laser/vision and standard vision system. The DDF concept has to be shown to be effective both on a single UAV and on multiple UAVs. The proof of the concept will lie in the ability of the DDF structure to conduct multi-target tracking problems as well as SLAM. To obtain this goal, a number of subgoals are required, most of which have never been attempted before on a research level. The objective of this paper is to present these goals as an overview of the ANSER project along with some simulated and real-time results.

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A decentralised particle filtering algorithm for multi-target tracking across multiple flight vehicles

Ong

Upcroft

Bailey

et al. 2006

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This paper presents a decentralised particle filtering algorithm that enables multiple vehicles to jointly track 3D features under limited communication bandwidth. This algorithm, applied within a decentralised data fusion (DDF) framework, deals with correlated estimation errors due to common past information when fusing two discrete particle sets. Our solution is to transform the particles into Gaussian mixture models (GMMs) for communication and fusion. Not only can decentralised fusion be approximated by GMMs, but this representation also provides summaries of the particle set. Less bandwidth per communication step is required to communicate a GMM than the particle set itself hence conversion to GMMs for communication is an advantage. Real airborne data is used to demonstrate the accuracy of our decentralised particle filtering algorithm for airborne tracking and mapping.

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Rich probabilistic representations for bearing only decentralised data fusion

Upcroft

Ong

Kumar

et al. 2005

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Abstract-The aim of this paper is to demonstrate the validity of using Gaussian mixture models (GMM) for representing probabilistic distributions in a decentralised data fusion (DDF) framework. GMMs are a powerful and compact stochastic representation allowing efficient communication of feature properties in large scale decentralised sensor networks. It will be shown that GMMs provide a basis for analytical solutions to the update and prediction operations for general Bayesian filtering. Furthermore, a variant on the Covariance Intersect algorithm for Gaussian mixtures will be presented ensuring a conservative update for the fusion of correlated information between two nodes in the network. In addition, purely visual sensory data will be used to show that decentralised data fusion and tracking of non-Gaussian states observed by multiple autonomous vehicles is feasible.

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Matthew Ridley

The ANSER Project: Data Fusion across Multiple Uninhabited Air Vehicles

A decentralised particle filtering algorithm for multi-target tracking across multiple flight vehicles

Rich probabilistic representations for bearing only decentralised data fusion

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