Data fusion to improve trajectory tracking in a Cooperative Surveillance Multi-Agent Architecture

Castanedo, Federico; García, Jesús; Patricio Guisado, Miguel Ángel; Molina, José M.

Publication:
Data fusion to improve trajectory tracking in a Cooperative Surveillance Multi-Agent Architecture

Identifiers

URI: http://hdl.handle.net/10016/9328

ISSN: 1566-2535

DOI: 10.1016/j.inffus.2009.09.002

Files

data_molina_if_2010.pdf (484.06 KB)

Publication date

2010-07

Authors

Castanedo, Federico

García, Jesús

Patricio Guisado, Miguel Ángel

Molina, José M.

Publisher

Elsevier

Impact

Export

Abstract

In this paper we present a Cooperative Surveillance Multi-Agent System (CS-MAS) architecture extended to incorporate dynamic coalition formation. We illustrate specific coalition formation using fusion skills. In this case, the fusion process is divided into two layers: (i) a global layer in the fusion center, which initializes the coalitions and (ii) a local layer within coalitions, where a local fusion agent is dynamically instantiated. There are several types of autonomous agent: surveillance–sensor agents, a fusion center agent, a local fusion agent, interface agents, record agents, planning agents, etc. Autonomous agents differ in their ability to carry out a specific surveillance task. A surveillance–sensor agent controls and manages individual sensors (usually video cameras). It has different capabilities depending on its functional complexity and limitations related to sensor-specific aspects. In the work presented here we add a new autonomous agent, called the local fusion agent, to the CS-MAS architecture, addressing specific problems of on-line sensor alignment, registration, bias removal and data fusion. The local fusion agent is dynamically created by the fusion center agent and involves several surveillance–sensor agents working in a coalition. We show how the inclusion of this new dynamic local fusion agent guarantees that, in a video-surveillance system, objects of interest are successfully tracked across the whole area, assuring continuity and seamless transitions.

Description

13 pages, 12 figures.

Keywords

Software agents, Data Fusion, Coordination, Sensor network architecture, Distributed vision, Surveillance application

Bibliographic citation

Information Fusion, 2010, v. 11, n. 3, p. 243-255

Collections

DI - GIAA - Artículos de Revistas

Full item page

Publication:
Data fusion to improve trajectory tracking in a Cooperative Surveillance Multi-Agent Architecture

Identifiers

Files

Publication date

Defense date

Authors

Advisors

Tutors

Journal Title

Journal ISSN

Volume Title

Publisher

Impact

Export

Research Projects

Organizational Units

Journal Issue

Abstract

Description

Keywords

Bibliographic citation

Collections

Publication: Data fusion to improve trajectory tracking in a Cooperative Surveillance Multi-Agent Architecture

Identifiers

Files

Publication date

Defense date

Authors

Advisors

Tutors

Journal Title

Journal ISSN

Volume Title

Publisher

Impact

Export

Research Projects

Organizational Units

Journal Issue

Abstract

Description

Keywords

Bibliographic citation

Collections

Publication:
Data fusion to improve trajectory tracking in a Cooperative Surveillance Multi-Agent Architecture