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Lukas Esterle

Self-aware object tracking in multi-camera networks

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  • Lukas Esterle
  • Jennifer Simonjan, University of Klagenfurt
  • ,
  • Georg Nebehay, Austrian Institute of Technology
  • ,
  • Roman Pflugfelder, Austrian Institute of Technology
  • ,
  • Gustavo Fernández Domínguez, Austrian Institute of Technology
  • ,
  • Bernhard Rinner, University of Klagenfurt

This chapter discusses another example of self-aware and self-expressive systems: a multi-camera network for object tracking. It provides a detailed description of how the concepts of self-awareness and self-expression can be implemented in a real network of smart cameras. In contrast to traditional cameras, smart cameras are able to perform image analysis on-board and collaborate with other cameras in order to analyse the dynamic behaviour of objects in partly unknown environments. Self-aware and self-expressive smart cameras are even able to reason about their current state and to adapt their algorithms in response to changes in their environment and the network. Self-awareness and self-expression allow them to manage the trade-off among performance, flexibility, resources and reliability during runtime. Due to the uncertainties and dynamics in the network a fixed configuration of the cameras is infeasible. We adopt the concepts of self-awareness and self-expression for autonomous monitoring of the state and progress of each camera in the network and adapt its behaviour to changing conditions. In this chapter we focus on describing the building blocks for self-aware camera networks and demonstrate the key characteristics in a multi-camera object tracking application both in simulation and in a real camera network. The proposed application implements the goal sharing with time-awareness capability pattern, including meta-self-awareness capabilities as discussed in Chapter 5. Furthermore, the distributed camera network employs the middleware system described in Chapter 11 to facilitate distributed coordination of tracking responsibilities. Moreover, the application uses socially inspired techniques and mechanisms discussed in Chapter 7.

OriginalsprogEngelsk
TitelSelf-aware Computing Systems: An Engineering Approach
Antal sider17
ForlagSpringer-Verlag
Udgivelsesår1 jan. 2016
Sider261-277
DOI
StatusUdgivet - 1 jan. 2016
Eksternt udgivetJa
SerietitelNatural Computing Series
ISSN1619-7127

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