Active Information Acquisition with Multiple Mobile Sensors

Active Information Acquisition with Multiple Mobile Sensors
Nikolay A. Atanasov, Jerome Le Ny, Kostas Daniilidis, George Pappas

Citation
Nikolay A. Atanasov, Jerome Le Ny, Kostas Daniilidis, George Pappas. "Active Information Acquisition with Multiple Mobile Sensors". Talk or presentation, October, 2014; Poster presented at the 2014 TerraSwarm Annual Meeting.

Abstract
We consider the problem of controlling mobile sensing systems in order to improve the accuracy and efficiency of information acquisition in scenarios such as environmental monitoring, search and rescue, surveillance and reconnaissance, and simultaneous localization and mapping (SLAM). A multi-sensor active information acquisition problem capturing the common characteristics of these scenarios is formulated. The goal is to design control policies for the sensors, which minimize the entropy of the estimation task conditioned on the future measurements. First, we provide a non-greedy centralized solution, which is computationally fast, since it exploits linearized sensing models, and memory efficient, since it exploits sparsity in the environment model. Next, we decentralize the control to achieve linear complexity in the number of sensors and provide suboptimality guarantees. The combination of these techniques is an effective and scalable approach for controlled information acquisition with multiple sensors. For example, when applied to the multi-robot active SLAM problem, our results enable a decentralized nonmyopic solution that exploits sparsity in the planning process. Future work will focus on an experimental validation of our algorithms in the Smart City test beds and on a formulation of the active information acquisition problem, which can handle discrete-state sensor and target models. The latter is particularly useful for hypothesis testing and object recognition scenarios.

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Citation formats

HTML

Nikolay A. Atanasov, Jerome Le Ny, Kostas Daniilidis, George
Pappas. <a
href="http://www.terraswarm.org/pubs/412.html"><i>Active
Information Acquisition with Multiple Mobile
Sensors</i></a>, Talk or presentation,  October,
2014; Poster presented at the <a
href="http://www.terraswarm.org/conferences/14/annual"
>2014 TerraSwarm Annual Meeting</a>.

Plain text

Nikolay A. Atanasov, Jerome Le Ny, Kostas Daniilidis, George
Pappas. "Active Information Acquisition with Multiple
Mobile Sensors". Talk or presentation,  October, 2014;
Poster presented at the <a
href="http://www.terraswarm.org/conferences/14/annual"
>2014 TerraSwarm Annual Meeting</a>.

BibTeX

@presentation{AtanasovLeNyDaniilidisPappas14_ActiveInformationAcquisitionWithMultipleMobileSensors,
    author = {Nikolay A. Atanasov and Jerome Le Ny and Kostas
              Daniilidis and George Pappas},
    title = {Active Information Acquisition with Multiple
              Mobile Sensors},
    month = {October},
    year = {2014},
    note = {Poster presented at the <a
              href="http://www.terraswarm.org/conferences/14/annual"
              >2014 TerraSwarm Annual Meeting</a>},
    abstract = {We consider the problem of controlling mobile
              sensing systems in order to improve the accuracy
              and efficiency of information acquisition in
              scenarios such as environmental monitoring, search
              and rescue, surveillance and reconnaissance, and
              simultaneous localization and mapping (SLAM). A
              multi-sensor active information acquisition
              problem capturing the common characteristics of
              these scenarios is formulated. The goal is to
              design control policies for the sensors, which
              minimize the entropy of the estimation task
              conditioned on the future measurements. First, we
              provide a non-greedy centralized solution, which
              is computationally fast, since it exploits
              linearized sensing models, and memory efficient,
              since it exploits sparsity in the environment
              model. Next, we decentralize the control to
              achieve linear complexity in the number of sensors
              and provide suboptimality guarantees. The
              combination of these techniques is an effective
              and scalable approach for controlled information
              acquisition with multiple sensors. For example,
              when applied to the multi-robot active SLAM
              problem, our results enable a decentralized
              nonmyopic solution that exploits sparsity in the
              planning process. Future work will focus on an
              experimental validation of our algorithms in the
              Smart City test beds and on a formulation of the
              active information acquisition problem, which can
              handle discrete-state sensor and target models.
              The latter is particularly useful for hypothesis
              testing and object recognition scenarios.},
    URL = {http://terraswarm.org/pubs/412.html}
}

Posted by Nikolay A. Atanasov on 29 Oct 2014.
Groups: services

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