1 / 29

Robotic Sensor Networks: from theory to practice

Robotic Sensor Networks: from theory to practice. Sameera Poduri. CSSE Annual Research Review 03.17.09. oil spill Roomba. Ecological macroscopes. Adaptive sampling. Networked Infomechanical systems. keep warfighters or first responders covered with communications.

connor
Download Presentation

Robotic Sensor Networks: from theory to practice

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Robotic Sensor Networks: from theory to practice Sameera Poduri CSSE Annual Research Review 03.17.09

  2. oil spill Roomba

  3. Ecological macroscopes Adaptive sampling Networked Infomechanical systems

  4. keep warfighters or first responders covered with communications

  5. Problem Challenge: global objectives using local sensing and control Design motion controllers for a robotic sensor network 1. communication network is connected Objectives: 2. sensing coverage is maximized 3. intruder pursuit time is minimized 4. field estimation error is minimized

  6. Problem Design motion controllers for a robotic sensor network 1. communication network is connected Objectives: 2. sensing coverage is maximized 3. intruder pursuit time is minimized 4. field estimation error is minimized

  7. Network Connectivity Given a large network, find local conditions that guarantee global k-connectivity. S. Poduri, S. Pattem, B. Krishnamachari, G. S. Sukhatme. "Using Local Geometry for Tunable Topology Control in Sensor Networks". In IEEE Transactions on Mobile Computing, Feb 2009

  8. Neighbor-Every-Theta Condition NET Condition: A neighbor in each sector θ NET Graph: A graph in which every non-boundary node satisfies NET condition Boundary nodes

  9. Connectivity of NET graphs Edge connectivity of a NET graph is at least for • single parameter, tunable • general irregular communication model [Ganesan, et al., UCLA/CSD-TR’02]

  10. Potential Fields based Controller Virtual force distance Virtual force distance

  11. Simulation results

  12. Robot experiments K. Dantu, P. Goyal, and G. Sukhatme, "Relative Bearing Estimation from Commodity Radios", To appear in IEEE International Conference on Robotics and Automation, Sep 2009

  13. Minimal sensing ordering information is sufficient to construct a loop [ ]

  14. Problem Design motion controllers for a robotic sensor network 1. communication network is connected Objectives: 2. sensing coverage is maximized 3. intruder pursuit time is minimized 4. field estimation error is minimized

  15. Coverage optimization A. Deshpande, S. Poduri, D. Rus and G. S. Sukhatme,”Coverage Control with Location-dependent Sensing Models”, ICRA 2009

  16. Data-driven approach • pilot deploy at 14 locations • measure sensing coverage • compute optimal locations Optimized deployment 9 cameras Uniform deployment 11 cameras

  17. Camera Model

  18. Problem Design motion controllers for a robotic sensor network 1. communication network is connected Objectives: 2. sensing coverage is maximized 3. intruder pursuit time is minimized 4. field estimation error is minimized

  19. Pursuit evasion How should robots move to capture all evaders? M. Vieira, R. Govindan, and G. Sukhatme, "Scalable and Practical Pursuit-Evasion", To appear in International Conference on Robot Communication and Coordination, Mar 2009.

  20. Setup 32 4 31 38 42 41 40 39 37 36 35 34 33 5 6 3 30 5 105 106 1 29 101 6 2 21 20 7 1 28 27 25 19 18 16 14 13 12 9 8 26 4 24 23 22 3 15 2 11 17 10 104 103 102 56 55 43 48 54 44 53 8 49 7 108 107 45 47 52 51 50 4th fl. 46 Stargate tmoteSky MicaZ #pursuers >> #evaders 1 2 localization as a service 3 opponent strategy is known same speed

  21. Results

  22. Problem Design motion controllers for a robotic sensor network 1. communication network is connected Objectives: 2. sensing coverage is maximized 3. intruder pursuit time is minimized 4. field estimation error is minimized

  23. Observing marine ecosystems Mapping and sampling of hydrographic features pertinent to aquatic microbial populations

  24. Adaptive Sampling Reconstruct a scalar field (temperature, chlorophyll, etc.) Unlike conventional mobile robotics mapping Sensor reading are only valid locally Correlation between sensors decreases rapidly with distance Intuition: the more data near the locations where a field estimate is desired, the less the reconstruction error The spatial distribution of the measurements (the samples) affects the estimation error

  25. http://robotics.usc.edu/~sameera

  26. surveillance

More Related