Presentation is loading. Please wait.

Presentation is loading. Please wait.

Detection, Classification and Tracking in Distributed Sensor Networks D. Li, K. Wong, Y. Hu and A. M. Sayeed Dept. of Electrical & Computer Engineering.

Published byHomer Gardner Modified over 8 years ago

Similar presentations

Presentation on theme: "Detection, Classification and Tracking in Distributed Sensor Networks D. Li, K. Wong, Y. Hu and A. M. Sayeed Dept. of Electrical & Computer Engineering."— Presentation transcript:

1 Detection, Classification and Tracking in Distributed Sensor Networks D. Li, K. Wong, Y. Hu and A. M. Sayeed Dept. of Electrical & Computer Engineering University of Wisconsin-Madison Akbar@engr.wisc.edu Akbar@engr.wisc.edu http://dune.ece.wisc.edu/

2 Overview -Small, densely distributed wireless sensors. -Collaboration necessary for tracking and classification, but not for detection. -Multi-modal sensors (potentially) -Tracking vehicles (tanks, trucks).

3 Space-Time Sampling Sensors sample the spatial signal field in a particular modality (e.g., acoustic) –Sensor density commensurate with spatial signal variation Sampling of time series from each sensor commensurate with signal bandwidth Signal field decomposed into space-time cells to enable distributed signal processing Time Space Time Space A moving object corresponds to a spatial peak moving with time Target tracking corresponds to determining the peak location over time Uniform space-time cellsNon-uniform space-time cells

4 Detection Simple energy detector –detect a target/event when the output exceeds a threshold –Otherwise, update the threshold. Detector output: – at any instant is the average energy in a certain window is sampled at a certain rate based on a priori estimate of target velocity

5 Target Localization at a Time Instant CPA/Energy based: 1.Location of the sensor with largest output 2.Using attenuation exponent and 4 or more sensor measurements.

6

7 Single Target Tracking Initialization: Put all locations where vehicle can enter (in this case the corners) onto detection alert. Three-step procedure: 1.A track is initiated when a target is detected in a region 2.Target locations are estimated for N successive time instants. These positions are used to predict target location at M<N future instants 3.Predicted positions are used to create new regions that are put on detection alert

8 Multiple Targets Can track multiple targets if they are sufficiently separated in space and/or time –separate track for each target Can track spatio-temporally overlapping targets with appropriate classification algorithms

9 Classification Three types of classifiers under investigation: –K-nearest neighbor (KNN) –Maximum likelihood (ML) (Gaussian mixture) –Support Vector Machine (SVM) Three target classes: –Wheeled –Tracked –Unknown

10 Some Issues and Challenges Variability in measurements and conditions –Have to rely on data from prior experiments to train the classifiers for new experiments Variations in spectral signatures due to motion (Doppler), acceleration, gear shifts Timing synchronization for collaborative processing

11 Summary Framework for detection, classification and tracking of targets Single-node algorithms: –Energy detection –Classification (of single target events) Collaborative Processing: –Localization –Location prediction for tracking

Download ppt "Detection, Classification and Tracking in Distributed Sensor Networks D. Li, K. Wong, Y. Hu and A. M. Sayeed Dept. of Electrical & Computer Engineering."

Similar presentations

Applications of one-class classification

Applications of one-class classification
Principles of Density Estimation

Principles of Density Estimation
V-1 Part V: Collaborative Signal Processing Akbar Sayeed.

V-1 Part V: Collaborative Signal Processing Akbar Sayeed.
1 ECE 776 Project Information-theoretic Approaches for Sensor Selection and Placement in Sensor Networks for Target Localization and Tracking Renita Machado.

1 ECE 776 Project Information-theoretic Approaches for Sensor Selection and Placement in Sensor Networks for Target Localization and Tracking Renita Machado.
Introduction To Tracking

Introduction To Tracking
Data preprocessing before classification In Kennedy et al.: “Solving data mining problems”

Data preprocessing before classification In Kennedy et al.: “Solving data mining problems”
Chapter 4: Linear Models for Classification

Chapter 4: Linear Models for Classification
Oklahoma State University Generative Graphical Models for Maneuvering Object Tracking and Dynamics Analysis Xin Fan and Guoliang Fan Visual Computing and.

Oklahoma State University Generative Graphical Models for Maneuvering Object Tracking and Dynamics Analysis Xin Fan and Guoliang Fan Visual Computing and.
Nov 4, 20031 Detection, Classification and Tracking of Targets in Distributed Sensor Networks Presented by: Prabal Dutta Dan Li, Kerry Wong,

Nov 4, Detection, Classification and Tracking of Targets in Distributed Sensor Networks Presented by: Prabal Dutta Dan Li, Kerry Wong,
Paper Discussion: “Simultaneous Localization and Environmental Mapping with a Sensor Network”, Marinakis et. al. ICRA 2011.

Paper Discussion: “Simultaneous Localization and Environmental Mapping with a Sensor Network”, Marinakis et. al. ICRA 2011.
Location Estimation in Sensor Networks Moshe Mishali.

Location Estimation in Sensor Networks Moshe Mishali.
Multiple Human Objects Tracking in Crowded Scenes Yao-Te Tsai, Huang-Chia Shih, and Chung-Lin Huang Dept. of EE, NTHU International Conference on Pattern.

Multiple Human Objects Tracking in Crowded Scenes Yao-Te Tsai, Huang-Chia Shih, and Chung-Lin Huang Dept. of EE, NTHU International Conference on Pattern.
1 Integration of Background Modeling and Object Tracking Yu-Ting Chen, Chu-Song Chen, Yi-Ping Hung IEEE ICME, 2006.

1 Integration of Background Modeling and Object Tracking Yu-Ting Chen, Chu-Song Chen, Yi-Ping Hung IEEE ICME, 2006.
Scalable Information-Driven Sensor Querying and Routing for ad hoc Heterogeneous Sensor Networks Maurice Chu, Horst Haussecker and Feng Zhao Xerox Palo.

Scalable Information-Driven Sensor Querying and Routing for ad hoc Heterogeneous Sensor Networks Maurice Chu, Horst Haussecker and Feng Zhao Xerox Palo.
Classification of Music According to Genres Using Neural Networks, Genetic Algorithms and Fuzzy Systems.

Classification of Music According to Genres Using Neural Networks, Genetic Algorithms and Fuzzy Systems.
Part 3 Vector Quantization and Mixture Density Model CSE717, SPRING 2008 CUBS, Univ at Buffalo.

Part 3 Vector Quantization and Mixture Density Model CSE717, SPRING 2008 CUBS, Univ at Buffalo.
Collaborative Signal Processing CS 691 – Wireless Sensor Networks Mohammad Ali Salahuddin 04/22/03.

Collaborative Signal Processing CS 691 – Wireless Sensor Networks Mohammad Ali Salahuddin 04/22/03.
Jacinto C. Nascimento, Member, IEEE, and Jorge S. Marques

Jacinto C. Nascimento, Member, IEEE, and Jorge S. Marques
Distributed and Efficient Classifiers for Wireless Audio-Sensor Networks Baljeet Malhotra Ioanis Nikolaidis Mario A. Nascimento University of Alberta Canada.

Distributed and Efficient Classifiers for Wireless Audio-Sensor Networks Baljeet Malhotra Ioanis Nikolaidis Mario A. Nascimento University of Alberta Canada.
Review Rong Jin. Comparison of Different Classification Models  The goal of all classifiers Predicating class label y for an input x Estimate p(y|x)

Review Rong Jin. Comparison of Different Classification Models  The goal of all classifiers Predicating class label y for an input x Estimate p(y|x)

Similar presentations

Ads by Google