Source Localization in a Moving Sensor Field Acknowledgements A special thanks to my mentor Dr. Jacob Barhen for his assistance through the duration of.

Slides:

Advertisements

Similar presentations

When Target Motion Matters: Doppler Coverage in Radar Sensor Networks Presenter: Yin Sun Xiaowen Gong, Junshan Zhang, Douglas Cochran School of Electrical,

Advertisements

Conclusion This summer our projects worked on creating technologies and devices to improve communications and communications security. These technologies.

Attack Graphs for Proactive Digital Forensics Tara L. McQueen Delaware State University Louis P. Wilder Computational Sciences and Engineering Division.

I would like to thank Louis P. Wilder and Dr. Joseph Trien for the opportunity to work on this project and for their continued support. The Research Alliance.

1 Approximated tracking of multiple non-rigid objects using adaptive quantization and resampling techniques. J. M. Sotoca 1, F.J. Ferri 1, J. Gutierrez.

G. Valenzise *, L. Gerosa, M. Tagliasacchi *, F. Antonacci *, A. Sarti * IEEE Int. Conf. On Advanced Video and Signal-based Surveillance, 2007 * Dipartimento.

First Lego League of Tennessee Quentoria Leeks Fisk University Research Alliance in Math and Science Computer Applications and Web Technologies Networking.

Alternatives to Spherical Microphone arrays: Hybrid Geometries Aastha Gupta & Prof. Thushara Abhayapala Applied Signal Processing CECS To be presented.

Managed by UT-Battelle for the Department of Energy 1 Mathematical Modeling of Fatty Acid Oxidation in Skeletal Muscle Cells Sheds New Light on Obesity.

1/44 1. ZAHRA NAGHSH JULY 2009 BEAM-FORMING 2/44 2.

Spectrum Sensing Based on Cyclostationarity In the name of Allah Spectrum Sensing Based on Cyclostationarity Presented by: Eniseh Berenjkoub Summer 2009.

Single-Channel Speech Enhancement in Both White and Colored Noise Xin Lei Xiao Li Han Yan June 5, 2002.

Cluster Computing Applications Project: Parallelizing BLAST The field of Bioinformatics needs faster string matching algorithms. What Exactly is BLAST?

TPS: A Time-Based Positioning Scheme for outdoor Wireless Sensor Networks Authors: Xiuzhen Cheng, Andrew Thaeler, Guoliang Xue, Dechang Chen From IEEE.

O AK R IDGE N ATIONAL L ABORATORY U.S. D EPARTMENT OF E NERGY Cluster Computing Applications Project Parallelizing BLAST Research Alliance of Minorities.

Application of robotics methods to Neutron and Synchrotron diffraction instrumentation Jon James, Nov 2008 Department of Design, Development, Environment.

The Evaluation of an Embedded System for First Responders Nicholas Brabson The University of Tennessee David Hill Computational Sciences and Engineering.

Inputs to Signal Generation.vi: -Initial Distance (m) -Velocity (m/s) -Chirp Duration (s) -Sampling Info (Sampling Frequency, Window Size) -Original Signal.

Weigh-in-Motion User Manual For WIM Integrated System Cindy Lopez City University of New York – York College Research Alliance in Math and Science Computational.

Methods  OpenGL Functionality Visualization Tool Functionality 1)3D Shape/Adding Color1)Atom/element representations 2)Blending/Rotation 2)Rotation 3)Sphere.

1 Secure Cooperative MIMO Communications Under Active Compromised Nodes Liang Hong, McKenzie McNeal III, Wei Chen College of Engineering, Technology, and.

Tiffany M. Marshall Saint Mary-of-the-Woods College Mentors : Tim McKnight Measurement Science and Systems.

1 Hybrid methods for solving large-scale parameter estimation problems Carlos A. Quintero 1 Miguel Argáez 1 Hector Klie 2 Leticia Velázquez 1 Mary Wheeler.

Time of arrival(TOA) Prepared By Sushmita Pal Roll No Dept.-CSE,4 th year.

O AK R IDGE N ATIONAL L ABORATORY U.S. D EPARTMENT OF E NERGY Nanoscale Electronics / Single-Electron Transport in Quantum Dot Arrays Dene Farrell SUNY.

Integrating Visualization Peripherals into Power-Walls and Similar Tiled Display Environments James Da Cunha Savannah State University Research Alliance.

July, 2005 Doc: IEEE a Qi, Li, Hara, Kohno (NICT) SlideTG4a1 Project: IEEE P Working Group for Wireless Personal Area Networks (WPANs)

The Effects of Radio Propagation in the Workplace Carolyn Jo Shields Research Alliance in Math and Science Information Technology Services Division, Oak.

United States Grid Security and Reliability Control in High Load Conditions Christopher Lanclos—Mississippi Valley State University Research Alliance in.

OAK RIDGE NATIONAL LABORATORY U.S. DEPARTMENT OF ENERGY Parallel Solution of 2-D Heat Equation Using Laplace Finite Difference Presented by Valerie Spencer.

POSTER TEMPLATES BY: Meta data - data that provides information about data.Meta data - data that provides information about.

Introduction Relationship between climate and health widely studied Climatic temperature stress increases cardiovascular disease risk Solar UV radiation.

Lionel F. Lovett, II Jackson State University Research Alliance in Math and Science Computer Science and Mathematics Division Mentors: George Ostrouchov.

Michael Murphy, Huthasana Kalyanam, John Hess, Vance Faber, Boris Khattatov Fusion Numerics Inc. Overview of Current Research in Sensor Networks and Weather.

Managed by UT-Battelle for the Department of Energy 1 Advanced Brain-Wave Analysis For Early Diagnosis of Alzheimer’s Disease (AD) Presented by Jaron Murphy.

Managed by UT-Battelle for the Department of Energy 1 Integrated Catalogue (ICAT) Auto Update System Presented by Jessica Feng Research Alliance in Math.

Ping Zhang, Zhen Li,Jianmin Zhou, Quan Chen, Bangsen Tian

Tracking with Unreliable Node Sequences Ziguo Zhong, Ting Zhu, Dan Wang and Tian He Computer Science and Engineering, University of Minnesota Infocom 2009.

Effect of data gaps: Comparison of different spectral analysis methods Effect of data gaps: Comparison of different spectral analysis methods Catalin Negrea.

Time Series Data Analysis - I Yaji Sripada. Dept. of Computing Science, University of Aberdeen2 In this lecture you learn What are Time Series? How to.

Riding out the Rough Spots: Scintillation-Robust GNSS Carrier Tracking Dr. Todd E. Humphreys Radionavigation Laboratory University of Texas at Austin.

O AK R IDGE N ATIONAL L ABORATORY U.S. D EPARTMENT OF E NERGY A Comparison of Methods for Aligning Genomic Sequences Ja’Nera Mitchom Fisk University Research.

Experimental Results ■ Observations:  Overall detection accuracy increases as the length of observation window increases.  An observation window of 100.

Forward-Scan Sonar Tomographic Reconstruction PHD Filter Multiple Target Tracking Bayesian Multiple Target Tracking in Forward Scan Sonar.

Parametric Study of Mechanical Stress in Abdominal Aortic Aneurysms (AAA) Erin A. Lennartz Virginia Polytechnic Institute and State University Research.

Managed by UT-Battelle for the Department of Energy Flux Coupling Machines and Switched Reluctance Motors to Replace Permanent Magnets in Electric Vehicles.

METHODS CT scans were segmented and triangular surface meshes generated using Amira. Antiga and Steinman’s method (2004) for automatically extracting parameterized.

BY Siyandiswa Juanitta Bangani Supervisor: Dr R.Van Zyl

Hormone Replacement Therapy: Friend or Foe? A Retrospective Study for Prospective Research Research Alliance in Math and Science Computational Sciences.

The Research Alliance in Math and Science program is sponsored by the Office of Advanced Scientific Computing Research, Office of Science, U.S. Department.

A Passive Approach to Sensor Network Localization Rahul Biswas and Sebastian Thrun International Conference on Intelligent Robots and Systems 2004 Presented.

TDOA SLaP (Time Difference Of Arrival Sound Localization and Placement) Project Developers: Jordan Bridges, Andrew Corrubia, Mikkel Snyder Advisor: Robert.

CCSM3 / HadCM3 Under predict precipitation rate near equator regions CCSM3 under predicts greater in SE U.S. than HadCM3 Methodology and Results Interpolate.

Advanced Brain-Wave Analysis For Early Diagnosis of Alzheimer’s Disease (AD) Jaron Murphy The Ohio State University Research Alliance in Math and Science.

Dr. Jacob Barhen Computer Science and Mathematics Division.

September, 2005 Doc: IEEE a Qi, Li, Umeda, Hara and Kohno (NICT) SlideTG4a1 Project: IEEE P Working Group for Wireless Personal.

Managed by UT-Battelle for the Department of Energy 1 Decreasing the Artificial Attenuation of the RCSIM Radio Channel Simulation Software Abigail Snyder.

Resource Allocation in Hospital Networks Based on Green Cognitive Radios 王冉茵

APPLICATION OF A WAVELET-BASED RECEIVER FOR THE COHERENT DETECTION OF FSK SIGNALS Dr. Robert Barsanti, Charles Lehman SSST March 2008, University of New.

Single Correlator Based UWB Receiver Implementation through Channel Shortening Equalizer By Syed Imtiaz Husain and Jinho Choi School of Electrical Engineering.

Chance Constrained Robust Energy Efficiency in Cognitive Radio Networks with Channel Uncertainty Yongjun Xu and Xiaohui Zhao College of Communication Engineering,

Parallelization of a Non-Linear Analysis Code Lee Hively and Jim Nutaro (mentors) Computational Sciences and Engineering Travis Whitlow Research Alliance.

O AK R IDGE N ATIONAL L ABORATORY U. S. D EPARTMENT OF E NERGY 1 Source Localization in a Moving Sensor Field Shana L. Woods Computing and Computational.

Managed by UT-Battelle for the Department of Energy 1 United States Grid Security and Reliability Control in High Load Conditions Presented to Associate.

Overcoming the Sensing-Throughput Tradeoff in Cognitive Radio Networks ICC 2010.

Feature Matching and Signal Recognition using Wavelet Analysis Dr. Robert Barsanti, Edwin Spencer, James Cares, Lucas Parobek.

ARENA08 Roma June 2008 Francesco Simeone (Francesco Simeone INFN Roma) Beam-forming and matched filter techniques.

Privacy Vulnerability of Published Anonymous Mobility Traces Chris Y. T. Ma, David K. Y. Yau, Nung Kwan Yip (Purdue University) Nageswara S. V. Rao (Oak.

Regression Testing for CHIMERA Jessica Travierso Austin Peay State University Bronson Messer National Center for Computational Sciences August 2009.

Regression Testing for CHIMERA Jessica Travierso Austin Peay State University Research Alliance in Math and Science National Center for Computational Sciences,

Presentation transcript:

Source Localization in a Moving Sensor Field Acknowledgements A special thanks to my mentor Dr. Jacob Barhen for his assistance through the duration of my research and for use of his research that aided my project immensely. I would also like to Dr. David Resister and Patty Boyd for their willingness to help. Thanks to Dr. Z.T. Deng for this great opportunity to help peruse my future goals. I am also very thankful for the time and assistance from the RAMS and the ORNL staff. Thanks to my fellow RAMS participants who have made one of the most memorable summers. The Research Alliance in Math and Science program is sponsored by the Mathematical, Information, and Computational Sciences Division, Office of Advanced Scientific Computing Research, U.S. Department of Energy. The work was performed at the Oak Ridge National Laboratory, which is managed by UT-Battelle, LLC under Contract No. De-AC05-00OR This work has been authored by a contractor of the U.S. Government, accordingly, the U.S. Government retains a nonexclusive, royalty-free license to publish or reproduce the published form of this contribution, or allow others to do so, for U.S. Government purposes. Research sponsored by the “Discovery & Innovation” program of the Office Naval Research. Research sponsored by “Discovery & Innovation” Program of the Office of Naval Research. OAK RIDGE NATIONAL LABORATORY U.S. DEPARTMENT OF ENERGY Shana L. Woods Alabama A & M University Research Alliance in Math and Science Computer Science and Mathematics Division Mentor: Dr. J. Barhen In order to maintain U.S. naval dominance, there is continuing need to develop innovative approaches for near-real-time remote detection of underwater targets. Moving sensor fields can improve detection performance against stealthier targets by achieving large numerical apertures. These sensors are typically sonobuoys, drifting with the wind and the currents. In the past much attention in anti-submarine warfare (ASW) has focused on adaptive beam-forming. There, goals were to achieve robust direction-of- arrival (DOA) estimation. In this project, on the other hand, the focus is on determining the time difference of arrival (TDOA) of a source wave front between the sensors of the irregularly distributed array. Because of the absence of a timing reference for the source-to-be-located (e.g. target submarine), the most commonly used technique for TDOA estimation is cross correlation, since it enables synchronization of all the contributing sensors. In practice, one must compute the estimated TDOAs for each pair of sensors n and m from signals x n (t) and x m (t) measured at the corresponding sonobuoys. In fact, the cross correlation is computed from the cross-power spectral density of the data sequences acquired at each sensor, rather than using the conventional correlation formalism. Moreover, in order to sharpen the correlation peak the generalized cross correlation paradigm is adopted, where a frequency weighting filter is included prior to taking the inverse Fourier transform of the cross-power spectrum. These simulations are performed using synthetic sensor data, which show excellent agreement with analytically computed TDOAs. Software Compaq Visual FORTRAN Future Plans Methodology With the TDOAs implement (in Visual FORTRAN 95) an algorithm that provides a closed form solution for the source localization problem. Objective From sensor sampled data compute the time difference of arrival (TDOA) of the source wavefront for each pair of sensors in the network; use techniques that enable the extraction of week signals corrupted by strong clutter. Typical Mission Scenario Submerged submarine Patrol aircraft searching for it A filed of GPS capable sonobuoys That provide sound pressure measurements of target signal and ambient noise. Continuously monitor and transmit sensed data via radio link. Periodically sample their positions, which are also transmitted via radio link. x-y plane projection Synthetic data are generated to validate the correct implementation of the SL algorithms.  sonobuoys submarine x-z plane projection Generalized Cross Correlation In order to sharpen the correlation peak, a frequency weighting filter  is introduced Cross – Power Spectrum The basic idea behind the spectral cross power, G, scheme is to exploit the fact that two real, discrete data sequences can be Fourier transformed simultaneously. The sensor data are processed in “windows” to damp the noise effects. The TDOAs correspond to the maximum of the cross correlations. The GCC provides a coherence measure that captures, for a hypothesized delay, the similarity between signal segments extracted from sensors n and m. TDOAs for each pair of sensors S1S1 SNSN S2S2 M1 maximum likelihood iterative least squares M2 closed form solution of SL obtained directly M3 new for this task builds on NOGA Sensor data acquisition Source localization methodologies M1 – M3 Foundational step for all methodologies Information Flow N t = 2048  t =0.08 s N w = 255 SNR  - 15 dB N t = 2048  t =0.08 s N w = 255 SNR  - 12 dB N t = 2048  t =0.08 s N w = 255 SNR  - 22 dB Results The upper three figures show the actual target signal and its echoes embedded in clutter as received at two sensors at two very low (negative) SNRs. As can be observed, the signal is indistinguishable. The lower figures compare TDOAs, for successive pairs of sensors, estimated from the sensor data with analytically derived results, and show excellent agreement. Note that, as the clutter becomes more dominant, discrepancies begin to appear. Conclusion Delays vs. TDOAs Buoys are passive omnidirectional sensors Typical mission configuration