Sensor and Data Fusion: A Tool for Information Assessment and Decision MakingAnnotation This book describes the benefits of sensor fusion as illustrated by considering the characteristics of infrared, microwave, and millimeter-wave sensors, including the influence of the atmosphere on their performance, sensor system application scenarios that may limit sensor size but still require high resolution data, and the attributes of data fusion architectures and algorithms. The data fusion algorithms discussed in detail include classical inference, Bayesian inference, Dempster-Shafer evidential theory, artificial neural networks, voting logic as derived from Boolean algebra expressions, fuzzy logic, and detection and tracking of objects using only passively acquired data. A summary is presented of the information required to implement each of the data fusion algorithms discussed. Weather forecasting, Earth resource surveys that use remote sensing, vehicular traffic management, target classification and tracking, military and homeland defense, and battlefield assessment are some of the applications that will benefit from the discussions of signature-generation phenomena, sensor fusion architectures, and data fusion algorithms provided in this text. |
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Page 226
... detection probability also decreases . 8.3.5 Calculating system detection probability The final steps in calculating the system detection probability require the use of target , background , and sensor models to compute the signal - to ...
... detection probability also decreases . 8.3.5 Calculating system detection probability The final steps in calculating the system detection probability require the use of target , background , and sensor models to compute the signal - to ...
Page 227
... sensor detection probability at each confidence level . 10. Calculate the probabilities for target detection by each sensor at the appropriate confidence levels using Eq . ( 8-9 ) . 11. Calculate the sensor system detection probability ...
... sensor detection probability at each confidence level . 10. Calculate the probabilities for target detection by each sensor at the appropriate confidence levels using Eq . ( 8-9 ) . 11. Calculate the sensor system detection probability ...
Page 229
... detection probability requirement in this example . Noise is used as the limiting interference to simplify the calculations . The different signal - to - noise ratios at each sensor's ... sensor system . Sensor A Sensor B Mode Sensor C Mode ...
... detection probability requirement in this example . Noise is used as the limiting interference to simplify the calculations . The different signal - to - noise ratios at each sensor's ... sensor system . Sensor A Sensor B Mode Sensor C Mode ...
Contents
Multiple Sensor System Applications Benefits and Design | 7 |
Data Fusion Algorithms and Architectures | 51 |
Classical Inference | 101 |
Copyright | |
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Other editions - View all
Sensor and Data Fusion: A Tool for Information Assessment and Decision Making Lawrence A. Klein No preview available - 2012 |
Sensor and Data Fusion: A Tool for Information Assessment and Decision Making Lawrence A. Klein No preview available - 2004 |
Common terms and phrases
adaptive algorithm allows angle application approach architecture assigned association atmospheric Bayesian belief calculated Chapter classification coefficient combined computed conditional confidence levels contains corresponding data fusion decision defined Dempster-Shafer described detection probability direction distribution effects elements emitters energy equal error estimation evidence example false alarm probability Figure frequency function fuzzy fuzzy sets given hypothesis identification illustrated inference input interval layer learning likelihood logic mean measurements membership method modes multiple multiple sensor normal object observed operating optimal output parameters passive pattern percent performance population position probability mass problem processing processor produced propositions radar rain range ratio received represents resolution rule sample sample mean selected sensor resolution shown signal signatures single solution sources space standard statistical Table target techniques temperature theory threshold track true update vector visible weights