Radar for Indoor Monitoring
Detection, Classification, and Assessment
Herausgeber: Amin, Moeness
Radar for Indoor Monitoring
Detection, Classification, and Assessment
Herausgeber: Amin, Moeness
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The book addresses key attributes of radar for in-door human monitoring: motion classification including fall, detection of vital signs, and categorization of human gait for risk assessment. It includes examples using data from healthy individuals and patients using Doppler and range-Doppler radars of single and multi-antenna system configurations.
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The book addresses key attributes of radar for in-door human monitoring: motion classification including fall, detection of vital signs, and categorization of human gait for risk assessment. It includes examples using data from healthy individuals and patients using Doppler and range-Doppler radars of single and multi-antenna system configurations.
Produktdetails
- Produktdetails
- Verlag: CRC Press
- Seitenzahl: 390
- Erscheinungstermin: 20. September 2017
- Englisch
- Abmessung: 254mm x 178mm x 24mm
- Gewicht: 916g
- ISBN-13: 9781498781985
- ISBN-10: 1498781985
- Artikelnr.: 69946593
- Verlag: CRC Press
- Seitenzahl: 390
- Erscheinungstermin: 20. September 2017
- Englisch
- Abmessung: 254mm x 178mm x 24mm
- Gewicht: 916g
- ISBN-13: 9781498781985
- ISBN-10: 1498781985
- Artikelnr.: 69946593
Moeness Amin is the Director of the Center for Advanced Communications, Villanova University, Pennsylvania, USA. He is a Fellow of the Institute of Electrical and Electronics Engineers (IEEE); Fellow of the International Society of Optical Engineering; Fellow of the Institute of Engineering and Technology (IET); and Fellow of the European Association for Signal Processing. Dr. Amin is a Recipient of the 2017 Fulbright Distinguished Chair in Advanced Science and Technology, Recipient of 2016 Alexander von Humboldt Research Award, Recipient of 2016 IET Achievement Medal, Recipient of 2014 IEEE Signal Processing Society Technical Achievement Award; Recipient of the 2009 Individual Technical Achievement Award from the European Association for Signal Processing; Recipient of the IEEE Warren D White Award for Excellence in Radar Engineering; Recipient of the IEEE Third Millennium Medal; Recipient of the 2010 NATO Scientific Achievement Award; Recipient of the 2010 Chief of Naval Research Challenge Award; Recipient of Villanova University Outstanding Faculty Research Award, 1997; and the Recipient of the IEEE Philadelphia Section Award, 1997. He was a Distinguished Lecturer of the IEEE Signal Processing Society, 2003-2004, and he is currently the Chair of the Electrical Cluster of the Franklin Institute Committee on Science and the Arts. Dr. Amin has over 700 journal and conference publications in signal processing theory and applications. He co-authored 22 book chapters and is the Editor of the two books, "Through the Wall Radar Imaging" and "Compressive Sensing for Urban Radar," both published by CRC Press in 2011 and 2014, respectively.
Introduction. Fundamentals of Indoor Radar. Radar Hardware for Indoor
Monitoring. Modeling and Simulation of Human Motions for Micro-Doppler
Signatures. Continuous-Wave Doppler Radar for Fall Detection.
Continuous-Wave Doppler Radar for Human Gait Classification. Range-Doppler
Processing for Human Motion Detection and Classification. Tracking Humans
in the Indoor Multipath Environment. Bistatic Radar Configuration for Human
Body and Limb Motion Detection and Classification. Microwave and
Millimeter-Wave Radars for Vital Sign Monitoring. Multiple-Input
Multiple-Output Radar for Monitoring of Bed-Ridden Patients. Activity
Recognition and Localization Using Array Antenna: Array Sensor. Radar
Monitoring of Humans with Assistive Walking Devices. Radar for Disease
Detection and Monitoring. Wireless Sensing for Device-Free Recognition of
Human Motion. IR Sensors for Indoor Monitoring. Index.
Monitoring. Modeling and Simulation of Human Motions for Micro-Doppler
Signatures. Continuous-Wave Doppler Radar for Fall Detection.
Continuous-Wave Doppler Radar for Human Gait Classification. Range-Doppler
Processing for Human Motion Detection and Classification. Tracking Humans
in the Indoor Multipath Environment. Bistatic Radar Configuration for Human
Body and Limb Motion Detection and Classification. Microwave and
Millimeter-Wave Radars for Vital Sign Monitoring. Multiple-Input
Multiple-Output Radar for Monitoring of Bed-Ridden Patients. Activity
Recognition and Localization Using Array Antenna: Array Sensor. Radar
Monitoring of Humans with Assistive Walking Devices. Radar for Disease
Detection and Monitoring. Wireless Sensing for Device-Free Recognition of
Human Motion. IR Sensors for Indoor Monitoring. Index.
Introduction. Fundamentals of Indoor Radar. Radar Hardware for Indoor
Monitoring. Modeling and Simulation of Human Motions for Micro-Doppler
Signatures. Continuous-Wave Doppler Radar for Fall Detection.
Continuous-Wave Doppler Radar for Human Gait Classification. Range-Doppler
Processing for Human Motion Detection and Classification. Tracking Humans
in the Indoor Multipath Environment. Bistatic Radar Configuration for Human
Body and Limb Motion Detection and Classification. Microwave and
Millimeter-Wave Radars for Vital Sign Monitoring. Multiple-Input
Multiple-Output Radar for Monitoring of Bed-Ridden Patients. Activity
Recognition and Localization Using Array Antenna: Array Sensor. Radar
Monitoring of Humans with Assistive Walking Devices. Radar for Disease
Detection and Monitoring. Wireless Sensing for Device-Free Recognition of
Human Motion. IR Sensors for Indoor Monitoring. Index.
Monitoring. Modeling and Simulation of Human Motions for Micro-Doppler
Signatures. Continuous-Wave Doppler Radar for Fall Detection.
Continuous-Wave Doppler Radar for Human Gait Classification. Range-Doppler
Processing for Human Motion Detection and Classification. Tracking Humans
in the Indoor Multipath Environment. Bistatic Radar Configuration for Human
Body and Limb Motion Detection and Classification. Microwave and
Millimeter-Wave Radars for Vital Sign Monitoring. Multiple-Input
Multiple-Output Radar for Monitoring of Bed-Ridden Patients. Activity
Recognition and Localization Using Array Antenna: Array Sensor. Radar
Monitoring of Humans with Assistive Walking Devices. Radar for Disease
Detection and Monitoring. Wireless Sensing for Device-Free Recognition of
Human Motion. IR Sensors for Indoor Monitoring. Index.