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An Ultra-Low Energy Solution for Large-Scale Distributed Audio Monitoring
Steven Fenton
Department of Computer Science
Centre for Audio and Psychoacoustic Engineering
School of Computing and Engineering
Research output
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Contribution to journal
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Article
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peer-review
3
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Keyphrases
Energy Solutions
100%
Audio Measurement
100%
Ultra-low Energy
100%
Audio Monitoring
100%
Healthcare Settings
50%
Non-intrusive
50%
Sound Pressure Level
50%
High Cost
50%
Time Monitoring
50%
Measurement System
50%
Remote Control
50%
Over the Air
50%
Low Power
50%
Audio Analysis
50%
Real-time Audio
50%
Environmental Monitoring
50%
High Data Rate
50%
Physical Access
50%
Cost Measurement
50%
Annoyance
50%
Direction of Arrival
50%
Capture Mechanism
50%
Network Solution
50%
Security Surveillance System
50%
Distributed Measurement
50%
Acoustic Sensor Networks
50%
Long Range Radio
50%
Smart Security
50%
Control Time
50%
Monitoring Metrics
50%
Smart City Surveillance
50%
Computer Science
Sensor Network
100%
Measurement System
100%
Smart City
100%
Physical Access
100%
Security Surveillance
100%
direction-of-arrival
100%
Time Monitoring
100%
Acoustic Energy
100%
Sound Pressure Level
100%
Engineering
Audio Monitoring
100%
Sound Pressure Level
50%
Metrics
50%
Measurement System
50%
Sensor Network
50%
Remote Control
50%
Surveillance System
50%
High Data Rate
50%
Smart City
50%
direction-of-arrival
50%