Generic and Energy-Efficient Context-Aware Mobile Sensing
-10%
portes grátis
Generic and Energy-Efficient Context-Aware Mobile Sensing
Yurur, Ozgur; Liu, Chi Harold
Taylor & Francis Ltd
01/2024
222
Mole
Inglês
9781138894518
15 a 20 dias
Descrição não disponível.
Context Awareness for Mobile Sensing. Context Inference: Posture Detection. Context-Aware Framework: A Basic Design. Energy Efficiency in Physical Hardware. Context-Aware Framework: A Complex Design. Probabilistic Context Modeling.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Power Consumption;User State;Context Awareness for Mobile Sensing;Context Aware Applications;Context Inference;User State Transition;Context-Aware Framework;Entropy Rate;Energy Efficiency in Physical Hardware;Sensory Operation;Probabilistic Context Modeling;Data Set;Accelerometer Sensor;Power Consumption Ratio;IDD;Context Aware Middleware;Proposed Classification Method;Gps Trace;Sensor Management System;Training Data Classes;Euclidean Distance Analysis;Battery Behavior;Existing Classification Methods;Feature Vector;Battery Lifetime;Belief Vector;Current User State;Electrical Circuit Models;Duty Cycling
Context Awareness for Mobile Sensing. Context Inference: Posture Detection. Context-Aware Framework: A Basic Design. Energy Efficiency in Physical Hardware. Context-Aware Framework: A Complex Design. Probabilistic Context Modeling.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Power Consumption;User State;Context Awareness for Mobile Sensing;Context Aware Applications;Context Inference;User State Transition;Context-Aware Framework;Entropy Rate;Energy Efficiency in Physical Hardware;Sensory Operation;Probabilistic Context Modeling;Data Set;Accelerometer Sensor;Power Consumption Ratio;IDD;Context Aware Middleware;Proposed Classification Method;Gps Trace;Sensor Management System;Training Data Classes;Euclidean Distance Analysis;Battery Behavior;Existing Classification Methods;Feature Vector;Battery Lifetime;Belief Vector;Current User State;Electrical Circuit Models;Duty Cycling