Keyphrases
Smart Buildings
100%
Microenvironment
100%
Alert Algorithm
100%
Wearable Sensing System
100%
Thermal Preference
100%
Thermal Preference Prediction
100%
Physiological Data
50%
Prediction Model
50%
Energy Use
50%
Model-driven Development
50%
System Development
50%
User Data
50%
Sensing System
50%
Collection Efficiency
50%
Environmental Parameters
50%
Overall Accuracy
50%
Thermal Comfort
50%
Building Heating
50%
Energy Usage
50%
Interactive Effects
50%
Influential Parameters
50%
Wearable Sensor Technology
50%
Comfort Model
50%
Individual Thermal Preference
50%
Comfort Conditions
50%
Feature Contribution Analysis
50%
Optimization Potential
50%
Building Cooling
50%
Automatic Collection
50%
Indoor Thermal Environment
50%
Data Fluctuation
50%
Building Integration
50%
Human Thermal Comfort
50%
Wearable Computing Technology
50%
Continuous Participation
50%
Computer Science
Physiological Data
100%
User Data
100%
Model Development
100%
Computing Technology
100%
Prediction Model
100%
Relative Importance
100%
Characteristic Feature
100%
Data Fluctuation
100%
Interactive Effect
100%
Engineering
Intelligent Buildings
100%
Sensing System
100%
Thermal Comfort
100%
Energy Engineering
50%
Relative Importance
50%
Data Point
50%
Wearable Sensor
50%
Collection Efficiency
50%
Environmental Parameter
50%
Data User
50%
Building Heating
50%
Energy Usage
50%
Characteristic Feature
50%
Thermal Environment
50%
Earth and Planetary Sciences
Thermal Comfort
100%
Energy Use
50%
Development Model
50%
Thermal Environment
50%