Keyphrases
Scheduling Algorithm
100%
Mobile Wireless Sensor Networks
100%
Conflict-free
100%
Conflict-free Scheduling
100%
Green Conflicts
100%
Mobility Conditions
44%
Multicolor
22%
Time-division multiple Access
22%
Hybrid Time
22%
Resource Allocation
11%
Low Mobility
11%
Energy Efficiency
11%
Clustering Methods
11%
Cluster-based
11%
High Mobility
11%
Hybrid Method
11%
Distinctive Features
11%
Design Evaluation
11%
Performance Efficiency
11%
Wireless Sensor Networks
11%
Power Delay Product
11%
Resource Utilization
11%
Performance Evaluation
11%
Medium Access Control
11%
Time Application
11%
Random Mobility
11%
Protocol Performance
11%
Medium Access Control Layer
11%
Implementation Evaluation
11%
Energy Throughput
11%
Scheduling Media Access
11%
Intelligent Mobile Applications
11%
Wireless Sensor Network Application
11%
Security Efficiency
11%
Good Scalability
11%
Computer Science
Scheduling Algorithm
100%
mobile wireless sensor network
100%
Time Division Multiple Access
66%
Media Access Control
66%
Performance Evaluation
33%
Distinctive Feature
33%
Real-Time Application
33%
Design Implementation
33%
Domain Functionality
33%
Resource Allocation
33%
Hybrid Approach
33%
Resource Utilisation
33%
Energy Efficiency
33%
Network Application
33%
Layer Protocol
33%
Wireless Sensor Network
33%
Engineering
Wireless Sensor Network
100%
Hybrid Time
50%
Media Access Control
50%
Time Division Multiple Access
50%
Energy Engineering
25%
Energy Conservation
25%
Hybrid Approach
25%
Network Application
25%
Energy Efficiency
25%
Layer Protocol
25%
Free Work
25%