Keyphrases
Adaptive Routing
18%
Alternating Group Graph
26%
Analytical Results
14%
Arrangement Graph
31%
Cardinality
20%
Cluster Head
25%
Completely Independent Spanning Trees
31%
Conditional Diagnosability
31%
Connected Component
22%
Connected Subgraphs
22%
Crossed Cube
29%
Data Center Networks
15%
Deadlock-free Routing
14%
Diagnosability
71%
Diagnostic Model
17%
Distributed Computing
15%
Distributed Systems
22%
Extra Connectivity
21%
Fault Block
36%
Fault Tolerance
16%
Fault-free
23%
Fault-tolerant
40%
Faulty Links
26%
Faulty Node
19%
Graph Network
27%
Hamiltonian Cycle
21%
Hexagon
24%
Hierarchical Configuration
25%
Hypercube
100%
Hypercube Networks
19%
In(III)
21%
Interconnection Networks
42%
Minimal Routing
23%
Minimum number
15%
Monotone
29%
Multiprocessor Systems
64%
N-cube
27%
N-dimensional
26%
Network Applications
22%
New Fault
15%
Overall Power
21%
PMC Model
22%
Polygonal Faults
29%
Power Consumption
24%
Power Saving
29%
Sensor Networks
16%
Sensor Node
15%
Structure Connectivity
25%
Substructure Connectivity
25%
Wireless Sensor Networks
76%
Computer Science
Adaptive Routing
12%
Cardinality
20%
Cognitive Radio Networks
14%
Communication Cost
10%
Component Model
10%
Connected Component
33%
Connected Subgraph
21%
Connectivity Node
9%
Construction Algorithm
10%
Data Center
15%
Deadlock
14%
Dimensional Hypercube
15%
Distributed Computing
15%
Distributed Process
10%
Distributed Systems
21%
Energy Efficient
21%
Experimental Result
9%
Fault Information
14%
Fault Tolerant
65%
fault tolerant routing
14%
fault-tolerance
25%
Faulty Component
14%
Faulty Processor
23%
Hamiltonian Cycle
9%
Hamiltonian Path
14%
Hypercube
89%
Hypercube Networks
10%
Information Model
14%
Interconnection Networks
44%
Mesh Network
13%
mobile wireless sensor network
14%
Motion Planning
12%
multi-processor
10%
Multiprocessor System
64%
Network Reliability
14%
Network Routing
8%
Parallel Computing
9%
Parallel Processing
7%
Regular Network
10%
Robot
14%
Sensor Node
8%
Software-Defined Networking
14%
Spanning Tree
29%
Star Graphs
29%
Star Network
9%
Subgraphs
34%
Subnetwork
14%
Systems Performance
20%
Time Complexity
12%
Wireless Sensor Network
72%