Hierarchically distributed peer-to-peer architecture for load balancing and effective dynamic group scheduling in grid computing.
S. GomathiD. ManimegalaiPublished in: Int. J. Bus. Inf. Syst. (2019)
Keyphrases
- geographically distributed
- grid computing
- load balancing
- distributed computing
- peer to peer
- computing resources
- computational grids
- scheduling strategy
- virtual organization
- distributed systems
- data intensive
- heterogeneous computing
- fault tolerance
- grid environment
- grid technology
- resource sharing
- grid services
- round robin
- resource utilization
- distributed environment
- grid systems
- mobile agents
- utility computing
- resource discovery
- peer to peer systems
- load balance
- dynamic load balancing
- grid infrastructure
- fault tolerant
- distributed data mining
- grid resource
- grid middleware
- computing platform
- peer to peer networks
- cloud computing
- data grids
- digital libraries
- real time
- resource allocation
- load balancing strategy
- load balancing strategies
- resource management
- directory service
- overlay network
- operating system
- management system
- wireless sensor networks
- distributed hash table
- multi agent
- artificial intelligence