Abstract—The Mobile Grid Environment has the dynamic structure in which the position and location of grid changes vigorously. It compounds the pervasive ingression methods of mobile computing and coalition of computational resources from multiple domains to attain a common task. Due to mobility, failure of nodes, disconnection and network partitioning in networks, resource allocation and scheduling is being the demanding problems. We endow with solutions to the above-mentioned problems by implementing pipes in the Mobile grid environment. It is conspicuous that pipes are the collection of segments or processes that are connected in a series which can execute its process concurrently with the other segments or processes in a successive manner. We contrive temporal clusters in our Distributed Pipes Enforcement (DPE) methodology with the determination of demand bound functions and induce master/slave conceits with that in order to augment the efficiency in task completion and abate the resource dissipation. With this, the chances to get erroneous result can be probably avoided. Our approach caters for performance optimization, flexible deployment and consistency.
Index Terms—Deadline analysis, demand bound function, master/slave, mobile grid, pipes, scheduling
Aghila Rajagopal is with K.L.N. College of Information Technology,
Madurai, Tamil Nadu, India (e-mail: ssg_akila@mamce.org).
M. A. Maluk Mohamed is with M. A. M. College of Engineering,
Tiruchirapalli, Tamil Nadu, India (e-mail: ssg_malukmd@mamce.org).
Cite: Aghila Rajagopal and M. A. Maluk Mohamed, "Distributed Pipes Enforcement in Mobile Grid Environment - A Novel Approach for Task Scheduling," International Journal of Future Computer and Communication vol. 2, no. 4 pp.281-286, 2013.
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