%0 Journal Article %1 hope2014energy %D 2014 %E Hope, Dr.Martin %J Int. J. on Recent Trends in Engineering and Technology, %K graphs percolation_random %N 2 %P 9 %T Energy Efficient Power Failure Diagonisis For Wireless Network Using Random Graph Theory %U http://searchdl.org/public/journals/2014/IJRTET/10/2/10.pdf %V 10 %X This paper deals with the discussion of an innovative and a design for the efficient power management and power failure diagnosis in the area of wireless sensors networks. A Wireless Network consists of a web of networks where hundreds of pairs are connected to each other wirelessly. A critical issue in the wireless sensor networks in the present scenario is the limited availability of energy within network nodes. Therefore, making good use of energy is necessary in modeling a sensor network. In this paper we have tried to propose a new model of wireless sensors networks on a three-dimensional plane using the percolation model, a kind of random graph in which edges are formed between the neighboring nodes. An algorithm has been described in which the power failure diagnosis is made and solved. This paper also involves proper selection of the ideal networks by the concepts of Random Graph theory. The paper involves the mathematics of complete fault diagnosis including solving the problem and continuing the process flow.

@article{hope2014energy, abstract = { This paper deals with the discussion of an innovative and a design for the efficient power management and power failure diagnosis in the area of wireless sensors networks. A Wireless Network consists of a web of networks where hundreds of pairs are connected to each other wirelessly. A critical issue in the wireless sensor networks in the present scenario is the limited availability of energy within network nodes. Therefore, making good use of energy is necessary in modeling a sensor network. In this paper we have tried to propose a new model of wireless sensors networks on a three-dimensional plane using the percolation model, a kind of random graph in which edges are formed between the neighboring nodes. An algorithm has been described in which the power failure diagnosis is made and solved. This paper also involves proper selection of the ideal networks by the concepts of Random Graph theory. The paper involves the mathematics of complete fault diagnosis including solving the problem and continuing the process flow.}, added-at = {2014-02-01T10:19:37.000+0100}, biburl = {https://www.bibsonomy.org/bibtex/2d5b162b5a572c81098c21b73c44ff03e/idescitation}, editor = {Hope, Dr.Martin}, interhash = {1ee617bd470ddccd4515368b07d3eab9}, intrahash = {d5b162b5a572c81098c21b73c44ff03e}, journal = {Int. J. on Recent Trends in Engineering and Technology,}, keywords = {graphs percolation_random}, month = {January}, number = 2, pages = 9, timestamp = {2014-02-01T10:19:37.000+0100}, title = {Energy Efficient Power Failure Diagonisis For Wireless Network Using Random Graph Theory}, url = {http://searchdl.org/public/journals/2014/IJRTET/10/2/10.pdf}, volume = 10, year = 2014 }