Open AccessEnergy Consumption Behaviors of 802.11 and S-MAC: Implementation on NS2.35
Author(s) -
M. G. Abbas Malik,
Mukesh Sharma
Publication year - 2018
Publication title -
international journal of engineering and technology
Language(s) - English
Resource type - Journals
ISSN - 2227-524X
DOI - 10.14419/ijet.v7i3.16.16188
Subject(s) - wireless sensor network , computer network , computer science , energy consumption , network packet , throughput , bandwidth (computing) , node (physics) , wireless , key distribution in wireless sensor networks , adaptability , software deployment , energy (signal processing) , wireless network , efficient energy use , real time computing , telecommunications , engineering , electrical engineering , ecology , statistics , mathematics , structural engineering , biology , operating system
The Sensor technology has made encouraging trends in the field of wireless Networks by its innovative methods and adaptability. The fundamental issue for wireless sensor networks (WSN) is to minimize energy consumption at each node due to restricted energy source. The sensor nodes generally get random deployment and need cooperation to accomplish specific operation in the network like monitoring or tracking any target in the environment. Due to limited power source nodes need careful use of energy resources. This work targets on simulating the power consumption behavior and analyzing the performance of 802.11 and S-MAC protocol for medium access control layer in wireless networks. S-MAC improves energy consumption by allocating bandwidth in efficient manner and avoiding causes of energy waste. After simulation, it was found that S-MAC is Power-Efficient over 802.11 without losing on the performance using NS-2.35. The paper mainly emphasize on representing the plot for energy matrices along with throughput, delay and packet delivery ratio.