Open AccessMathematical Modeling of Optimal Node Deployment for Indoor Wireless Sensor Networks
Publication year - 2020
Publication title -
international journal of communications
Language(s) - English
Resource type - Journals
ISSN - 1998-4480
DOI - 10.46300/9107.2020.14.1
Subject(s) - wireless sensor network , software deployment , computer science , node (physics) , key distribution in wireless sensor networks , computer network , sensor node , grid , real time computing , event (particle physics) , mobile wireless sensor network , wireless network , wireless , distributed computing , engineering , telecommunications , geometry , mathematics , structural engineering , physics , quantum mechanics , operating system
Wireless Sensor Network (WSN) has been utilized in environmental monitoring where large number of connected sensor nodes collaboratively sense and report conditions of the monitoring area. Indoor event sensing and tracking is one of WSN applications that has a significant effect on saving cost economically and humanitarianly. Efficient sensor node deployment can ensure coverage, connectivity, and stability of the network. This paper presents the mathematical modeling of a node deployment for indoor wireless sensor networks where the optimal number of nodes required to satisfy the coverage of the indoor area and network connectivity requirements is determined. The proposed solution contributes to the reduction in the cost and maintenance of the network as less number of sensors is needed, compared to the traditional grid node deployment.