Paul Barom Jeon scite author profile

In this paper, we present an ant-based multipath routing protocol that considers both energy and latency. Energy efficiency is an important issue in mobile ad hoc networks (MANETs) since node energy supplies are stored in batteries. In order to increase the network lifetime it is important to maximize the minimum node energy along the path. As the network topology changes, failures may occur on active routes, resulting in the need for new route discoveries if only single routes per flow are maintained. Frequent new route discovery would, however, increase routing overhead and increase mean and peak packet latency. Using multiple routes simultaneously per flow can be a solution to these problems. In a multipath context, we consider mobile ad-hoc communication networks with dual-priority traffic: latency-critical and not latency-critical. For latency-critical traffic, energy-pheromone and delay-pheromone metrics are combined after being normalized so that their respective significance is preserved. For not latency-critical traffic, only energy-pheromone metrics are used.

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Incorporating big data analysis in speed profile classification for range estimation

Rahimi-Eichi

Jeon

Chow

et al. 2015

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GeoPPRA: An Energy-Efficient Geocasting Protocol in Mobile Ad Hoc Networks

Jeon

Kesidis

2007

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In this paper, a variant of the conventional multicasting called geocasting, or location-based multicasting, is presented. The proposed scheme combines anycasting, restricted broadcasting, and local broadcasting to deliver packets to a group of nodes presented in a specific geographic region called geocast region. Also, the proposed scheme utilizes a pheromone-aided multipath algorithm (PPRA) to perform energy-efficient load balancing that increases the network lifetime. We compare the performance of GeoPPRA with well-known geocasting protocol GAMER via simulation. The simulation results show significant reductions of energy consumption, while maintaining comparable delivery ratio defined as the ratio of successfully delivered data packets to the total data packets sent from the source to one of the geocast group members.

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Paul Barom Jeon

Deep learning for real-time robust facial expression recognition on a smartphone

Semantic Negotiation-Based Service Framework in an M2M Environment

Pheromone-aided robust multipath and multipriority routing in wireless MANETs

Incorporating big data analysis in speed profile classification for range estimation

GeoPPRA: An Energy-Efficient Geocasting Protocol in Mobile Ad Hoc Networks

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