Extending Overall Node Battery Availability in Ubicomp with Location-Aware MANET Transmission.

M. KALEEM, GALAMALI and NAWAZ, MOHAMUDALLY (2017) Extending Overall Node Battery Availability in Ubicomp with Location-Aware MANET Transmission. In: Seventh International Conference on Advances in Computing, Control and Networking - ACCN 2017, 23-24 September 2017, Bangkok, Thailand.

[img]
Preview
Text
20171102_124007.pdf - Published Version

Download (642kB) | Preview
Official URL: https://www.seekdl.org/conferences/paper/details/9...

Abstract

The field of location-tracking in mobile environments is subject to serious research endeavours [1- 10]. Several development pieces are also being deployed and people have more expectations as concern new functionalities and applications on top of improving existing components for mobile and ubiquitous environments [2]. In such approach of evolution of ubicomp, several questions will crop up, as in advanced software engineering reliability concepts, whose answers depend on components not yet available in ubicomp. It is accepted in research community that ubicomp is still in its infancy stages [104]. Noteworthy answers to these upcoming questions will be developed as more sophisticated components are built. In MANETs, it is expected that all users in the topography be required to contribute for overall routing purposes. In such cases, no infrastructure support nodes will be available for routing. Consequently, in such circumstances, by applying cooperative communication packet delivery, energy is expected to be saved. This effect can be reinforced by applying location-aware transmission. A preceding study was conducted to study this effect [15]. Following results presented [15], the next level of probing required is set as: “By what factor can the overall nodes’ batteries availability be extended? How does this factor vary over different node numbers present in a topography for ubicomp?” The results of this study will serve towards formulating ubicomp architecture upgrade and reducing load of maintenance procedures required for ubicomp. This study follows from previous ones [1-62].

Item Type: Conference or Workshop Item (Paper)
Uncontrolled Keywords: Ubicomp- Ubiquitous Computing, MAUCMobile and Ubiquitous Computing, CBR- Constant Bit Rate, MANET- Mobile Adhoc Network, ES- Energy Savings, OESOverall ES, EC-Energy consumed, OEC- Overall EC, MECMean EC, BAEF- Battery Availability Extension Factor, MBAEF- Mean BAEF.
Depositing User: Mr. John Steve
Date Deposited: 10 Mar 2019 11:59
Last Modified: 10 Mar 2019 11:59
URI: http://publications.theired.org/id/eprint/336

Actions (login required)

View Item View Item