EXTENSION OF OVERALL NODE BATTERY EXTRA AVAILABILITY IN UBICOMP WITH LOCATION-AWARE MANET TRANSMISSION COMPARED TO DIRECT NODE-TO-NODE TRANSMISSION.
Published In: 7TH INTERNATIONAL CONFERENCE ON ADVANCES IN COMPUTING, CONTROL AND NETWORKING
Author(s): M. KALEEM GALAMALI , NAWAZ MOHAMUDALLY
Abstract: The impact of location-tracking in mobile environments matters tremendously into performance of ubicomp functionalities and justifies research effort put in it [1-10]. Along with progresses in ubicomp, several questions will crop up and whose answers depend on components not yet put forward. Hence, empirical and simulator based supports to answer these questions are required as starting points. A prior such study was conducted to find trends of energy savings achievable by applying location-aware direct Node-To-Node (NTN) transmission strategies [2] from the perspective of overall nodes, whereby all user nodes in the topography contribute in routing tasks. Another follow-up study was carried out to model the trends of Overall Energy Savings achievable in location-aware MANET transmission [15] from the notion of all user nodes contributing to routing tasks of other user’s transmissions, i.e. MANET nodes are NOT supplied as infrastructure. Following these two studies [2, 15], the next le
- Publication Date: 24-Sep-2017
- DOI: 10.15224/978-1-63248-134-4-11
- Views: 0
- Downloads: 0
EXTENSION OF SENDER NODE BATTERY EXTRA AVAILABILITY IN UBICOMP WITH LOCATION-AWARE MANET TRANSMISSION COMPARED TO DIRECT NODE-TO-NODE TRANSMISSION.
Published In: 7TH INTERNATIONAL CONFERENCE ON ADVANCES IN COMPUTING, CONTROL AND NETWORKING
Author(s): NAWAZ MOHAMUDALLY , M. KALEEM GALAMALI
Abstract: The field of location-tracking in mobile environments is of utmost necessity and justifies the research investments put in it [1-10] with correspondingly commendable output. With progresses in ubicomp happening, several questions will crop up and whose answers depend on components not yet developed and hence empirical supports to answer these questions may serve as welcome starting points. A previous such study was undertaken to find trends of energy savings achievable by applying location-aware direct Node-To- Node (NTN) transmission strategies [2]. Another study was conducted to model the trends of sender energy savings (SES) achievable in location-aware MANET transmission [14] from the perspective of user nodes being freed from routing tasks of other user’s transmissions, i.e. MANET nodes are supplied as infrastructure. Following these two studies [2, 14], the next level of research is laid as: “By what extra amount can the sender nodes’ battery availability be extended in location-
- Publication Date: 24-Sep-2017
- DOI: 10.15224/978-1-63248-134-4-12
- Views: 0
- Downloads: 0