Autonomous restart of information floating and dynamic control of transmittable area
Kazuyuki Miyakita, Daichi Meguro, Hiroshi Tamura, Keisuke Nakano

TL;DR
This paper introduces a method to ensure continuous information delivery in mobile networks by autonomously restarting information floating and dynamically adjusting transmission areas.
Contribution
The novel method guarantees continuous information floating in two-dimensional networks by autonomously restarting and dynamically controlling transmission areas.
Findings
The proposed method ensures information floating never ends in two-dimensional networks.
Autonomous restart and dynamic control functions improve continuity and tracking performance.
Theoretical and simulation evaluations confirm the effectiveness of the new approach.
Abstract
Information floating (IF) is a method of delivering information to mobile nodes in a desired area while avoiding unnecessary communication and information dissemination by restricting direct wireless transmission to a transmittable area (TA). This restriction, however, also leads to the termination of IF, which is a longstanding problem that must be overcome. As a solution, methods have been developed to predetermine the optimal TA size based on environmental parameters such as node density. If the density changes over time, then the estimation of the density and the optimization of the TA must be repeated. Therefore, we previously proposed a method that guarantees that the IF never ends in principle, even if the node density changes over time, by dynamically controlling the TA size. However, this method is only applicable in a one-dimensional network. Here, we propose a method that…
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Taxonomy
TopicsOpportunistic and Delay-Tolerant Networks · Mobile Ad Hoc Networks · Caching and Content Delivery
