Abstract
The advent of the Internet of things (IoT) is changing the way how we interact with the physical world. However, the current Internet suffers from exponential increase in bandwidth demand. In order to resolve the bandwidth issue, we can consider aerial networks by unmanned aerial vehicles (UAV) or the so-called drones for establishing a three-dimensional mobile network in an ad hoc manner. By deploying a network from the sky, we can use the otherwise idle wireless medium and high mobility free from ground obstacles. Aerial networks are especially effective for supporting the temporary surge of population as well as disaster areas because building an additional network infrastructure requires extensive time. In this paper, we propose an efficient handover mechanism for aerial networks in the three-dimensional space, which significantly differs from the conventional two-dimensional schemes. The proposed scheme adjusts the height of a drone and the distance between the drones. To this end, we use the seamless handover success probability and the false handover initiation probability in order to evaluate the optimal coverage decision algorithm. To the best of our knowledge, the proposed scheme is the first attempt for resolving handover of net-drones in the three-dimensional space.
Highlights
With the advance of wireless communication technology, our daily life has greatly changed in every aspect
As a promising solution to the bandwidth issue, the idea of aerial networks by using unmanned aerial vehicles (UAV) or drones is proposed [5, 6] as shown in Figure 1, which is termed as net-drones in this paper
We propose an efficient handover decision algorithm for aerial networks consisting of drones entitled net-drones
Summary
With the advance of wireless communication technology, our daily life has greatly changed in every aspect. Traditional handover decision algorithms typically assume that the coverage of each AP is the same, which does not apply to net-drones with different altitudes in the three-dimensional space [9]. We propose a coverage decision algorithm for seamless handover of net-drones. (i) We propose a handover algorithm that takes into account the heterogeneous coverage of net-drones due to the three-dimensional distribution. (ii) we present the optimal coverage decision algorithm that makes the coverage of net-drones the same for improving the network performance of netdrones.
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