Abstract
As more vehicles connect to the internet, they become an important and growing segment of Internet of Things (IoT). To enhance the performance of vehicle-to-network (V2N) communication with green objectives, satellite and unmanned aerial vehicle (UAV) are jointly applied to aid ground communication facility by leveraging the coordinated multi-point transmission technique. This paper investigates a novel architecture of V2N communication in the space-air-ground integrated IoT network consisted of ground base stations (BSs), a UAV as well as one satellite. In the V2N communication model, the UAV, receiving the requested data from the satellite, and BS cooperatively serve the ground vehicle. The goal of this paper is to maximize the achievable rate of the ground vehicle by jointly optimizing the transmit power allocations (i.e., UAV and ground BS) and UAV trajectory, subjecting to the UAV energy constraint, UAV transmission constraint as well as UAV mobility constraint. However, there exists an intractable issue of the formulated problem in a complicated non-convex form. To this end, we decompose it into two sub-problems by fixing UAV trajectory and the power allocations alternately. Specifically, the closed-form expressions are derived to solve the sub-problem with the given UAV trajectory. For the sub-problem with the given power allocations, the UAV trajectory is calculated by using successive convex approximation (SCA) technique. Through the alternation of two methods and iterative operation, the joint optimal solution to the problem is achieved. Finally, numerical results verify that UAV plays a pivotal role in overcoming the tradeoff between higher performance and green communication.
Highlights
Internet of Things (IoT) is rapidly changing how we live [1]–[4]
We study the joint unmanned aerial vehicle (UAV) trajectory and power optimization problem with energy constraint to achieve the optimal performance of the communication infrastructure in the space-air-ground integrated IoT network
SIMULATION RESULTS AND ANALYSIS numerical simulations are performed by Matlab software to validate the efficiencies and performance of the proposed algorithm, which is used to solve the joint trajectory and power optimization problem for V2N communication in space-air-ground integrated green IoT networks
Summary
Internet of Things (IoT) is rapidly changing how we live [1]–[4]. This is true of the field of intelligent transportation, which is where some of the biggest innovations are being developed and implemented [5], [6]. Machina research shows that the connected vehicle market is one of the highest growth areas of the IoT, with a potential application. Vehicle-to-network (V2N) communication has attracted considerable attention for the purposes of high reliability of data transmission and intelligent driving [7]–[10]. It is urgent to build a robust communication facility for supporting the various demands from V2N communications [11]–[13]
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