Abstract
Reconfigurable intelligent surfaces (RIS), a device made of low-cost meta-surfaces that can reflect or refract the signals in the desired manner, have the immense ability to enhance the data transmission from the sender to the receiver. The concept of RIS is inspired by a smart radio environment or programmable radio environment. The introduction of this device in wireless communications aids in reducing the hardware requirements, energy consumption, and signal processing complexity. The integration of this device with various emerging technologies such as multiple-input multiple-output (MIMO) systems, non-orthogonal multiple access (NOMA) technique, physical layer security, etc., has increased its potentiality in terms of performance enhancement. One such integration could be studied, i.e. RIS-assisted unmanned aerial vehicles (UAVs). The UAVs exhibit aiding capability in various services to our society such as real-time data collection, traffic monitoring, military operations & surveillance, medical assistance, and goods delivery. Despite the positive appeal, the UAV has its limitations such as fuel efficacy, environment disturbances, limited network capability, etc. Considering these scenarios, the RIS can provide assistance to UAVs to enhance their performance when integrated. There is a limited number of articles and researches that consider UAV-assisted RIS systems. This article provides a detailed survey on RIS-assisted UAV systems considering multiple contexts such as optimization, communication techniques, deep reinforcement learning, secrecy performance, efficiency enhancement, and the internet of things. Finally, we draw attention to the open challenges and possible future directions of UAV-assisted RIS systems in phase shifting, channel modeling, energy efficacy, and federated learning.
Highlights
Future wireless networks are expected to be intelligent with sensing and computing platform
This is the first paper dedicated to writing a survey on unmanned aerial vehicles (UAVs)-assisted Reconfigurable intelligent surfaces (RIS) systems and we have primarily focused on all the articles that provide a major contribution to the field
The integration of UAV and RIS has paved the way for possible approaches to enhance data transmission, spectral efficiency, and distant communications while optimizing energy consumption
Summary
Future wireless networks are expected to be intelligent with sensing and computing platform. RIS being a different technology provides major addition to any network or device it associates with like increasing the signal capacity and channel gain, low-cost, and deployable on any kind of surface. In [24], the authors have focused on analyzing and enhancing the performance of RISassisted NOMA system in presence of hardware impairments and efficiently optimized the power allocation, transmit SNR and number of meta-surfaces at RIS, whereas for a similar system, authors in [25], [26] have considered imperfect CSI. UAV provides immense flexibility in deployment, coverage area, throughput, and energy efficacy, the effective utilization of UAV-enabled communication networks were efficiently enhanced by optimizing various parameters, such as trajectory [29]- [32], placement optimization [33], [34], bandwidth and power allocation [35].
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