Abstract
Many hazardous industrial incidents can occur due to the inadequate and inefficient monitoring of the offshore plants. Manual inspections of the offshore plants on a regular basis is not only time consuming but also dangerous regarding to human safety. For considering the safety measurement and alleviating the burden of the manual inspection, unmanned aerial vehicles (UAVs) can be effectively utilized to collect data from the remote industrial environment. In an industrial scenario, less delay is required for emergency packets and high throughput is needed for monitoring packets. This paper proposes a priority-aware fast MAC (PF-MAC) protocol for UAV-assisted industrial Internet-of-things (IIoT) systems, ensuring fast and robust data delivery. At first, the IoT devices under the UAV communication range transmit a reservation frame to the UAV to catch transmission opportunities using CSMA/CA. The devices utilize static traffic priority and a novel adaptive backoff mechanism during CSMA/CA. After receiving the reservation frames from the IoT devices, the UAV calculates the dynamic device priority based on their static traffic priority, communication duration, sampling frequency, and remaining energy. Then, time slot is assigned by the UAV to each device for data transmission. To ensure fairness, if a device fails in contention during the CSMA/CA period, the static traffic priority is raised in the next retransmission. There is no prior work in the literature that considers both the traffic priority and the device priority to ensure Quality of Service in IIoT and related systems. According to our performance study, the proposed PF-MAC outperforms the conventional protocols in terms of delay and throughput.
Highlights
Unmanned aerial vehicles (UAVs) have gained enormous attention from researcher communities and commercial industries [1]
This paper’s main contributions are as follows: 1) A priority-aware fast medium access control (MAC) (PF-MAC) protocol is proposed for UAV-assisted remotely located industrial Internet-of-things (IIoT) systems with Quality of Service (QoS) requirements, which is a hybrid MAC protocol incorporated with the CSMA/CA and time-division multiple-access (TDMA) mechanisms
PRIORITY OF Internet of Things (IoT) DEVICES In this subsection, we describe the priority outline of IoT devices based on static traffic priority and dynamic device priority in detail
Summary
Unmanned aerial vehicles (UAVs) have gained enormous attention from researcher communities and commercial industries [1]. Moh: PF-MAC Protocol for UAV-Assisted IIoT Systems to both academia and industry Many organizations such as Global Information Grid [11], Oneweb [12], and SpaceX [13] began their SAGIN ventures in recent years. UAV-based networks can expand bandwidth for large areas with high service requirements, while Internet of Things (IoT) devices located on ground can provide the connectivity with high data rate. Energy efficiency has become a major challenge for remotely located IoT systems Such battery-constrained devices can need energy-efficient mechanisms for channel access and transmission control. This paper’s main contributions are as follows: 1) A priority-aware fast MAC (PF-MAC) protocol is proposed for UAV-assisted remotely located IIoT systems with QoS requirements, which is a hybrid MAC protocol incorporated with the CSMA/CA and TDMA mechanisms.
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