Latency-aware and -predictable Communication with Open Protocol Stacks for Remote Drone Control

TL;DR

This paper develops a latency-aware open communication protocol stack for UAVs, demonstrated on Crazyflie drones, achieving latency comparable to proprietary links for remote control applications.

Contribution

It introduces an open protocol stack with latency predictability for UAV communication, extending Crazyflie with Wi-Fi control via Raspberry Pi.

Findings

Latency of 4 to 9 ms achieved, comparable to proprietary links.

Open protocol stack enables predictable, reliable drone communication.

Practical for real-time control in UAV swarms.

Abstract

In order to create cooperating swarms of Unmanned Autonomous Vehicles (UAVs) that also interact with various other systems and devices, open and free communication systems are mandatory. This paper presents an implementation of such a communication system to incorporate the Crazyflie nano-drone as a UAV platform. The protocol stack leverages the open Predictably Reliable Real-time Transport (PRRT) protocol that adds latency-awareness and -predictability to stacks composed of standard Internet protocols. To enable the drone to receive and reply to control commands via Wi-Fi, it has been extended with a Raspberry Pi that runs two variants of the Crazybridge---a software to connect the control board to the network. To evaluate how practical this solution is for the use in control applications, the communication has been analysed with a focus on the latency properties. Our investigations show that despite using the open protocol stack---and hence opting out of specialised implementations---the resulting latencies are in the same order of magnitude (4 to 9 ms) as the latency of the proprietary link.