A Zynq-Based Robotic System for Treatment of Contagious Diseases in Hospital Isolated Environment

A Zynq-Based Robotic System for Treatment of Contagious Diseases in Hospital Isolated Environment

Michael Birbas, Christos Paparizos, Nikolaos Tsafas

The rapid evolution of smart assisted living operations in combination with the blooming of commercial robots calls for the use of robotic based systems. Specifically, certain circumstances such as the handling of critical, contagious virus outbreaks like the recent novel Coronavirus epidemic can be benefited by an assisting mobile robot system controlled remotely, complementing measures like the isolation of patients from medical stuff. Within this context, the robotic-based solution to be employed needs to be easy to deploy, able to manufacture with low cost, and able to operate with ease by non-trained personnel. Also, to address the needs of existing hospitals, traditional or smart ones, as well as the temporary risk management facilities in, for example, quarantined cities, ease of integration in terms of size and infrastructure requirements is a must. In this work, the design and implementation of a robotic chassis bearing an arm manipulator is presented, addressing all these needs efficiently. Special attention has been given to the ease of teleoperation with minimal need for equipment and expertise, utilizing a Leap Motion virtual reality sensor which outweighs Microsoft’s Kinect capabilities. Furthermore, a reconfigurable hardware and software integrated system has been used to control the communication, algorithm processing and motion control utilizing a Xilinx Zynq system on chip (SoC).

2020

virtual reality, Robotics, Field Programmable Gate Array (FPGA), mechatronics, Embedded, System on a chip (SoC)

DOI: 10.3390/technologies8020028

Technologies

MDPI AG

Technology