Towards an AI-Driven Cyber-Physical System for Closed-Loop Control of Plant Diseases

Abhisesh Silwal; Xuemei M. Zhang; Thomas Hadlock; Jacob Neice; Shadab Haque; Adwait Kaundanya; Chang Lu; Boris A. Vinatzer; George Kantor; Song Li

doi:10.1609/aaaiss.v4i1.31828

Authors

Abhisesh Silwal Robotic Institute, Carnegie Mellon University
Xuemei M. Zhang School of Plant and Environmental Sciences, Virginia Tech
Thomas Hadlock Department of Chemical Engineering, Virginia Tech
Jacob Neice Department of Chemical Engineering, Virginia Tech
Shadab Haque Department of Electronic and Computer Engineering, Virginia Tech
Adwait Kaundanya Department of Electronic and Computer Engineering, Virginia Tech
Chang Lu Department of Chemical Engineering, Virginia Tech
Boris A. Vinatzer School of Plant and Environmental Sciences, Virginia Tech
George Kantor Robotic Institute, Carnegie Mellon University
Song Li School of Plant and Environmental Sciences, Virginia Tech

DOI:

https://doi.org/10.1609/aaaiss.v4i1.31828

Abstract

Plant diseases are a major biosecurity threat to food production and the bio-energy industry. Early detection and control of plant diseases can improve producers’ profitability and reduce environmental impacts from chemical inputs. We proposed to develop a cyber-physical system with three major components: an AI-driven imaging system for early stress detection, an autonomous robotic system to collect plant samples, and a sequencing pipeline to detect molecular signatures of pathogens for disease confirmation. This system is envisioned to control a detected disease by removing or pruning infected plants. This manuscript describes the major milestones achieved by this CPS project and provides a future perspective on disease control automation in agriculture.

Towards an AI-Driven Cyber-Physical System for Closed-Loop Control of Plant Diseases

Authors

DOI:

Abstract

Downloads

Published

How to Cite

Issue

Section

Information