Abstract
In this article, a Collaborative Control Protocol for Robotic and Cyber-Physical System (CCP-CPS) is presented. CCP-CPS, which enables an application of robotics in a CPS system for smart and precision agriculture (PA), aims to monitor and identify stresses in greenhouse crops by a hyperspectral analysis method. Roles of CCP-CPS are to assign tasks to agents, identify and resolve conflicts and errors in the system, and enable a more effective collaboration and interaction among agents in CPS, compared to traditional non-collaborative and non-CPS approach. Collaborative Control Theory (CCT) is utilized for two system levels; protocol and agent level (CCP level), and CPS and environment level (CPS level). We use two case studies to test and validate our method with alternative approaches. The results from computer simulation show that 1) CCP-CPS can identify the highest number of greenhouse locations containing stresses, 2) CCP-CPS can utilize available resources (time) effectively, and 3) CCP-CPS can respond to an emergency stress situation faster and have more tolerance capability with system conflicts and errors, by having human integration and cyber-augmented greenhouse system, than other monitoring systems.
Original language | English |
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Pages (from-to) | 235-242 |
Number of pages | 8 |
Journal | Procedia Manufacturing |
Volume | 39 |
DOIs | |
State | Published - 1 Jan 2019 |
Externally published | Yes |
Event | 25th International Conference on Production Research Manufacturing Innovation: Cyber Physical Manufacturing, ICPR 2019 - Chicago, United States Duration: 9 Aug 2019 → 14 Aug 2019 |
Keywords
- Agricultural Robotic System
- Collaborative Agents
- Collaborative Control Theory
- Greenhouse
- Precision Agriculture
ASJC Scopus subject areas
- Industrial and Manufacturing Engineering
- Artificial Intelligence