MAXIMIZING COLLABORATIVE EFFECTIVENESS AMONG MULTI-ROBOTS WITH DYNAMIC INTER-EXCHANGEABILITY

Organization Name

International Business Machines Corporation

Inventor(s)

Sarbajit K. Rakshit of Kolkata (IN)

MAXIMIZING COLLABORATIVE EFFECTIVENESS AMONG MULTI-ROBOTS WITH DYNAMIC INTER-EXCHANGEABILITY - A simplified explanation of the abstract

This abstract first appeared for US patent application 18171690 titled 'MAXIMIZING COLLABORATIVE EFFECTIVENESS AMONG MULTI-ROBOTS WITH DYNAMIC INTER-EXCHANGEABILITY

Simplified Explanation: The patent application describes a computer system and method for maximizing collaborative effectiveness among multi-robots with dynamic inter-exchangeability. It involves identifying interchangeable parts among robots, simulating scenarios using digital twin models, and optimizing collaborative effectiveness by exchanging these parts among the robots.

Key Features and Innovation:

• Identification of interchangeable parts among robots in a multi-robotic ecosystem.
• Use of digital twin models to simulate scenarios of exchanging parts among robots.
• Optimization of collaborative effectiveness by exchanging interchangeable parts based on simulation results.
• Instruction of robots to physically exchange interchangeable parts to maximize collaboration.

Potential Applications: This technology could be applied in various industries such as manufacturing, logistics, and healthcare where multiple robots work together on tasks that require dynamic interchangeability of parts.

Problems Solved: This technology addresses the challenge of maximizing collaborative effectiveness among multi-robots by identifying and exchanging interchangeable parts to optimize performance.

Benefits:

• Improved efficiency and productivity in multi-robotic ecosystems.
• Enhanced collaboration and coordination among robots.
• Cost savings through optimized resource utilization.

Commercial Applications: Maximizing collaborative effectiveness among multi-robots with dynamic inter-exchangeability can have significant commercial applications in industries such as automated manufacturing, warehouse management, and robotic surgery.

Prior Art: Readers interested in prior art related to this technology can explore research papers, patents, and industry publications on collaborative robotics, digital twin technology, and multi-robot systems.

Frequently Updated Research: Researchers are continually exploring advancements in collaborative robotics, digital twin modeling, and optimization algorithms for multi-robot systems. Stay updated on the latest developments in these areas for insights into future innovations.

Questions about Maximizing Collaborative Effectiveness Among Multi-Robots: 1. How does this technology improve the overall performance of multi-robotic ecosystems? 2. What are the key factors considered in identifying the optimum scenario for exchanging interchangeable parts among robots?

Original Abstract Submitted

A computer-implemented method, a computer program product, and a computer system for maximizing collaborative effectiveness among multi-robots with dynamic inter-exchangeability. A computer identifies inter-exchangeable parts among robots performing an activity in a multi-robotic ecosystem. A computer uses digital twin models to simulate scenarios of combining respective ones of the inter-exchangeable parts and respective ones of the robots. A computer identifies an optimum scenario in which collaborative effectiveness is maximized by exchanging the inter-exchangeable parts among the robots, based on results of digital twin model simulations. A computer, for the optimum scenario, identifies among the robots first robots whose inter-exchangeable parts are to be exchanged and one or more second robots that help the first robots exchange the inter-exchangeable parts. A computer instructs the first robots and the one or more second robots to perform physical exchange of the inter-exchangeable parts of the first robots.