The Concept of Quantum Teleportation for Remote Control of a Car-like Mobile Robot

The Concept of Quantum Teleportation for Remote Control of a Car-like Mobile Robot

We describe a quantum teleportation protocol for exchanging data between a mobile robot and its control station. Because of the high cost of quantum network systems, we use MATLAB software to simulate the teleportation of data. Our simulation models the dynamic motion of a car-like mobile robot (CLM...

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Bibliographic Details
Main Authors: Joslin Numbi, Nadjet Zioui, Mohamed Tadjine
Format: Article
Language:English
Published: MDPI AG 2025-02-01
Series:Robotics
Subjects:
car-like robot
position control
quantum mechanics
quantum teleportation
quantum-inspired algorithm
Online Access:https://www.mdpi.com/2218-6581/14/3/25
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Summary:We describe a quantum teleportation protocol for exchanging data between a mobile robot and its control station. Because of the high cost of quantum network systems, we use MATLAB software to simulate the teleportation of data. Our simulation models the dynamic motion of a car-like mobile robot (CLMR), considering its mass and inertia and the environmental viscosity. Our remote control method accurately reproduces a mathematical model of the CLMR’s real-world motion. The CLMR’s trajectory is represented by differential equations, with the velocity calculated using the Jacobian matrix. The velocity inputs are teleported from the control station to the CLMR, enabling it to move. Nevertheless, physical constraints cause the deviation of the robot’s trajectory from the predicted trajectory. To correct this deviation, the CLMR’s current position is teleported to the control station. Before implementing this protocol, we calculate the quantum teleportation circuit, and we use quantum gates in matrix form to simulate the data teleportation process. The protocol’s accuracy is assessed by comparing the original data and teleported data, and a good match is obtained. This study demonstrates the feasibility of quantum teleportation for remotely controlling real-time robotic systems over long distances and in environments that interfere with classical wireless communication.
ISSN:2218-6581

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