In this paper,we propose a novel algorithm based on Zidan’s quantum computing model for remotely controlling the direction of a quantumcontrolledmobile robot equippedwith n-movements.The proposed algorithm is based o...In this paper,we propose a novel algorithm based on Zidan’s quantum computing model for remotely controlling the direction of a quantumcontrolledmobile robot equippedwith n-movements.The proposed algorithm is based on the measurement of concurrence value for the different movements of the robot.Consider a faraway robot that moves in the deep space(e.g.,moves toward a galaxy),and it is required to control the direction of this robot from a ground station by some person Alice.She sends an unknown qubitα|0)+β|1)via the teleportation protocol to the robot.Then,the proposed algorithm decodes the received unknown qubit into an angleθ,that determines the motion direction of the robot,based on the concurrence value.The proposed algorithm has been tested for four and eight movements.Two simulators have been tested;IBM Quantum composer and IBM’s system,The two simulators achieved the same result approximately.The motion of any part of the robot is considered,if it has a pre-existing sensor system and a locomotive system,.We can use this technique in many places like in space robots(16 directions).The results show that the proposed technique can be easily used for a huge number of movements.However,increasing the number of movements of the robot will increase the number of qubits.展开更多
文摘In this paper,we propose a novel algorithm based on Zidan’s quantum computing model for remotely controlling the direction of a quantumcontrolledmobile robot equippedwith n-movements.The proposed algorithm is based on the measurement of concurrence value for the different movements of the robot.Consider a faraway robot that moves in the deep space(e.g.,moves toward a galaxy),and it is required to control the direction of this robot from a ground station by some person Alice.She sends an unknown qubitα|0)+β|1)via the teleportation protocol to the robot.Then,the proposed algorithm decodes the received unknown qubit into an angleθ,that determines the motion direction of the robot,based on the concurrence value.The proposed algorithm has been tested for four and eight movements.Two simulators have been tested;IBM Quantum composer and IBM’s system,The two simulators achieved the same result approximately.The motion of any part of the robot is considered,if it has a pre-existing sensor system and a locomotive system,.We can use this technique in many places like in space robots(16 directions).The results show that the proposed technique can be easily used for a huge number of movements.However,increasing the number of movements of the robot will increase the number of qubits.