Quantum Controlled Error-Correction Teleportation (QCECT) Scheme for Satellite Control and Communication

TL;DR

This paper proposes a quantum teleportation scheme with integrated error correction for satellite control, enabling precise coordinate transmission and adjustment via quantum states.

Contribution

It introduces a novel 5-qubit controlled teleportation scheme combined with a 3-qubit error correction circuit for satellite communication.

Findings

Successful encoding of satellite coordinates on the Bloch sphere

Effective quantum error correction during teleportation

Potential for real-time satellite control via quantum communication

Abstract

A 5-qubit quantum controlled teleportation scheme incorporated with a 3-qubit quantum error-corrective circuit is proposed for satellite control and communication. This means that the coordinates of a satellite on the unit two-dimensional Bloch sphere representation can be sent to the ground based operator via quantum teleportation. Applying quantum rotation operators to the initial quantum state, to obtain desired changes, the corrected/desired quantum state can be sent back to the satellite to adjust its coordinates.