DeepAI AI Chat
Log In Sign Up

Distributed Coordination Based on Quantum Entanglement

10/19/2022
by   Yotam Ashkenazi, et al.
Ben-Gurion University of the Negev
0

This paper demonstrates and proves that the coordination of actions in a distributed swarm can be enhanced by using quantum entanglement. In particular, we focus on - Global and local simultaneous random walks, using entangled qubits that collapse into the same (or opposite) direction, either random direction or totally controlled simultaneous movements. - Identifying eavesdropping from malicious eavesdroppers aimed at disturbing the simultaneous random walks by using entangled qubits that were sent at random or with predefined bases. - Identifying Byzantine robots or malicious robots that are trying to gain secret information or are attacking the system using entangled qubits. - The use of Pseudo Telepathy to coordinate robots' actions.

READ FULL TEXT

page 1

page 2

page 3

page 4

03/20/2020

Multi-party Quantum Byzantine Agreement Without Entanglement

In this paper we propose a protocol of quantum communication to achieve ...
08/01/2020

Order from chaos in quantum walks on cyclic graphs

It has been shown classically that combining two chaotic random walks ca...
02/03/2021

One-shot multi-sender decoupling and simultaneous decoding for the quantum MAC

In this work, we prove a novel one-shot multi-sender decoupling theorem ...
10/24/2018

Simultaneous transmission of classical and quantum information under channel uncertainty and jamming attacks

We derive universal codes for simultaneous transmission of classical mes...
10/14/2022

Quantum Network Utility Maximization

Network Utility Maximization (NUM) is a mathematical framework that has ...