Hierarchical Quantum Information Splitting of an Arbitrary Two-Qubit State Based on a Decision Tree

Li, Dongfen; Zheng, Yundan; Liu, Xiaofang; Zhou, Jie; Tan, Yuqiao; Yang, Xiaolong; Liu, Mingzhe

doi:10.3390/math10234571

Mathematics

2022

DOI: 10.3390/math10234571

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Hierarchical Quantum Information Splitting of an Arbitrary Two-Qubit State Based on a Decision Tree

Dongfen Li

Yundan Zheng

Xiaofang Liu

et al.

Abstract: Quantum informatics is a new subject formed by the intersection of quantum mechanics and informatics. Quantum communication is a new way to transmit quantum states through quantum entanglement, quantum teleportation, and quantum information splitting. Based on the research of multiparticle state quantum information splitting, this paper innovatively combines the decision tree algorithm of machine learning with quantum communication to solve the problem of channel particle allocation in quantum communication, a… Show more

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Cited by 2 publications

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“…In 2022, Li et al proposed a scheme for hierarchical remote preparation of a general high-dimensional equatorial state by using four-particle entangled state as the quantum channel [66]. Li et al proposed a protocol for hierarchical quantum information splitting of an arbitrary two-qubit state with multiparticle entangled state [67]. In 2023, Jin et al proposed a scheme for hierarchical remote preparation of the d-dimensional m-particle state by using the d-dimensional entangled state å ñ…”

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confidence: 99%

Mentor initialed multiparty hierarchical joint remote preparation of an arbitrary n-qudit state via generalized Bell states

Jing,

Huang,

et al. 2024

Phys. Scr.

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We propose a protocol to Mentor initiated hierarchical joint remote prepare the arbitrary n-qudit state with generalized Bell states.The agents share generalized Bell states with the Mentor. The Mentor performs five-qudit projective measurements on his entangled particles to initiate the quantum channel shared by the agents. All the senders share the information of the prepared state and make quantum measurements on their particles based on the state to be prepared. The agent in the upper grade needs only the assistance of one of the agents in the lower grade to reconstruct the original state, while the agents in the lower grade need the assistance of all the other agents to recover the original state. It is more convenient in application than others since the agents in the protocol only requires two-particle entanglement for Mentor initiated hierarchical joint remote preparation of an arbitrary n-qudit state.

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mentioning

confidence: 99%

Mentor initialed multiparty hierarchical joint remote preparation of an arbitrary n-qudit state via generalized Bell states

Jing,

Huang,

et al. 2024

Phys. Scr.

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Hierarchical Controlled Hybrid Quantum Communication Based on Six-Qubit Entangled States in IoT

Hua,

Li,

et al. 2023

Sensors

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The rapid development and extensive application of the Internet of Things (IoT) have brought new challenges and opportunities to the field of communication. By integrating quantum secure communication with the IoT, we can provide a higher level of security and privacy protection to counteract security threats in the IoT. In this paper, a hybrid quantum communication scheme using six-qubit entangled states as a channel is proposed for specific IoT application scenarios. This scheme achieves hierarchical control of communication protocols on a single quantum channel. In the proposed scheme, device A transmits data to device B through quantum teleportation, while device B issues control commands to device A through remote quantum state preparation technology. These two tasks are controlled by control nodes C and D, respectively. The transmission of information from device A to device B is a relatively less important task, which can be solely controlled by control node C. On the other hand, issuing control commands from device B to device A is a more crucial task requiring joint control from control nodes C and D. This paper describes the proposed scheme and conducts simulation experiments using IBM’s Qiskit Aer quantum computing simulator. The results demonstrate that the fidelity of the quantum teleportation protocol (QTP) and the remote state preparation protocol (RSP) reach an impressive value of 0.999, fully validating the scheme’s feasibility. Furthermore, the factors affecting the fidelity of the hybrid communication protocol in an IoT environment with specific quantum noise are analyzed. By combining the security of quantum communication with the application scenarios of the IoT, this paper presents a new possibility for IoT communication.

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Hierarchical Quantum Information Splitting of an Arbitrary Two-Qubit State Based on a Decision Tree

Cited by 2 publications

References 34 publications

Mentor initialed multiparty hierarchical joint remote preparation of an arbitrary n-qudit state via generalized Bell states

Mentor initialed multiparty hierarchical joint remote preparation of an arbitrary n-qudit state via generalized Bell states

Hierarchical Controlled Hybrid Quantum Communication Based on Six-Qubit Entangled States in IoT

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