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Related Experiment Video

Updated: Sep 27, 2025

Large Scale Energy Efficient Sensor Network Routing Using a Quantum Processor Unit
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On the Robustness of Quantum Algorithms for Blockchain Consensus.

Muhammad Asad Ullah1, Jason William Setiawan1, Junaid Ur Rehman1

  • 1Department of Electronics and Information Convergence Engineering, Kyung Hee University, Yongin-si 17104, Gyeonggi-do, Korea.

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|April 12, 2022
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Summary

Quantum consensus algorithms show promise for blockchain networks but face noise challenges. Current protocols are best suited for specific intra-enterprise blockchain applications due to noise sensitivity.

Keywords:
blockchain consensusdistributed sensor networksmodular computing unitsquantum algorithmsquantum noise

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Area of Science:

  • Quantum Computing
  • Blockchain Technology
  • Network Security

Background:

  • Blockchain relies on consensus algorithms for distributed networks.
  • Key performance metrics include scalability, security, and decentralization.
  • Quantum computing offers potential advancements for consensus mechanisms.

Purpose of the Study:

  • Evaluate quantum consensus algorithms for blockchain-enhanced networks.
  • Assess noise robustness against quantum decoherence.
  • Compare performance against scalability, security, and decentralization metrics.

Main Methods:

  • Investigated quantum consensus schemes' noise robustness.
  • Analyzed effects of quantum decoherence in processors and fiber-optic channels.
  • Examined error rates in list distribution under quantum noise.

Main Results:

  • Quantum noise generally increases error rates in list distribution.
  • Entanglement-free schemes are more susceptible to local noise than entanglement-based ones.
  • Noisy optical fiber links significantly impact all quantum consensus schemes.

Conclusions:

  • Current quantum protocols are viable for modular units in intra-enterprise blockchain networks.
  • Noisy intermediate-scale quantum devices and communication limit broader application.
  • Further research needed to overcome noise limitations for robust quantum blockchain consensus.