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Bibliographic Record
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- Material Type
- 規格・テクニカルリポート類
- Author/Editor
- Van meter, Rodney佐藤, 貴彦松尾, 賢明永山, 翔太鈴木, 茂哉Taherkhani, Mohammed AminDevitt, SimonStephens, AshleyGreentree, AndrewHorsman, DominicFowler, AustinChoi, Byung-Soo
- Author Heading
- Publication Date
- 2018
- Publication Date (W3CDTF)
- 2018
- Periodical title
- 科学研究費補助金研究成果報告書
- Subject Heading
- Target Audience
- 一般
- Note (General)
- 出版タイプ: VoRtype:text量子インターネットのエンジニアリングを推進した。Fowlerの通信アーキテクチャはsurface code誤り訂正をもとに設計される。まず最初に、我々はデバイスの欠陥からくるsurface codeの誤り耐性を向上し、資源消費の効率化を促す改善案を提案した。また、ネットワーク間での量子通信を可能とするルールベースの通信制御プロトコルを開発し、それをもとに、異なる品質のデバイスからなる量子インターネット上でより堅牢な接続を確立するために必要となる分散型量子トモグラフィプロトコルを考案した。 考案したプロトコルの評価を行うため、新しいシミュレータを開発し、性能の分析を行った。 We advanced the engineering of the quantum internet. Fowler's architecture for integrating error correction with communication depends on the surface code, while Jiang's depends on older error correction methods; we improved the tolerance of the surface code for physical defects and reduced its resource demands. We devised methods for creating entangled states that span nodes and networks using different encoding methods. One of the principal realities of quantum communication is the high error rates and heterogeneity across individual devices; we developed distributed quantum tomography protocols to support the establishment of connections across networks. Most importantly, we have created a RuleSet-based communication architecture that the nodes establishing a connection across the quantum internet will use to define the behavior of all nodes along the path, providing an easy-to- understand, easy-to-debug protocol framework for both applications and network routers and repeaters.研究種目 : 基盤研究 (B) (一般) 研究期間 : 2016~2018 課題番号 : 16H02812 研究分野 : 量子インターネット