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• Multi-Database Quantum Symmetric Private Information Retrieval without Shared Randomness
  ...c security. It is a multi-database scheme that works on top of a classical multi-database PIR scheme by [http://citeseerx.ist.psu.edu/viewdoc/download?doi=1 [[:Category:Multi Party Protocols|Multi Party Protocol]],
  10 KB (1,708 words) - 11:03, 28 July 2021
• GHZ-based Quantum Anonymous Transmission
  ...:Category: Multi Party Protocols|Multi Party Protocols]] [[Category: Multi Party Protocols]], [[:Category:Specific Task|Specific Task]][[Category:Specific
  10 KB (1,423 words) - 16:16, 16 October 2019
• Gottesman and Chuang Quantum Digital Signature
  '''Tags:''' [[:Category:Multi Party Protocols|Multi Party (three)]], [[:Category:Quantum Enhanced Classical Functionality|Quantum Enh [[Category:Multi Party Protocols]][[Category:Quantum Enhanced Classical Functionality]][[Category:
  11 KB (1,788 words) - 11:53, 10 May 2024
• Authentication of Quantum Messages
  ...functionality of [[Quantum Digital Signature|digital signatures]], a multi-party (more than two) protocol, which comes with additional properties (non-repud ...ags:''' [[:Category:Two Party Protocols|Two Party Protocol]][[Category:Two Party Protocols]], [[Quantum Digital Signature]], [[:Category:Quantum Functionali
  8 KB (1,148 words) - 19:49, 16 January 2022
• Measurement Device Independent Quantum Digital Signature (MDI-QDS)
  '''Tags:''' [[:Category: Multi Party Protocols|Multi Party (three)]], [[:Category: Quantum Enhanced Classical Functionality|Quantum En [[Category: Multi Party]][[Category: Quantum Enhanced Classical Functionality]][[Category: Specific
  12 KB (1,884 words) - 16:25, 16 October 2019
• Fast Quantum Byzantine Agreement
  ...:Category: Multi Party Protocols|Multi Party Protocols]] [[Category: Multi Party Protocols]], [[:Category:Specific Task|Specific Task]][[Category:Specific
  13 KB (2,013 words) - 16:19, 16 October 2019
• Secure Multiparty Delegated Quantum Computation
  '''Tags:''' [[:Category:Multi Party Protocols|Multi Party Protocols]], [[:Category:Quantum Functionality|Quantum Functionality]], [[: [[Category:Multi Party Protocols]] [[Category:Quantum Functionality]][[Category:Universal Task]]
  13 KB (2,097 words) - 16:41, 16 October 2019
• Arbitrated Quantum Digital Signature
  ...c Task]], [[:Category:Multi Party Protocols|Multi Party]] [[Category:Multi Party Protocols]][[Category:Specific Task]] * Private-key generation (PKG) is a trusted third party, arbitrator.
  15 KB (2,456 words) - 16:26, 16 October 2019
• Multi-Database Classical Symmetric Private Information Retrieval with Quantum Key Distribution
  ...thus do without the assumption of perfectly secured channels of classical multi-database SPIR protocols. ...Private Information Retrieval|Symmetric Private Information Retrieval]], [[Multi-Database]], [[One-Round Protocol]].
  13 KB (2,187 words) - 12:31, 26 July 2021
• Quantum Oblivious Transfer
  ...er and receiver. It is generally used as a building block for secure multi-party computation such as bit commitment. The functionality of OT is the followin '''Tags:''' [[:Category:Two Party Protocols|Two Party Protocols]], [[:Category:Quantum Enhanced Classical Functionality|Quantum E
  9 KB (1,525 words) - 16:34, 16 October 2019
• Prepare and Measure Quantum Digital Signature
  '''Tags:''' [[:Category:Multi Party Protocols|Multi Party (three)]], [[:Category:Quantum Enhanced Classical Functionality|Quantum Enh [[Category:Multi Party Protocols]] [[Category:Quantum Enhanced Classical Functionality]][[Category
  15 KB (2,252 words) - 16:24, 16 October 2019
• Routing Entanglement in the Quantum Internet
  '''Tags:''' [[:Category: Multi Party Protocols|Multi Party]], [[:Category: Specific Task|Specific Task]]. This situation motivates the '''Multi-flow Spatial-division''' rule which divides the the network between two sp
  13 KB (2,120 words) - 20:03, 6 January 2022
• Certified infinite randomness expansion
  * The honest measurement that party A would make given an input of 0 * The honest measurement that party A would make given an input of 1
  14 KB (2,328 words) - 18:46, 4 November 2019
• Device-Independent Quantum Key Distribution
  ...rotocol is a classical secret key which is completely unknown to any third party, namely an eavesdropper. ...stribution]], [[BB84 Quantum Key Distribution|BB84 QKD]], [[Category:Multi Party Protocols]] [[Category:Quantum Enhanced Classical Functionality]][[Category
  10 KB (1,605 words) - 16:36, 4 November 2019
• BB84 Quantum Key Distribution
  ...rotocol is a classical secret key which is completely unknown to any third party, namely an eavesdropper. ...endent Quantum Key Distribution|Device Independent QKD]], [[Category:Multi Party Protocols]] [[Category:Quantum Enhanced Classical Functionality]][[Category
  12 KB (1,927 words) - 13:53, 15 June 2022
• Practical Quantum Electronic Voting
  '''Tags:''' [[:Category: Multi Party Protocols|Multi Party Protocols]], [[:Category: Quantum Enhanced Classical Functionality| Quantum
  14 KB (2,260 words) - 02:10, 1 February 2022
• Glossary
  An entangled state is the quantum state of a group of particled (or a two party or multiparty system) that cannot be described as the independent states of ...ndetermined, even if there was no contact, no classical disturbance. A two party quantum state with above property can be described with the following state
  33 KB (5,413 words) - 15:30, 12 July 2022
• Verifiable Quantum Anonymous Transmission
  ...1 example protocol] implements the task of [[Anonymous Transmission]] in a multi-node quantum network. The protocol uses an untrusted <math>n</math>-partite ...all-caps">Verification</span> was experimentally demonstrated for 3- and 4-party GHZ states in [[Verifiable Quantum Anonymous Transmission#References|[5]]].
  18 KB (2,612 words) - 16:18, 16 October 2019