Measurement Device Independent Quantum Digital Signature (MDI-QDS): Difference between revisions

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The [https://arxiv.org/pdf/1704.07178.pdf example protocol] achieves the functionality of [[Quantum Digital Signature]] (QDS) by allowing exchange of messages using the procedure studied in [[Prepare and Measure Quantum Digital Signature]] but without trusting one's measurement devices, thus making the protocol device independent. It uses the security proof of [[Measurement Device-Independent Quantum Key Distribution (MDI-QKD)|MDI-QKD]] to the QDS scheme for insecure channels [[Measurement Device Independent Quantum Digital Signature (MDI-QDS)#References|(1)]]. This scheme involves three parties and is designed for signing one bit and the authors suggest that longer messages can be signed by iterating the same process. All three [[Quantum Digital Signature#Properties|properties]] that define QDS i.e. non-repudiation, transferability and unforgeability are implied by the protocol.</br></br>
The [https://arxiv.org/pdf/1704.07178.pdf example protocol] achieves the functionality of [[Quantum Digital Signature]] (QDS) by allowing exchange of messages using the procedure studied in [[Prepare and Measure Quantum Digital Signature]] but without trusting one's measurement devices, thus making the protocol device independent. It uses the security proof of [[MDI-QKD]] to the QDS scheme for insecure channels [[Measurement Device Independent Quantum Digital Signature (MDI-QDS)#References|(1)]]. This scheme involves three parties and is designed for signing one bit and the authors suggest that longer messages can be signed by iterating the same process. All three [[Quantum Digital Signature#Properties|properties]] that define QDS i.e. non-repudiation, transferability and unforgeability are implied by the protocol.</br></br>
'''Tags:''' [[:Category: Multi Party Protocols|Multi Party (three)]], [[:Category: Quantum Enhanced Classical Functionality|Quantum Enhanced Classical Functionality]], [[:Category: Specific Task|Specific Task]], [[Quantum Digital Signature]] (QDS), [[Prepare and Send Quantum Digital Signature|Prepare and Measure QDS]], QKD
'''Tags:''' [[:Category: Multi Party Protocols|Multi Party (three)]], [[:Category: Quantum Enhanced Classical Functionality|Quantum Enhanced Classical Functionality]], [[:Category: Specific Task|Specific Task]], [[Quantum Digital Signature]] (QDS), [[Prepare and Send Quantum Digital Signature|Prepare and Measure QDS]], QKD
[[Category: Multi Party]][[Category: Quantum Enhanced Classical Functionality]][[Category: Specific Task]]
[[Category: Multi Party]][[Category: Quantum Enhanced Classical Functionality]][[Category: Specific Task]]
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==Assumptions==
==Assumptions==
* There exists authenticated classical channels between Sender and Receiver and Sender and Verifier.
* There exists authenticated classical channels between Sender and Receiver and Sender and Verifier.
* Receiver and Verifier share a [[Measurement Device-Independent Quantum Key Distribution (MDI-QKD)|MDI-QKD]] link, used to transmit classical messages in full secrecy
* Receiver and Verifier share a [[MDI-QKD]] link, used to transmit classical messages in full secrecy


==Outline==
==Outline==
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**''Measurement''
**''Measurement''
**''Sifting''
**''Sifting''
For detailed description, see [[Measurement Device-Independent Quantum Key Distribution (MDI-QKD)|MDI-QKD]]).
*'''Symmetrisation:''' Buyer and Verifier exchange half of their randomly chosen eliminated signature elements. This prevents a dishonest seller succeed in cheating by sending dissimilar public keys to the receiver and makes the protocol secure against repudiation. Thus ends the distribution phase.
*'''Symmetrisation:''' Buyer and Verifier exchange half of their randomly chosen eliminated signature elements. This prevents a dishonest seller succeed in cheating by sending dissimilar public keys to the receiver and makes the protocol secure against repudiation. Thus ends the distribution phase.
Similarly, Messaging Phase is divided into the following steps:
Similarly, Messaging Phase is divided into the following steps:
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