BEGIN:VCALENDAR VERSION:2.0 PRODID:-//linuxsoftware.nz//NONSGML Joyous v1.4//EN BEGIN:VEVENT SUMMARY:Towards Quantum Sensor Networks DTSTART:20240726T090000Z DTEND:20240726T110000Z DTSTAMP:20260419T071054Z UID:1568f5a6-f1d9-465a-bfaa-664d4f7d2bb3 SEQUENCE:1 CREATED:20240725T092637Z DESCRIPTION:Quantum sensor networks are a framework for distributed quantu m sensing. In particular\, they aim at characterizing protocols for sensin g where each of the parties have access to a local parameter\, and in part icular\, to a local channel that encodes this parameter over their quantum resources. In this project we start by investigating the privacy in such protocols\, where only the information about a target linear function of t he local parameters is available to every party. As a result we find a com plete description of the states that hold this property\, in terms of the target function\, and the resource distribution. Using these results\, we then proceed to find a set of problems that can be described by a linear f unction of local values\, which now can be seen as evaluations of a field in the different locations. Using this we find go and non-go results under which this problem converges to the correct solution\, and if not\, ways to find the corresponding error. This will be related with the locations o f the sensors and the model of the field available. Both works pave a path towards the deployment of a quantum sensor network. LAST-MODIFIED:20240725T092637Z LOCATION:Online URL:http://df.vps.tecnico.ulisboa.pt/en/events/towards-quantum-sensor-netw orks/ X-ALT-DESC;FMTTYPE=text/html:

Quantum sensor netw orks are a framework for distributed quantum sensing. In particular\, they aim at characterizing protocols for sensing where each of the parties hav e access to a local parameter\, and in particular\, to a local channel tha t encodes this parameter over their quantum resources. In this project we start by investigating the privacy in such protocols\, where only the info rmation about a target linear function of the local parameters is availabl e to every party.

As a result we find a complete description of the states that hold this property\, in terms of the target function\, and the resource distribution. Using these results\, we then proceed to find a set of problems that can be described by a linear function of local valu es\, which now can be seen as evaluations of a field in the different loca tions.

Using this we find go and non-go results under which this problem converges to the correct solution\, and if not\, ways to find the corresponding error. This will be related with the locations of the senso rs and the model of the field available. Both works pave a path towards th e deployment of a quantum sensor network.

END:VEVENT END:VCALENDAR