Summary
Quantum Communications for ALL (QCALL) endeavors to take the next necessary steps to bring the developing quantum
technologies closer to the doorsteps of end users. Quantum communications (QC) is well-known for its offering ultra-secure
cryptographic key-exchange schemes—resilient to any future technological advancement. QCALL will empower a nucleus of
researchers in this area to provide secure communications in our continent and, in the long run, to our connections
worldwide. With the large scale violations of privacy in the EU exchange of information, this is a crucial moment to pursue
this objective. By covering a range of projects, with short, mid, and long-term visions, and using a balanced and multifaceted
training programme, QCALL trains a cadre of highly qualified interdisciplinary workforce capable of shaping the R&D section
of the field, hence accelerating its widespread adoption. This will ensure that EU will remain at the frontier of research on
secure communications and advanced QC systems and devices. In QCALL, we explore the challenges of integrating
quantum and classical communication networks; this will be essential in providing cost-efficient services. We experimentally
examine and theoretically study new protocols by which network users can exchange secure keys with each other. We
investigate disruptive technologies that enable wireless access to such quantum networks, and develop new
devices and protocols that enable multi-party QC. Our meticulously planned training programme includes components from
shared taught courses through to scientific schools and complementary-skill workshops, supplemented by secondment
opportunities and innovative outreach and dissemination activities. This will create a structured model for doctoral training in
EU that will last beyond the life of the project, so will the industry-academic collaborations that are essential to the
development of the disruptive technologies that will make QC available to ALL.
technologies closer to the doorsteps of end users. Quantum communications (QC) is well-known for its offering ultra-secure
cryptographic key-exchange schemes—resilient to any future technological advancement. QCALL will empower a nucleus of
researchers in this area to provide secure communications in our continent and, in the long run, to our connections
worldwide. With the large scale violations of privacy in the EU exchange of information, this is a crucial moment to pursue
this objective. By covering a range of projects, with short, mid, and long-term visions, and using a balanced and multifaceted
training programme, QCALL trains a cadre of highly qualified interdisciplinary workforce capable of shaping the R&D section
of the field, hence accelerating its widespread adoption. This will ensure that EU will remain at the frontier of research on
secure communications and advanced QC systems and devices. In QCALL, we explore the challenges of integrating
quantum and classical communication networks; this will be essential in providing cost-efficient services. We experimentally
examine and theoretically study new protocols by which network users can exchange secure keys with each other. We
investigate disruptive technologies that enable wireless access to such quantum networks, and develop new
devices and protocols that enable multi-party QC. Our meticulously planned training programme includes components from
shared taught courses through to scientific schools and complementary-skill workshops, supplemented by secondment
opportunities and innovative outreach and dissemination activities. This will create a structured model for doctoral training in
EU that will last beyond the life of the project, so will the industry-academic collaborations that are essential to the
development of the disruptive technologies that will make QC available to ALL.
Unfold all
/
Fold all
More information & hyperlinks
Web resources: | https://cordis.europa.eu/project/id/675662 |
Start date: | 01-12-2016 |
End date: | 31-05-2021 |
Total budget - Public funding: | 3 924 884,52 Euro - 3 924 884,00 Euro |
Cordis data
Original description
Quantum Communications for ALL (QCALL) endeavors to take the next necessary steps to bring the developing quantumtechnologies closer to the doorsteps of end users. Quantum communications (QC) is well-known for its offering ultra-secure
cryptographic key-exchange schemes—resilient to any future technological advancement. QCALL will empower a nucleus of
researchers in this area to provide secure communications in our continent and, in the long run, to our connections
worldwide. With the large scale violations of privacy in the EU exchange of information, this is a crucial moment to pursue
this objective. By covering a range of projects, with short, mid, and long-term visions, and using a balanced and multifaceted
training programme, QCALL trains a cadre of highly qualified interdisciplinary workforce capable of shaping the R&D section
of the field, hence accelerating its widespread adoption. This will ensure that EU will remain at the frontier of research on
secure communications and advanced QC systems and devices. In QCALL, we explore the challenges of integrating
quantum and classical communication networks; this will be essential in providing cost-efficient services. We experimentally
examine and theoretically study new protocols by which network users can exchange secure keys with each other. We
investigate disruptive technologies that enable wireless access to such quantum networks, and develop new
devices and protocols that enable multi-party QC. Our meticulously planned training programme includes components from
shared taught courses through to scientific schools and complementary-skill workshops, supplemented by secondment
opportunities and innovative outreach and dissemination activities. This will create a structured model for doctoral training in
EU that will last beyond the life of the project, so will the industry-academic collaborations that are essential to the
development of the disruptive technologies that will make QC available to ALL.
Status
CLOSEDCall topic
MSCA-ITN-2015-ETNUpdate Date
28-04-2024
Images
No images available.
Geographical location(s)
Structured mapping
Unfold all
/
Fold all