Q3056496 (Q3056496): Difference between revisions
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(Created claim: summary (P836): Project summary: The aim of the project is to implement the newly developed quantum cryptographic solutions, to develop and adapt the software tools most suitable for computing infrastructure, as well as to develop modern cryptographic practices in Latvia. 1) assess the speed and efficiency of data transmission based on quantum encryption using existing optical transmission lines; 2) develop secure cryptographic protocols and software prototypes...) |
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Project summary: The aim of the project is to implement the newly developed quantum cryptographic solutions, to develop and adapt the software tools most suitable for computing infrastructure, as well as to develop modern cryptographic practices in Latvia. 1) assess the speed and efficiency of data transmission based on quantum encryption using existing optical transmission lines; 2) develop secure cryptographic protocols and software prototypes for remote access, using “classic” channels for quantum key distribution on devices that will provide streaming services from high entropy and high-speed quantum case number generators and joint access to quantum key distribution centres only linked to quantum communication channels; 3) to develop advanced security protocols and software prototypes for communication between devices equipped with built-in quantum case generators.Key activities:1) Study on the use of cryptographic technologies and infrastructure possibilities in Latvia. This includes an analytical study on the use of cryptographic techniques in Latvia at present and an assessment of the capabilities of the existing communication infrastructure to partially support the transmission of pure quantum information. (WP1)2) Development of new methods (including cryptographic protocols) and software prototypes for integrated quantum and classic key distribution systems based on common quantum key distribution platforms (QKDS). This includes the development of a common remote quantum case generator (QRNG) streaming service and the development of key distribution protocol based on remote access to two or more QKDS centres associated with clean quantum encryption channels. (WP2)3) Prototyping of new methods and software to provide an additional level of security in communication between QRNG computing devices. This includes authentication of users with QRNG for generating secret keys for IC chip cards. (WP3)The project work plan also includes WP4 activity, which complements above and includes the tasks of scientific management of the project, communication and dissemination of research results, as well as management of intellectual property and tasks related to the use of project results.Adapted results:1) Evaluation of cryptographic technologies and infrastructure capabilities in Latvia, including evaluation of secure communication and key exchange infrastructure capabilities based on quantum transmission channels only. Quantum cryptography; Generation of case numbers; Key distribution systems; Cryptographic protocols.Type of study: Industrial research (100 %).Project type: Project related to economic activity. RIS3 smart specialisation project: Information and communication technologies (ICT).Classification of the project NACE Rev. 2: 72.19 “Other research and experimental development in natural sciences and engineering”.Project sector (according to OECD FORD classification):- Natural science (computer science and information science): OECD-FORD-1.2;- Engineering and technology (Electronics, Electronics, Information Technology): OECD-FORD-2.2 Project total cost: Amount of aid from the ERDF: EUR 433628. Duration of the project activities: 30 months.Start date of project activities: 01.06.2021. (English) | |||||||||||||||
| Property / summary: Project summary: The aim of the project is to implement the newly developed quantum cryptographic solutions, to develop and adapt the software tools most suitable for computing infrastructure, as well as to develop modern cryptographic practices in Latvia. 1) assess the speed and efficiency of data transmission based on quantum encryption using existing optical transmission lines; 2) develop secure cryptographic protocols and software prototypes for remote access, using “classic” channels for quantum key distribution on devices that will provide streaming services from high entropy and high-speed quantum case number generators and joint access to quantum key distribution centres only linked to quantum communication channels; 3) to develop advanced security protocols and software prototypes for communication between devices equipped with built-in quantum case generators.Key activities:1) Study on the use of cryptographic technologies and infrastructure possibilities in Latvia. This includes an analytical study on the use of cryptographic techniques in Latvia at present and an assessment of the capabilities of the existing communication infrastructure to partially support the transmission of pure quantum information. (WP1)2) Development of new methods (including cryptographic protocols) and software prototypes for integrated quantum and classic key distribution systems based on common quantum key distribution platforms (QKDS). This includes the development of a common remote quantum case generator (QRNG) streaming service and the development of key distribution protocol based on remote access to two or more QKDS centres associated with clean quantum encryption channels. (WP2)3) Prototyping of new methods and software to provide an additional level of security in communication between QRNG computing devices. This includes authentication of users with QRNG for generating secret keys for IC chip cards. (WP3)The project work plan also includes WP4 activity, which complements above and includes the tasks of scientific management of the project, communication and dissemination of research results, as well as management of intellectual property and tasks related to the use of project results.Adapted results:1) Evaluation of cryptographic technologies and infrastructure capabilities in Latvia, including evaluation of secure communication and key exchange infrastructure capabilities based on quantum transmission channels only. Quantum cryptography; Generation of case numbers; Key distribution systems; Cryptographic protocols.Type of study: Industrial research (100 %).Project type: Project related to economic activity. RIS3 smart specialisation project: Information and communication technologies (ICT).Classification of the project NACE Rev. 2: 72.19 “Other research and experimental development in natural sciences and engineering”.Project sector (according to OECD FORD classification):- Natural science (computer science and information science): OECD-FORD-1.2;- Engineering and technology (Electronics, Electronics, Information Technology): OECD-FORD-2.2 Project total cost: Amount of aid from the ERDF: EUR 433628. Duration of the project activities: 30 months.Start date of project activities: 01.06.2021. (English) / rank | |||||||||||||||
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| Property / summary: Project summary: The aim of the project is to implement the newly developed quantum cryptographic solutions, to develop and adapt the software tools most suitable for computing infrastructure, as well as to develop modern cryptographic practices in Latvia. 1) assess the speed and efficiency of data transmission based on quantum encryption using existing optical transmission lines; 2) develop secure cryptographic protocols and software prototypes for remote access, using “classic” channels for quantum key distribution on devices that will provide streaming services from high entropy and high-speed quantum case number generators and joint access to quantum key distribution centres only linked to quantum communication channels; 3) to develop advanced security protocols and software prototypes for communication between devices equipped with built-in quantum case generators.Key activities:1) Study on the use of cryptographic technologies and infrastructure possibilities in Latvia. This includes an analytical study on the use of cryptographic techniques in Latvia at present and an assessment of the capabilities of the existing communication infrastructure to partially support the transmission of pure quantum information. (WP1)2) Development of new methods (including cryptographic protocols) and software prototypes for integrated quantum and classic key distribution systems based on common quantum key distribution platforms (QKDS). This includes the development of a common remote quantum case generator (QRNG) streaming service and the development of key distribution protocol based on remote access to two or more QKDS centres associated with clean quantum encryption channels. (WP2)3) Prototyping of new methods and software to provide an additional level of security in communication between QRNG computing devices. This includes authentication of users with QRNG for generating secret keys for IC chip cards. (WP3)The project work plan also includes WP4 activity, which complements above and includes the tasks of scientific management of the project, communication and dissemination of research results, as well as management of intellectual property and tasks related to the use of project results.Adapted results:1) Evaluation of cryptographic technologies and infrastructure capabilities in Latvia, including evaluation of secure communication and key exchange infrastructure capabilities based on quantum transmission channels only. Quantum cryptography; Generation of case numbers; Key distribution systems; Cryptographic protocols.Type of study: Industrial research (100 %).Project type: Project related to economic activity. RIS3 smart specialisation project: Information and communication technologies (ICT).Classification of the project NACE Rev. 2: 72.19 “Other research and experimental development in natural sciences and engineering”.Project sector (according to OECD FORD classification):- Natural science (computer science and information science): OECD-FORD-1.2;- Engineering and technology (Electronics, Electronics, Information Technology): OECD-FORD-2.2 Project total cost: Amount of aid from the ERDF: EUR 433628. Duration of the project activities: 30 months.Start date of project activities: 01.06.2021. (English) / qualifier | |||||||||||||||
point in time: 15 July 2021
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Revision as of 12:35, 15 July 2021
Project Q3056496 in Latvia
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Project Q3056496 in Latvia |
Statements
433,628.0 Euro
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667,120.0 Euro
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1 June 2021
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30 November 2023
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Latvijas Universitātes Matemātikas un informātikas institūts
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56°56'59.89"N, 24°6'58.03"E
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Projekta kopsavilkums:Projekta mērķis ir ieviest jaunizveidotos kvantu kriptogrāfijas risinājumus, izstrādāt un pielāgot skaitļošanas infrastruktūrai vispiemērotākos programmatūras rīkus, kā arī attīstīt mūsdienīgu kriptogrāfijas paņēmienu izmantošanas praksi Latvijā.Konkrētie projekta mērķi ir: 1) novērtēt uz kvantu šifrēšanu balstītas datu pārraides ātrumu un efektivitāti, izmantojot esošās optiskās pārraides līnijas; 2) izstrādāt drošus kriptogrāfijas protokolus un programmatūras prototipus attālinātai piekļuvei, izmantojot "klasiskos" kanālus kvantu atslēgu izplatīšanu uz ierīcēm, kas nodrošinās straumēšanas pakalpojumus no augstas entropijas un ātrgaitas kvantu gadījumskaitļu ģeneratoriem un kopīgu piekļuvi kvantu atslēgu izplatīšanas centriem, kas saistīti tikai ar kvantu komunikāciju kanāli; 3) izstrādāt paaugstinātus drošības protokolus un programmatūras prototipus saziņai starp ierīcēm, kas aprīkotas ar iebūvētiem kvantu gadījumskaitļu ģeneratoriem.Galvenās aktivitātes:1) Pētījums par kriptogrāfijas tehnoloģiju izmantošanu un infrastruktūras iespējām Latvijā. Tas ietver analītisku pētījumu par kriptogrāfijas paņēmienu izmantošanu Latvijā šobrīd un esošās komunikāciju infrastruktūras spēju novērtēšanu, lai daļēji atbalstītu tīri kvantu informācijas pārraidi. (WP1)2) Jaunu metožu (ieskaitot kriptogrāfijas protokolus) un programmatūras prototipu izstrāde integrētām kvantu un klasiskās atslēgas izplatīšanas sistēmām, kuru pamatā ir kopīgas kvantu atslēgu izplatīšanas platformas (QKDS). Tas ietver kopīga attālināta kvantu gadījumskaitļu ģeneratora (QRNG) straumēšanas pakalpojumu attīstību un atslēgu izplatīšanas protokola attīstību, kas balstās uz attālinātu piekļuvi diviem vai vairākiem QKDS centriem, kas saistīti ar tīri kvantu šifrēšanas kanāliem. (WP2)3) Jaunu metožu un programmatūras prototipu izstrāde, lai nodrošinātu papildu drošības līmeni komunikācijā starp skaitļošanas ierīcēm, kas aprīkotas ar QRNG. Tas ietver arī lietotāju autentificēšanu ar QRNG izmantošanu slepenu atslēgu ģenerēšanai IC mikroshēmu kartēm. (WP3)Projekta darba plānā ir iekļauta arī WP4 aktivitāte, kas papildina iepriekš uzskaitītās un ietver projekta zinātniskās pārvaldības, pētniecības rezultātu komunikācijas un izplatīšanas uzdevumus, kā arī intelektuālā īpašuma pārvaldību un uzdevumus, kas saistīti ar projekta rezultātu izmantošanu.Sagaidāmie rezultāti:1) Kriptogrāfijas tehnoloģiju un infrastruktūras iespēju novērtēšana Latvijā, ieskaitot drošas komunikācijas un atslēgu apmaiņas infrastruktūras iespēju novērtējumu, pamatojoties tikai uz kvantu informācijas pārraides kanāliem.2) Metodes un laboratorijas līmeņa programmatūras prototipa ieviešana integrētām kvantu un klasisko atslēgu izplatīšanas sistēmām, kas balstās uz attālinātu piekļuvi koplietojamajām kvantu atslēgu izplatīšanas platformām.3) Metožu un laboratorijas līmeņa programmatūras prototipu ieviešana drošām komunikāciju lietojumprogrammām starp skaitļošanas ierīcēm, kas aprīkotas ar kvantu gadījumskaitļu ģeneratoriem.Atslēgas vārdi: Kvantu kriptogrāfija; gadījumskaitļu ģenerēšana; atslēgu izplatīšanas sistēmas; kriptogrāfiski protokoli.Pētījuma veids: rūpnieciskais pētījums (100%).Projekta tips: projekts, kas saistīts ar saimniecisko darbību.Projekta RIS3 viedās specializācijas joma: Informācijas un komunikāciju tehnoloģijas (IKT).Projekta NACE 2. red. klasifikācija: 72.19 "Pārējo pētījumu un eksperimentālo izstrāžu veikšana dabaszinātnēs un inženierzinātnēs".Projekta zinātnes nozare (atbilstoši OECD FORD klasifikācijai):- Dabaszinātnes (Datorzinātne un informācijas zinātne): ESAO-FORD-1.2;- Inženierzinātnes un tehnoloģijas (Elektrotehnika, elektronika, informācijas tehnoloģijas): ESAO-FORD-2.2.Projekta kopējās izmaksas: 672160 EUR.ERAF atbalsta apjoms: 433628 EUR.Projekta darbību ilgums: 30 mēneši.Projekta darbību sākuma datums: 01.06.2021. (Latvian)
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Project summary: The aim of the project is to implement the newly developed quantum cryptographic solutions, to develop and adapt the software tools most suitable for computing infrastructure, as well as to develop modern cryptographic practices in Latvia. 1) assess the speed and efficiency of data transmission based on quantum encryption using existing optical transmission lines; 2) develop secure cryptographic protocols and software prototypes for remote access, using “classic” channels for quantum key distribution on devices that will provide streaming services from high entropy and high-speed quantum case number generators and joint access to quantum key distribution centres only linked to quantum communication channels; 3) to develop advanced security protocols and software prototypes for communication between devices equipped with built-in quantum case generators.Key activities:1) Study on the use of cryptographic technologies and infrastructure possibilities in Latvia. This includes an analytical study on the use of cryptographic techniques in Latvia at present and an assessment of the capabilities of the existing communication infrastructure to partially support the transmission of pure quantum information. (WP1)2) Development of new methods (including cryptographic protocols) and software prototypes for integrated quantum and classic key distribution systems based on common quantum key distribution platforms (QKDS). This includes the development of a common remote quantum case generator (QRNG) streaming service and the development of key distribution protocol based on remote access to two or more QKDS centres associated with clean quantum encryption channels. (WP2)3) Prototyping of new methods and software to provide an additional level of security in communication between QRNG computing devices. This includes authentication of users with QRNG for generating secret keys for IC chip cards. (WP3)The project work plan also includes WP4 activity, which complements above and includes the tasks of scientific management of the project, communication and dissemination of research results, as well as management of intellectual property and tasks related to the use of project results.Adapted results:1) Evaluation of cryptographic technologies and infrastructure capabilities in Latvia, including evaluation of secure communication and key exchange infrastructure capabilities based on quantum transmission channels only. Quantum cryptography; Generation of case numbers; Key distribution systems; Cryptographic protocols.Type of study: Industrial research (100 %).Project type: Project related to economic activity. RIS3 smart specialisation project: Information and communication technologies (ICT).Classification of the project NACE Rev. 2: 72.19 “Other research and experimental development in natural sciences and engineering”.Project sector (according to OECD FORD classification):- Natural science (computer science and information science): OECD-FORD-1.2;- Engineering and technology (Electronics, Electronics, Information Technology): OECD-FORD-2.2 Project total cost: Amount of aid from the ERDF: EUR 433628. Duration of the project activities: 30 months.Start date of project activities: 01.06.2021. (English)
15 July 2021
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Raiņa bulvāris 29 - 1, Rīga, LV-1050
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Identifiers
1.1.1.1/20/A/106
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