KVANT TAHDIDI: KVANT HISOBLASHNING XALQARO KIBERXAVFSIZLIKKA TAʼSIRINI VA YANGI HUQUQIY BAZALARGA SHOSHILINCH EHTIYOJNI OʻRGANISH

Mualliflar

Kalit so‘zlar:

kvant hisoblash, kiberxavfsizlik, kriptografiya, xalqaro huquq, global boshqaruv, geosiyosat, rivojlanayotgan texnologiyalar, raqamli xavfsizlik, kvant tahdidi, kvantdan keyingi kriptografiya

Annotatsiya

Kvant hisoblashning jadal rivojlanishi tobora raqamlashtirilayotgan dunyomizning kiberxavfsizligiga jiddiy tahdid solmoqda. Kvant kompyuterlari yanada kuchliroq boʻlgani va foydalanish imkoni ortgani sari ularda ayni paytda nozik maʼlumotlarimiz, moliyaviy operatsiyalarimiz va muhim infratuzilmani himoya qiladigan koʻplab kriptografik algoritmlarni buzish potensiali paydo boʻlmoqda. Yaqinlashib kelayotgan ushbu “kvant tahdidi” shaxslar, tashkilotlar va davlatlar uchun keng qamrovli oqibatlarga olib boradi, chunki bu maʼlumotlarning keng tarqalishiga, iqtisodiy buzilishlarga va milliy xavfsizlikka putur yetkazishi mumkin. Ushbu xavf tobora ortib borayotgani eʼtirof etilishiga qaramay, mavjud huquqiy va meʼyoriy bazalar kvant kibertahdidlari keltirib chiqaradigan oʻziga xos muammolarini hal qilish uchun aytarli darajada tayyor emas. Bundan tashqari, kvant inqilobining geosiyosiy oqibatlari murakkab va serqirra boʻlib, global kuchlar muvozanatini oʻzgartirib yuborish hamda texnologik tengsizliklarni kuchaytirish qobiliyatiga ega. Ushbu xatarlarni yumshatish va kvant tayyorgarligini oshirish uchun xalqaro hamjamiyat zudlik bilan texnik, iqtisodiy, huquqiy va siyosiy sohalarni qamrab oluvchi yangi qonunchilik asoslari hamda hamkorlik mexanizmlarini ishlab chiqishga ehtiyoj sezmoqda. Ushbu maqola kiberxavfsizlikka kvant tahdidining fanlararo tahlilini taqdim etadi, uning turli sektorlar va xalqaro munosabatlardagi potensial taʼsirini oʻrganadi hamda keng qamrovli global boshqaruv tizimini ishlab chiqish uchun siyosat boʻyicha tavsiyalar beradi. Koʻp manfaatdor tomonlarning hamkorligi va kvantga chidamli yechimlar yordamida ushbu muammoni faol hal qilish orqali biz mazkur transformatsion texnologiya oldida yanada xavfsizroq va mustahkam raqamli kelajak sari harakat qilishimiz mumkin.

Iqtiboslar

1. Bernstein D.J., Heninger N., Lou P., Valenta L. Post-quantum cryptography. Nature, 2017,

vol. 549 (7671), pp. 188–194. DOI: 10.1038/nature23461

2. National Academies of Sciences, Engineering, and Medicine. Quantum computing: Progress and prospects. The National Academies Press, 2019. DOI: 10.17226/25196

3. Mohseni M., Read P., Neven H., Boixo S., Denchev V., Babbush R., Fowler A., Smelyanskiy V., Martinis J. Commercialize quantum technologies in five years. Nature, 2017, vol. 543 (7644),

pp. 171–174. DOI: 10.1038/543171a

4. Herman M., Horowitz M., Shukla S., Stanton B., Wright G. How will the advent of quantum computing affect the cyber security landscape? Georgetown Journal of International Affairs, 2017, vol. 18 (3), pp. 118–127. Available at: https://www.jstor.org/stable/26395934

5. Shor P.W. Polynomial-time algorithms for prime factorization and discrete logarithms on a quantum computer. SIAM Review, 1999, vol. 41 (2), pp. 303–332. DOI: 10.1137/S0036144598347011

6. Buchanan B. The cybersecurity dilemma: Hacking, trust, and fear between nations. Oxford University Press, 2017.

7. Vermeer M., Peet E.D. Securing communications in the quantum computing age: Managing the risks to encryption. No. RR-3102-RC. RAND Corporation, 2021. DOI: 7249/RR3102

9. Arute F., Arya K., Babbush R., Bacon D., Bardin J.C., Barends R., Biswas R., Boixo S., Brandao F.G., Buell D.A., Burkett B., Chen Y., Chen Z., Chiaro B., Collins R., Courtney W., Dunsworth A., Farhi E., Foxen B., Martinis J.M. Quantum supremacy using a programmable superconducting processor. Nature, 2019, vol. 574 (7779), pp. 505–510. DOI: 10.1038/s41586-019-1666-5

10. IBM. IBM unveils breakthrough 127-qubit quantum processor. 2021. Available at: https://newsroom.ibm.com/2021-11-16-IBM-Unveils-Breakthrough-127-Qubit-Quantum-Processor

12. NIST. Post-quantum cryptography: Round 3 submissions. 2020. Available at: https://csrc.nist.gov/Projects/post-quantum-cryptography/round-3-submissions

13. Cloud Security Alliance. Quantum-safe security: Preparing for the post-quantum world. 2019. Available at: https://cloudsecurityalliance.org/artifacts/quantum-safe-security-preparing-for-the-post-quantum-world/

14. Dyakonov M. When will useful quantum computers be constructed? Not in the foreseeable future, this physicist argues. Hereʼs why: The case against: Quantum computing. IEEE Spectrum, 2018, vol. 5 (3), pp. 24–29. DOI: 10.1109/MSPEC.2018.8278134

16. White J., Saunders D.L., Dreibelbis J. The economic impact of cybercrime: No slowing down.

No. PE-614.1. RAND Corporation, 2019. Available at: https://www.rand.org/pubs/external_publications/PE614-1.html

17. Lewis J.A. Cryptography after the quantum revolution. Eds. L. Gyongyosi, S. Imre. IntechOpen. Advanced quantum technologies, 2020, pp. 35–47. DOI: 10.5772/intechopen.90471

20. Kemp J., Vedral V., Stevens T. Quantum technologies in international relations. Journal of International Relations and Development, 2021, no. 24, pp. 671–680. DOI: 10.1057/s41268-021-00229-9

22. European Parliament and Council. Regulation (EU) 2016/679 of the European Parliament and of the Council of 27 April 2016 on the protection of natural persons with regard to the processing of personal data and on the free movement of such data, and repealing Directive 95/46/EC. General Data Protection Regulation. Official Journal of the European Union, 2016, L119, pp. 1–88. Available at: https://eur-lex.europa.eu/legal-content/EN/TXT/PDF/?uri=CELEX:32016R0679

23. Council of Europe. Convention on Cybercrime. European Treaty Series, 2001, no. 185. Available at: https://rm.coe.int/1680081561

24. U.S. Congress. National Quantum Initiative Act. Public Law No: 115-368. 2018, 21 December. Available at: https://www.congress.gov/bill/115th-congress/house-bill/6227

25. Standing Committee of the National Peopleʼs Congress. Cryptography Law of the Peopleʼs Republic of China. 2019. Available at: http://www.npc.gov.cn/npc/c30834/201910/6f7be7dd5ae5459a8de8baf36296bc74.shtml

26. Government of Japan. Cybersecurity strategy, 2021. Available at: https://www.nisc.go.jp/eng/pdf/cs-senryaku2021-en.pdf

27. Kania E.B. Chinaʼs quantum future. Foreign Affairs, 2018. Available at: https://www.foreignaffairs.com/articles/china/2018-09-26/chinas-quantum-future

28. Harrell P., Malkin E., Hoffman S. Chinaʼs efforts in quantum information science: Drivers, milestones, and strategic implications. No. IDA Document D-10709. Institute for Defense Analyses. 2018.

29. Monteleone C., Puccio L., Madiega T., Szczepanski M. European Parliament Briefing: Quantum technologies: What are they about and why are they important? 2021. Available at: https://www.europarl.europa.eu/RegData/etudes/BRIE/2021/696188/EPRS_BRI(2021)696188_EN.pdf

30. United Nations Institute for Disarmament Research. The impact of quantum technologies on the future of cybersecurity. 2019. Available at: https://css.ethz.ch/content/dam/ethz/special-interest/gess/cis/center-for-securities-studies/pdfs/UNIDIR-Impact-QT-CyberSecurity.pdf

31. Fischer S. Quantum technology and nuclear stability: A critical assessment. Bulletin of the Atomic Scientists, 2019, vol. 75 (5), pp. 214–219. DOI: 10.1080/00963402.2019.1654272

32. Loft P., Bellis K., Butcher S. Quantum technologies. UK Parliamentary Office of Science and Technology. 2021. Available at: https://researchbriefings.files.parliament.uk/documents/POST-PN-0552/POST-PN-0552.pdf

33. Federal Department of Foreign Affairs. Switzerlandʼs foreign policy strategy 2020–2023: Digital foreign policy strategy 2021–2024. Available at: https://www.eda.admin.ch/dam/eda/en/documents/publications/SchweizerischeAussenpolitik/Digistrat-2024_EN.pdf

34. European Commission. Quantum Flagship, 2021. Available at: https://qt.eu/

35. Lee H.M., Becket R., Bromley T.R., Howe P.D., Vieu C. Global governance of quantum technologies: Opportunities and challenges. Eds. R. Vohra, C. Wulf, M. Eichhammer. Quantum technology and optimization problems, Springer International Publishing, 2020, pp. 1–12. DOI: 10.1007/978-3-030-42019-9_1

36. Reddy S., Sharma R., Ballakur A. Multistakeholder approaches to governing quantum technologies. Ed. N. Datta. Disruptive quantum technologies, Springer Singapore, 2021,

pp. 57–88. DOI: 10.1007/978-981-16-3138-6_3

37. World Economic Forum. Quantum Computing Governance Network. 2021. Available at: https://www.weforum.org/platforms/shaping-the-future-of-digital-economy-and-new-value-creation/quantum-computing-governance-principles

Yuklab Olishlar

Nashr qilingan

2024-05-17

Son

Jild 4 Raq. 2 (2024): Yurisprudensiya

Bo‘lim

Articles

Qanday Iqtibos Keltirish

KVANT TAHDIDI: KVANT HISOBLASHNING XALQARO KIBERXAVFSIZLIKKA TAʼSIRINI VA YANGI HUQUQIY BAZALARGA SHOSHILINCH EHTIYOJNI OʻRGANISH. (2024). YURISPRUDENSIYA, 4(2), 102-112. https://yurisprudensiya.tsul.uz/index.php/yurisprudensiya/article/view/618