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Kvantno šifriranje na osnovi superpozicije
ID TREBOVAC, ANJA (Author), ID Batagelj, Boštjan (Mentor) More about this mentor... This link opens in a new window

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Abstract
Kljub dobrim trem desetletjem od odkritja osnovnih kvantnih algoritmom za varen prenos šifrirnega ključa, tehnologija še vedno ni dobro razširjena v strokovni javnosti in širši družbi. Eden od osnovnih namenov zaključne naloge je ustvariti pisno delo, ki širšim množicam pomaga pri razumevanju kvantnega šifriranja. Raziskovalni problem poskuša najti način za varni prenos informacij preko telekomunikacijskih omrežjih. V nalogi je najprej pojasnjeno kaj je šifriranje v splošnem in za kaj ga rabimo. Nadalje je s pomočjo načel kvantne mehanike, v reševanje problema uvedeno kvantno šifriranje. Predstavljen je njen pomen pri varni komunikaciji, kjer je varnost podatkov odvisno od uporabljenega šifrirnega algoritma in dolžine ključa. Glavni problem varnosti je razdeljevanje ključa med uporabnike. Diplomsko delo odgovarja na vprašanje, kako vpliva izguba fotonov v komunikacijskem kanalu na prenos šifrirnega ključa. Opredeljeni so vzroki izgube fotonov, ki so v osnovi lahko zaradi nepopolne komunikacijske opreme in tudi zaradi zlonamernega prisluškovanja. Diplomsko delo bazira na kvantnem razdeljevanju ključa po protokolih BB84 in B92 ter s pomočjo simulacij kvantnih pojavov opredeli vpliv izgubljenih fotonov v posameznem protokolu. Opredeljeno je tudi trenutno stanje varnosti, ki ga ponuja kvantno šifriranje, ter morebitni izzivi in omejitve. V nalogi je opredeljena tudi natančnost sinhronizacije oddajnika in sprejemnika šifrirnega ključa pri na kvantnem prenosu osnovanem na razdeljevanju šifrirnega ključa. V zaključku so povzete ključne točke diplomske naloge in nakazana prihodnosti kvantne kriptografije in kvantnega šifriranja pri komunikacijski varnosti.

Language:Slovenian
Keywords:kvantno šifriranje, varne komunikacije, kvantni algoritem, kvantna kriptografija, kvantno razdeljevanje ključa
Work type:Bachelor thesis/paper
Organization:FE - Faculty of Electrical Engineering
Year:2023
PID:20.500.12556/RUL-147384 This link opens in a new window
COBISS.SI-ID:158200579 This link opens in a new window
Publication date in RUL:04.07.2023
Views:940
Downloads:161
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Secondary language

Language:English
Title:Quantum cryptography based on superposition
Abstract:
Despite three decades of discovery of fundamental quantum algorithms for secure key exchange, the technology is still not well-established in professional and social usage. This thesis focuses on helping the general public understand quantum encryption. Here, we attempt to find a way to secure information transmission over telecommunication networks. The theses first defines cryptography and its purpose. Moving on, quantum cryptography is introduced as a solution to the problem using the principles of quantum mechanics. Its significance in secure communication is presented, where data security depends on which encryption algorithm is used and the length of the key. The biggest security issue, hence the concern, lies in key distribution among different users. You will find an answer to different questions while reading this theses, one of which is, "How does the loss of photons in the communication channel affect key transmission?". The causes of photon loss are identified, which can be due to imperfect communication equipment or malicious spying. The thesis is based on quantum key distribution protocols BB84 and B92. Through simulations of quantum phenomena, it defines the impact of lost photons in each protocol. The current state of security offered by quantum encryption is also defined, along with potential challenges and limitations. This paper also defines the accuracy of synchronization between the transmitter and receiver of the encryption key in a quantum-based key exchange. In conclusion the key points of the theses are summarized and the future of quantum cryptography and quantum encryption in communication security is shown.

Keywords:quantum encryption, secure communications, quantum algorithm, quantum cryptography, quantum key distribution

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