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Arhitektura in izvedba bločne verige za računsko šibka okolja
ID Komić, Armin (Author), ID Trček, Denis (Mentor) More about this mentor... This link opens in a new window

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Abstract
Tehnologija veriženja blokov omogoča, da na varen, transparenten in preverljiv način shranjujemo podatke v tako imenovane bloke, ki se z uporabo kriptografije med sabo kronološko povežejo v verigo. Podatki se hranijo v mreži osebnih računalnikov, kar pomeni, da so decentralizirani in razpršeni. Glavna lastnost tehnologije bločnih verig je, da si nihče ne more lastiti sistema in ga lahko zato uporablja in soupravlja vsak. Za zagotavljanje pravilnosti podatkov oz. transakcij in doseganje decentraliziranega konsenza se uporabljajo različni mehanizmi, ki velikokrat zahtevajo veliko računskih virov, katerih v določenih okoljih z veliko potenciala in uporabnosti, kot so internet stvari (IoT) in pametni telefoni, ne moremo zagotoviti. V tem delu raziščemo možnosti uporabe tehnologije veriženja blokov (in porazdeljenih beležnic na splošno, angl. distributed ledgers) v računsko šibkih okoljih, pregledamo obstoječe rešitve in pristope ter jih med sabo primerjamo. Glede na rezultate izberemo najbolj primeren pristop, ga podrobno analiziramo in opišemo. Na osnovi tega pripravimo omrežje, katerega sestavljajo računsko šibke naprave (Raspberry PI) in prototip aplikacije, ki s tem omrežjem komunicira in dodaja podatke v bločno verigo.

Language:Slovenian
Keywords:bločna veriga, IoT, protokoli konsenza, IOTA, porazdeljena beležnica
Work type:Master's thesis/paper
Typology:2.09 - Master's Thesis
Organization:FRI - Faculty of Computer and Information Science
Year:2022
PID:20.500.12556/RUL-142643 This link opens in a new window
COBISS.SI-ID:131582211 This link opens in a new window
Publication date in RUL:17.11.2022
Views:637
Downloads:99
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Secondary language

Language:English
Title:Blockchain architecture and implementation for computationally weak environments
Abstract:
Blockchain technology allows us to store data in a secure, transparent, and verifiable manner in so-called blocks, which are chronologically linked to each other in a chain using cryptography. The data is stored in a network of computers, which is decentralized and distributed. The main feature of blockchain technology is that no one can take over the ownership of the system, while anyone can use and co-manage it. To ensure correctness of data or transactions and achieve decentralized consensus, various mechanisms are used, which often require a lot of computing resources, which we cannot provide in certain environments, such as Internet of Things (IoT) and smartphones. In this work, we explore the possibilities of using blockchain technology (and distributed ledgers in general) in computationally weak environments, review existing solutions and approaches, and compare them with each other. Based on the results, we choose the most appropriate approach and analyze and describe it in detail. Based on this, we setup and evaluate a network consisting of computationally weak devices (Raspberry PI) and a prototype application that communicates with this network and adds data to the blockchain.

Keywords:blockchain, IoT, consensus protocols, IOTA, distributed ledger

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