NFT-based 車輛與零件履歷驗證平台

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姓名

吳宗儒(Tsung-Ju Wu) 查詢紙本館藏

畢業系所

資訊管理學系在職專班

論文名稱

NFT-based 車輛與零件履歷驗證平台

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至系統瀏覽論文 (2024-8-6以後開放)

摘要(中)

為了達成環境永續的願景，如何減少車輛的產生及可回收零件的重覆利用將會是有效降低碳排放量的重要任務。本論文透過以區塊鏈建立非同質化代幣(以下簡稱NFT)的方式，讓賣家在販售車輛時能夠提供完整的生產履歷，期待可為二手車市場達成防範不實車輛資訊的功能。當車輛進入二手拍賣市場時，讓消費者可藉由透明且具公信力的生產履歷，了解這部車輛從生產、交易到拍賣之間總共經歷的維修紀錄以及詳細資訊之外，並可加速車輛擁有權及相關資訊驗證。如此一來，可避免大量的紙張浪費及提高使用者購買二手車意願，另外車輛零件的使用記錄也可明確有效地記錄著，故可回收利用零件的機會也將大大地提升，故可改善環保議題。

摘要(英)

In order to achieve the vision of environmental sustainability, how to reduce the production of vehicles and reuse of recyclable parts will be an important task to effectively reduce carbon emissions. In this paper, by establishing a non-fungible token (referred to as NFT) on the blockchain, the seller can provide a complete production history when selling vehicles, hoping to achieve the ability of preventing false vehicle information in the used car market. When a vehicle is listed in the second-hand auction market, consumers can take advantage of the transparent and credible production history to understand the whole maintenance records and the detailed information of the vehicle from production, transaction to auction, and to speed up the verification of the car ownership and its corresponding information. In this way, a lot of paper waste can be avoided and users′ willingness to buy used cars can be increased. In addition, the service records of vehicle parts can also be clearly and effectively recorded, so the chances of recycling parts will also be greatly improved. In the end, the proposed method should be a decent method to address environmental protection. issues.

關鍵字(中)

★ NFT
★ 區塊鏈
★ 限時驗證
★ 二手車

關鍵字(英)

論文目次

中文摘要 I
Abstract II
誌謝 III
目錄 IV
表目錄 VI
圖目錄 VII
第一章緒論 1
1.1 研究背景 1
1.2 研究動機與目的 3
1.3 論文架構 4
第二章文獻探討 6
2.1 區塊鏈(Blockchain) 6
2.2 智慧合約(smart contract) 6
2.2.1 ERC-20(Fungible Token) 7
2.2.2 ERC-721(Non-Fungible Token) 9
2.2.3 ERC-1155 10
第三章研究架構 12
3.1 研究目標 12
3.2 研究假設 12
3.3 系統架構 12
3.4 系統流程 15
3.5 臨時授權名單 17
3.6 具隱私防護之限時驗證 18
第四章系統實驗 20
第五章資訊安全與系統效能分析 35
5.1 永續經營狀況分析 35
5.2 資訊安全分析 36
5.2.1 軟體完整性 36
5.2.2 APT攻擊 36
5.2.3 限時驗證 36
5.3 系統效能分析 37
第六章結論與未來展望 39
參考文獻 40

參考文獻

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指導教授

葉羅堯

審核日期

2022-8-8

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