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http://dx.doi.org/10.7472/jksii.2022.23.3.47

Development of The Safe Driving Reward System for Truck Digital Tachograph using Hyperledger Fabric  

Kim, Yong-bae (Industry-University Cooperation Foundation, Sangmyung University)
Back, Juyong (Quantum Gate Inc.)
Kim, Jongweon (Dept. of IIOT, Sangmyung University)
Publication Information
Journal of Internet Computing and Services / v.23, no.3, 2022 , pp. 47-56 More about this Journal
Abstract
The safe driving reward system aims to reduce the loss of life and property by reducing the occurrence of accidents by motivating safe driving and encouraging active participation by providing direct reward to vehicle drivers who have performed safe driving. In the case of the existing digital tachograph, the goal is to limit dangerous driving by recording the driving status of the vehicle whereas the safe driving reward system is a support measure to increase the effect of accident prevention and induces safe driving with financial reward when safe driving is performed. In other words, in an area where accidents due to speeding are high, direct reward is provided to motivate safe driving to prevent traffic accidents when safe driving instructions such as speed compliance, maintaining distance between vehicles, and driving in designated lanes are performed. Since these safe operation data and reward histories must be managed transparently and safely, the reward evidences and histories were constructed using the closed blockchain Hyperledger Fabric. However, while transparency and safety are guaranteed in the blockchain system, low data processing speed is a problem. In this study, the sequential block generation speed was as low as 10 TPS(transaction per second), and as a result of applying the acceleration function a high-performance network of 1,000 TPS or more was implemented.
Keywords
Blockchain; DTG(Digital Tacho-Graph); Hyperledger Fabric; Lightweight Blockchain; Random Seed; SDRS(Safe Driving Reward System); SDCN(Safe Driving Channel Network); SDRCN(Safe Driving Reward Channel Network);
Citations & Related Records
Times Cited By KSCI : 2  (Citation Analysis)
연도 인용수 순위
1 Yongbae Kim, Juyong Back, Jongweon Kim, "A Tamper-Resistant Algorithm Using Blockchain for the Digital Tachograph", Electronics, 2021. https://doi.org/10.3390/electronics10050581   DOI
2 사업용 차량 디지털운행기록계 장착 의무화, 국토해양부 보도자료, 2010.
3 이유미, "태호.유찬이법 국회통과", 연합뉴스, http://yna.co.kr/view/AKR20200429213000001, 2020.
4 Nakamoto, Satoshi "Bitcoin P2P e-cash paper", Archived from the original on 28 December 2012. https://archive.is/DUcfX (31 October 2008)
5 Adrian Gallagher, Litecoin Project, https://blog.litecoin.org , 2022.
6 Ethereum Foundation, https://ethereum.org/en, 2022.
7 Ripple Company, https://ripple.com, 2022.
8 https://www.bitcoincash.org, 2022.
9 https://eos.io, 2022.
10 J.S. Park, J.Y. Park, S.M. Choi, J.T. Oh, K.Y. Kim, "Past, Present and Future of Blockchain Technology", Electronics and Telecommunications Trends, Vol 33, No.6, pp.139-153, 2018. https://doi.org/10.22648/ETRI.2018.J.330614   DOI
11 Su-Hwan Bae, Sun-Ok Cho, Yong-Tae Shin, "A System Recovery Using Hyper-ledger Fabric BlockChain", Vol12, No.2, 2019. https://doi.org/10.17661/jkiiect.2019.12.2.155   DOI
12 Shafkat Islam, Shahriar Badsha, Shamik Sengupta, "A Light-weight Blockchain Architecture for V2V", IEEE International Smart Cities Conference (ISC2), 2020. http://doi.org/10.1109/ISC251055.2020.9239055   DOI
13 Caliper Benchmarks, "Hyperledger Blockchain Performance Reports", https://hyperledger.github.io/caliper-benchmarks, 2022.
14 Hyperledger Fabric Client SDK for Go, 2022. https://pkg.go.dev/github.com/hyperledger/fabric-sdk-go