Please use this identifier to cite or link to this item: http://hdl.handle.net/1942/28120
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dc.contributor.authorDebois, Soren-
dc.contributor.authorDumas, Marlon-
dc.contributor.authorHaarmann, Stephan-
dc.contributor.authorJacobsen, Hans-Arno-
dc.contributor.authorJANS, Mieke-
dc.contributor.authorMendling, Jan-
dc.contributor.authorStaples, Mark-
dc.contributor.authorWeber, Barbara-
dc.contributor.authorZerbato, Francesca-
dc.contributor.authorZhang, Kaiwen-
dc.date.accessioned2019-05-03T09:41:58Z-
dc.date.available2019-05-03T09:41:58Z-
dc.date.issued2019-
dc.identifier.citationDumas, Marlon; Hull, Richard; Mendling, Jan; Weber, Ingo (Ed.). Blockchain Technology for Collaborative Information Systems (Dagstuhl Seminar 18332), Schloss Dagstuhl--Leibniz-Zentrum fuer Informatik,p. 82-88-
dc.identifier.issn2192-5283-
dc.identifier.urihttp://hdl.handle.net/1942/28120-
dc.description.abstractBlockchain technology enables an evolving set of parties to maintain a safe, permanent, and tamper-proof ledger of transactions without a central authority. This technology opens manifold opportunities to redesign business-to-business collaborations, while bringing about numerous challenges. These opportunities and challenges were discussed in the Dagstuhl Seminar 18332 “Blockchain Technology for Collaborative Information Systems”. This report documents the program and the outcomes of the seminar.-
dc.language.isoen-
dc.publisherSchloss Dagstuhl--Leibniz-Zentrum fuer Informatik-
dc.relation.ispartofseriesDagstuhl Reports-
dc.rightsLicense Creative Commons BY 3.0 Unported license Søren Debois, Marlon Dumas, Stephan Haarmann, Hans-Arno Jacobsen, Mieke Jans, Jan Mendling, Mark Staples, Barbara Weber, Francesca Zerbato, Kaiwen Zhang-
dc.subject.otherBlockchain; BPM; Business Collaboration; Commerce; Logistics; Business Models (economic); Smart Contracts; Privacy-
dc.titleTwo Perspectives on Blockchains: Capabilities vs. Features-
dc.typeProceedings Paper-
local.bibliographicCitation.authorsDumas, Marlon-
local.bibliographicCitation.authorsHull, Richard-
local.bibliographicCitation.authorsMendling, Jan-
local.bibliographicCitation.authorsWeber, Ingo-
local.bibliographicCitation.conferencedateAugust 12-17, 2018-
local.bibliographicCitation.conferencenameDagstuhl Seminar 18332 : Blockchain Technology for Collaborative Information Systems-
local.bibliographicCitation.conferenceplaceWadern, Germany-
dc.identifier.epage88-
dc.identifier.spage82-
local.bibliographicCitation.jcatC1-
local.publisher.placeDagstuhl, Germany-
dc.relation.referencesRegulation (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, L119:1–88, April 2016. 2 Elli Androulaki, Artem Barger, Vita Bortnikov, Christian Cachin, Konstantinos Christidis, Angelo De Caro, David Enyeart, Christopher Ferris, Gennady Laventman, Yacov Manevich, et al. Hyperledger fabric: A distributed operating system for permissioned blockchains. arXiv preprint arXiv:1801.10228, 2018. 3 Luigi Atzori, Antonio Iera, and Giacomo Morabito. The Internet of Things: A survey. Computer Networks, 54:2787–2805, 2010. 4 Arshdeep Bahga and Vijay Madisetti. Blockchain Applications: A Hands-On Approach. VPT, 2017. 5 Thomas Baier, Claudio Di Ciccio, Jan Mendling, and Mathias Weske. Matching events and activities by integrating behavioral aspects and label analysis. Software and System Modeling, 17(2):573–598, 2018. 6 Thomas Baier, Jan Mendling, and Mathias Weske. Bridging abstraction layers in process mining. Information Systems, 46:123–139, 2014. 7 Juan Benet. Ipfs-content addressed, versioned, p2p file system, 2014. 8 Bitfury. Proof of stake vs proof of work. 9 Ethereum Blog. Merkling in Ethereum. https://blog.ethereum.org/2015/11/15/ merkling-in-ethereum/. Accessed: 2018-08-17. 10 Eric A. Brewer. A certain freedom: thoughts on the CAP theorem. In Andréa W. Richa and Rachid Guerraoui, editors, PODC, page 335. ACM, 2010. 11 Vitalik Buterin. Ethereum: A next-generation smart contract and decentralized application platform. URL https://github. com/ethereum/wiki/wiki/% 5BEnglish% 5D-White-Paper, 2014. 12 Christian Cachin and Marko Vukolić. Blockchains consensus protocols in the wild. arXiv preprint arXiv:1707.01873, 2017. 13 Jan Camenisch and Anja Lehmann. Privacy for distributed databases via (un)linkable pseudonyms. IACR Cryptology ePrint Archive, 2017:22, 2017. 14 Min Chen, Shiwen Mao, and Yunhao Liu. Big Data: A Survey. Mobile Networks and Applications, 19(2):171–209, 2014. 15 Konstantinos Christidis and Michael Devetsikiotis. Blockchains and smart contracts for the internet of things. IEEE Access, 4:2292–2303, 2016. 16 Cisco. The internet of things reference model, 2014. White Paper Draft. 17 Michael Coblenz. Obsidian: A safer blockchain programming language. In Proceedings of the 39th International Conference on Software Engineering Companion (ICSE-C), pages 97–99. IEEE Press, 2017. 18 E. Damaggio, R. Hull, and R. Vaculín. On the equivalence of incremental and fixpoint semantics for business artifacts with guard-stage-milestone lifecycles. Information Systems, 38:561–584, 2013. 19 Ali Dorri, Marco Steger, Salil S. Kanhere, and Raja Jurdak. Blockchain: A distributed solution to automotive security and privacy. IEEE Communications Magazine, 55(12):119– 125, 2017. 20 Marlon Dumas, Marcello La Rosa, Jan Mendling, and Hajo A. Reijers. Fundamentals of Business Process Management, Second Edition. Springer, 2018. 21 Gilbert Fridgen, Florian Guggenmoos, Jannik Lockl, Alexander Rieger, and André Schweizer. Developing an evaluation framework for blockchain in the public sector: The ex1 8 3 3 2 126 18332 – Blockchain Technology for Collaborative Information Systems ample of the german asylum process. In Proceedings of 1st ERCIM Blockchain Workshop 2018. European Society for Socially Embedded Technologies (EUSSET), 2018. 22 Erich Gamma, Richard Helm, Ralph Johnson, and John Vlissides. Design Patterns: Elements of Reusable Object-Oriented Software. Addison-Wesley, 1994. 23 Luciano García-Bañuelos, Alexander Ponomarev, Marlon Dumas, and Ingo Weber. Optimized execution of business processes on blockchain. In BPM’17: International Conference on Business Process Management, Barcelona, Spain, September 2017. 24 Nitin Gaur, Luc Desrosiers, Petr Novotny, V Ramakrishna, Anthony O’Dowd, and Salman Baset. Hands-On Blockchain with Hyperledger: Building decentralized applications with Hyperledger Fabric and Composer. Packt Publishing Limited, 06 2018. 25 Jones Granatyr, Vanderson Botelho, Otto Robert Lessing, Edson Emílio Scalabrin, JeanPaul Barthès, and Fabrício Enembreck. Trust and reputation models for multiagent systems. ACM Computing Surveys (CSUR), 48(2):27, 2015. 26 Gideon Greenspan. Avoiding the pointless blockchain project. Online at https://www. multichain. com/blog/2015/11/avoiding-pointless-blockchain-project, 2015. 27 Christoph Hochreiner, Stefan Schulte, Schahram Dustdar, and Freddy Lécué. Elastic Stream Processing for Distributed Environments. IEEE Internet Computing, 19(6):54–59, 2015. 28 Richard Hull, Elio Damaggio, Fabiana Fournier, Manmohan Gupta, Fenno Terry Heath, Stacy Hobson, Mark Linehan, Sridhar Maradugu, Anil Nigam, Piyawadee Sukaviriya, et al. Introducing the guard-stage-milestone approach for specifying business entity lifecycles. In International Workshop on Web Services and Formal Methods, pages 1–24. Springer, 2010. 29 Xiaolong Jin, Benjamin W. Wah, Xueqi Cheng, and Yuanzhou Wang. Significance and challenges of big data research. Big Data Research, 2:59–64, 2015. 30 Audun Jøsang, Roslan Ismail, and Colin Boyd. A survey of trust and reputation systems for online service provision. Decision support systems, 43(2):618–644, 2007. 31 Aggelos Kiayias, Alexander Russell, Bernardo David, and Roman Oliynykov. Ouroboros: A provably secure proof-of-stake blockchain protocol. In Annual International Cryptology Conference, pages 357–388. Springer, 2017. 32 S. Kiyomoto, M. S. Rahman, and A. Basu. On blockchain-based anonymized dataset distribution platform. In 2017 IEEE 15th International Conference on Software Engineering Research, Management and Applications (SERA), pages 85–92, June 2017. 33 Why You Shouldn’t Use Airbnb: 8 Troubling Issues You Didn’t Know. https://www.theinvisibletourist.com/why-you-shouldnt-use-airbnb-issues-you-didntknow/. [Online resources]. 34 Kari Korpela, Jukka Hallikas, and Tomi Dahlberg. Digital supply chain transformation toward blockchain integration. In 50th Hawaii International Conference on System Sciences. AIS Electronic Library (AISeL), 2017. 35 Shancang Li, Li Da Xu, and Shanshan Zhao. The internet of things: a survey. Information Systems Frontiers, 17(2):243–259, 2015. 36 Orlenys López-Pintado, Luciano García-Bañuelos, Marlon Dumas, and Ingo Weber. Caterpillar: A blockchain-based business process management system. In BPM’17: International Conference on Business Process Management, Demo track, Barcelona, Spain, September 2017. 37 Orlenys López-Pintado, Luciano García-Bañuelos, Marlon Dumas, Ingo Weber, and Alexander Ponomarev. CATERPILLAR: A business process execution engine on the ethereum blockchain. Technical report, Institute of Computer Science, University of Tartu, 2018. 38 Michael Luca. Designing online marketplaces: Trust and reputation mechanisms. Innovation Policy and the Economy, 17(1):77–93, 2017. Marlon Dumas, Richard Hull, Jan Mendling, and Ingo Weber 127 39 Juri Mattila, Timo Seppälä, Catarina Naucler, Riitta Stahl, Marianne Tikkanen, Alexandra Bådenlid, Jane Seppälä, et al. Industrial blockchain platforms: An exercise in use case development in the energy industry. Technical Report 43, The Research Institute of the Finnish Economy, 2016. 40 Jan Mendling, Ingo Weber, Wil M. P. van der Aalst, et al. Blockchains for business process management - challenges and opportunities. ACM Transactions on Management Information Systems, 9(1):4:1–4:16, 2018. 41 Sebastien Meunier. When Do You Need Blockchain? Decision Models. https://medium. com/@sbmeunier/when-do-you-need-blockchain-decision-models-a5c40e7c9ba1, 2016. 42 Trade Ministry of Economy and Industry. Evaluation Forms for Blockchain- Based System. http://www.meti.go.jp/english/press/2017/pdf/0329_004a.pdf, 2017. 43 Miranda Mourby, Elaine Mackey, Mark Elliot, Heather Gowans, Susan E. Wallace, Jessica Bell, Hannah Smith, Stergios Aidinlis, and Jane Kaye. Are ‘pseudonymised’ data always personal data? implications of the gdpr for administrative data research in the uk. Computer Law & Security Review, 34(2):22–33, April 2018. 44 Catherine Mulligan, Jennifer Zhu Scott, Sheila Warren, and J.P. Rangaswami. Blockchain beyond the hype: A practical framework for business leaders. http://www3.weforum.org/ docs/48423_Whether_Blockchain_WP.pdf, 2018. 45 Satoshi Nakamoto. Bitcoin: A peer-to-peer electronic cash system, 2008. 46 American Institute of Certified Public Accountants. Guide to Audit Data Analytics. AICPA, 2017. 47 Adam J. Oliner, Archana Ganapathi, and Wei Xu. Advances and challenges in log analysis. Commun. ACM, 55(2):55–61, February 2012. 48 There’s No Middleman On This Blockchain-Based Version Of Airbnb. https://www.fastcompany.com/40524021/on-this-blockchain-based-version-of-airbnbtheres-no-middleman. [Online resources]. 49 P4Titan. Slimcoin a peer-to-peer crypto-currency with proof-of-burn, 2014. 50 Morgen E Peck. Blockchain world-do you need a blockchain? this chart will tell you if the technology can solve your problem. IEEE Spectrum, 54(10):38–60, 2017. 51 Raghu Ramakrishnan and Johannes Gehrke. Database Management Systems. McGraw-Hill, Inc., New York, NY, USA, 3 edition, 2003. 52 Paul Resnick, Ko Kuwabara, Richard Zeckhauser, and Eric Friedman. Reputation systems. Communications of the ACM, 43(12):45–48, 2000. 53 Ana Reyna, Christian Martín, Jaime Chen, Enrique Soler, and Manuel Díaz. On blockchain and its integration with IoT. Challenges and opportunities. Future Generation Computer Systems, 88:173–190, 2018. 54 Kurt Sandkuhl and Janis Stirna. Capability Management in Digital Enterprises. Springer Cham, 2018. 55 Reza Shokri, Carmela Troncoso, Claudia Díaz, Julien Freudiger, and Jean-Pierre Hubaux. Unraveling an old cloak: k-anonymity for location privacy. In WPES, pages 115–118, 2010. 56 Yutian Sun, Wei Xu, and Jianwen Su. Declarative choreographies for artifacts. In International Conference on Service-Oriented Computing (ICSOS), pages 420–434. Springer, 2012. 57 Tim Swanson. Consensus-as-a-service: a brief report on the emergence of permissioned, distributed ledger systems, 2015. 58 An Binh Tran, Qinghua Lu, and Ingo Weber. Lorikeet: A model-driven engineering tool for blockchain-based business process execution and asset management. In BPM’18: International Conference on Business Process Management, Demo track, Sydney, NSW, Australia, September 2018. 59 UltraNote. Absolute privacy at your fingertips. 1 8 3 3 2 128 18332 – Blockchain Technology for Collaborative Information Systems 60 Wil M. P. van der Aalst. Process Mining - Data Science in Action, Second Edition. Springer, 2016. 61 Wil M. P. van der Aalst, Guangming Li, and Marco Montali. Object-centric behavioral constraints. Technical report, Eindhoven University of Technology, 2017. 62 Wil M. P. van der Aalst, Mathias Weske, and Dolf Grünbauer. Case handling: a new paradigm for business process support. Data & Knowledge Engineering, 53(2):129–162, 2005. 63 Marko Vukolić. The quest for scalable blockchain fabric: Proof-of-work vs. bft replication. In International Workshop on Open Problems in Network Security, pages 112–125. Springer, 2015. 64 Marko Vukolic. Eventually returning to strong consistency. IEEE Data Eng. Bull., 39(1):39– 44, 2016. 65 Ingo Weber, Xiwei Xu, Régis Riveret, Guido Governatori, Alexander Ponomarev, and Jan Mendling. Untrusted business process monitoring and execution using blockchain. In BPM’16: International Conference on Business Process Management, Rio de Janeiro, Brazil, September 2016. 66 Gavin Wood. Ethereum: A secure decentralised generalised transaction ledger eip-150 revision (759dccd - 2017-08-07), 2017. Accessed: 2018-01-03. 67 Karl Wüst and Arthur Gervais. Do you need a blockchain? IACR Cryptology ePrint Archive, 2017:375, 2017. 68 Xiwei Xu, Ingo Weber, Mark Staples, Liming Zhu, Jan Bosch, Len Bass, Cesare Pautasso, and Paul Rimba. A taxonomy of blockchain-based systems for architecture design. In Software Architecture (ICSA), 2017 IEEE International Conference on, pages 243–252. IEEE, 2017. 69 Ennan Zhai, David Isaac Wolinsky, Ruichuan Chen, Ewa Syta, Chao Teng, and Bryan Ford. Anonrep: Towards tracking-resistant anonymous reputation. In 13th USENIX Symposium on Networked Systems Design and Implementation (NSDI 16), pages 583–596, Santa Clara, CA, 2016. USENIX Association. 70 Kaiwen Zhang and Hans-Arno Jacobsen. Towards dependable, scalable, and pervasive distributed ledgers with blockchains. In 38th IEEE International Conference on Distributed Computing Systems, pages 1337–1346. IEEE Computer Society, 2018. 71 Kaiwen Zhang, Roman Vitenberg, and Hans-Arno Jacobsen. Deconstructing blockchains: Concepts, systems, and insights. In Proceedings of the 12th ACM International Conference on Distributed and Event-based Systems, pages 187–190. ACM, 2018-
local.type.refereedNon-Refereed-
local.type.specifiedProceedings Paper-
local.relation.ispartofseriesnr8-
local.bibliographicCitation.btitleBlockchain Technology for Collaborative Information Systems (Dagstuhl Seminar 18332)-
item.contributorDebois, Soren-
item.contributorDumas, Marlon-
item.contributorHaarmann, Stephan-
item.contributorJacobsen, Hans-Arno-
item.contributorJANS, Mieke-
item.contributorMendling, Jan-
item.contributorStaples, Mark-
item.contributorWeber, Barbara-
item.contributorZerbato, Francesca-
item.contributorZhang, Kaiwen-
item.validationvabb 2021-
item.fullcitationDebois, Soren; Dumas, Marlon; Haarmann, Stephan; Jacobsen, Hans-Arno; JANS, Mieke; Mendling, Jan; Staples, Mark; Weber, Barbara; Zerbato, Francesca & Zhang, Kaiwen (2019) Two Perspectives on Blockchains: Capabilities vs. Features. In: Dumas, Marlon; Hull, Richard; Mendling, Jan; Weber, Ingo (Ed.). Blockchain Technology for Collaborative Information Systems (Dagstuhl Seminar 18332), Schloss Dagstuhl--Leibniz-Zentrum fuer Informatik,p. 82-88.-
item.accessRightsOpen Access-
item.fulltextWith Fulltext-
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