Distributed and Adversarial Resistant Workflow Execution on the Algorand Blockchain

Publikation: Bidrag til bog/antologi/rapportKonferencebidrag i proceedingsForskningfagfællebedømt

Standard

Distributed and Adversarial Resistant Workflow Execution on the Algorand Blockchain. / Xu, Yibin; Slaats, Tijs; Düdder, Boris; Debois, Søren; Wu, Haiqin.

Financial Cryptography and Data Security. FC 2022 International Workshops. red. / Shin'ichiro Matsuo; Lewis Gudgeon; Ariah Klages-Mundt; Daniel Perez Hernandez; Sam Werner; Thomas Haines; Aleksander Essex; Andrea Bracciali; Massimiliano Sala. Springer, 2023. s. 583–597 (Lecture Notes in Computer Science, Bind 13412).

Publikation: Bidrag til bog/antologi/rapportKonferencebidrag i proceedingsForskningfagfællebedømt

Harvard

Xu, Y, Slaats, T, Düdder, B, Debois, S & Wu, H 2023, Distributed and Adversarial Resistant Workflow Execution on the Algorand Blockchain. i S Matsuo, L Gudgeon, A Klages-Mundt, D Perez Hernandez, S Werner, T Haines, A Essex, A Bracciali & M Sala (red), Financial Cryptography and Data Security. FC 2022 International Workshops. Springer, Lecture Notes in Computer Science, bind 13412, s. 583–597, FC 2022 International Workshops, Financial Cryptography and Data Security, Grenada, 06/05/2022. https://doi.org/10.1007/978-3-031-32415-4_35

APA

Xu, Y., Slaats, T., Düdder, B., Debois, S., & Wu, H. (2023). Distributed and Adversarial Resistant Workflow Execution on the Algorand Blockchain. I S. Matsuo, L. Gudgeon, A. Klages-Mundt, D. Perez Hernandez, S. Werner, T. Haines, A. Essex, A. Bracciali, & M. Sala (red.), Financial Cryptography and Data Security. FC 2022 International Workshops (s. 583–597). Springer. Lecture Notes in Computer Science Bind 13412 https://doi.org/10.1007/978-3-031-32415-4_35

Vancouver

Xu Y, Slaats T, Düdder B, Debois S, Wu H. Distributed and Adversarial Resistant Workflow Execution on the Algorand Blockchain. I Matsuo S, Gudgeon L, Klages-Mundt A, Perez Hernandez D, Werner S, Haines T, Essex A, Bracciali A, Sala M, red., Financial Cryptography and Data Security. FC 2022 International Workshops. Springer. 2023. s. 583–597. (Lecture Notes in Computer Science, Bind 13412). https://doi.org/10.1007/978-3-031-32415-4_35

Author

Xu, Yibin ; Slaats, Tijs ; Düdder, Boris ; Debois, Søren ; Wu, Haiqin. / Distributed and Adversarial Resistant Workflow Execution on the Algorand Blockchain. Financial Cryptography and Data Security. FC 2022 International Workshops. red. / Shin'ichiro Matsuo ; Lewis Gudgeon ; Ariah Klages-Mundt ; Daniel Perez Hernandez ; Sam Werner ; Thomas Haines ; Aleksander Essex ; Andrea Bracciali ; Massimiliano Sala. Springer, 2023. s. 583–597 (Lecture Notes in Computer Science, Bind 13412).

Bibtex

@inproceedings{e981d404ec0f468a9d65a187283c02fa,
title = "Distributed and Adversarial Resistant Workflow Execution on the Algorand Blockchain",
abstract = "We provide a practical translation from the Dynamic Condition Response (DCR) process modelling language to the Transaction Execution Approval Language (TEAL) used by the Algorand blockchain. Compared to earlier implementations of business process notations on blockchains, particularly Ethereum, the present implementation is four orders of magnitude cheaper. This translation has the following immediate ramifications: (1) It allows decentralised execution of DCR-specified business processes in the absence of expensive intermediaries (lawyers, brokers) or counterparty risk. (2) It provides a possibly helpful high-level language for implementing business processes on Algorand. (3) It demonstrates that despite the strict limitations on Algorand smart contracts, they are powerful enough to encode models of a modern process notation.",
author = "Yibin Xu and Tijs Slaats and Boris D{\"u}dder and S{\o}ren Debois and Haiqin Wu",
year = "2023",
doi = "10.1007/978-3-031-32415-4_35",
language = "English",
isbn = "978-3-031-32415-4",
series = "Lecture Notes in Computer Science",
publisher = "Springer",
pages = "583–597",
editor = "Shin'ichiro Matsuo and Lewis Gudgeon and Ariah Klages-Mundt and {Perez Hernandez}, Daniel and Sam Werner and Thomas Haines and Aleksander Essex and Andrea Bracciali and Massimiliano Sala",
booktitle = "Financial Cryptography and Data Security. FC 2022 International Workshops",
address = "Switzerland",
note = "FC 2022 International Workshops, Financial Cryptography and Data Security : (CoDecFin, DeFi, Voting, WTSC) ; Conference date: 06-05-2022",

}

RIS

TY - GEN

T1 - Distributed and Adversarial Resistant Workflow Execution on the Algorand Blockchain

AU - Xu, Yibin

AU - Slaats, Tijs

AU - Düdder, Boris

AU - Debois, Søren

AU - Wu, Haiqin

PY - 2023

Y1 - 2023

N2 - We provide a practical translation from the Dynamic Condition Response (DCR) process modelling language to the Transaction Execution Approval Language (TEAL) used by the Algorand blockchain. Compared to earlier implementations of business process notations on blockchains, particularly Ethereum, the present implementation is four orders of magnitude cheaper. This translation has the following immediate ramifications: (1) It allows decentralised execution of DCR-specified business processes in the absence of expensive intermediaries (lawyers, brokers) or counterparty risk. (2) It provides a possibly helpful high-level language for implementing business processes on Algorand. (3) It demonstrates that despite the strict limitations on Algorand smart contracts, they are powerful enough to encode models of a modern process notation.

AB - We provide a practical translation from the Dynamic Condition Response (DCR) process modelling language to the Transaction Execution Approval Language (TEAL) used by the Algorand blockchain. Compared to earlier implementations of business process notations on blockchains, particularly Ethereum, the present implementation is four orders of magnitude cheaper. This translation has the following immediate ramifications: (1) It allows decentralised execution of DCR-specified business processes in the absence of expensive intermediaries (lawyers, brokers) or counterparty risk. (2) It provides a possibly helpful high-level language for implementing business processes on Algorand. (3) It demonstrates that despite the strict limitations on Algorand smart contracts, they are powerful enough to encode models of a modern process notation.

U2 - 10.1007/978-3-031-32415-4_35

DO - 10.1007/978-3-031-32415-4_35

M3 - Article in proceedings

SN - 978-3-031-32415-4

T3 - Lecture Notes in Computer Science

SP - 583

EP - 597

BT - Financial Cryptography and Data Security. FC 2022 International Workshops

A2 - Matsuo, Shin'ichiro

A2 - Gudgeon, Lewis

A2 - Klages-Mundt, Ariah

A2 - Perez Hernandez, Daniel

A2 - Werner, Sam

A2 - Haines, Thomas

A2 - Essex, Aleksander

A2 - Bracciali, Andrea

A2 - Sala, Massimiliano

PB - Springer

T2 - FC 2022 International Workshops, Financial Cryptography and Data Security

Y2 - 6 May 2022

ER -

ID: 360266597