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ORCIDDaniël Reijsbergen
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2020 – today
- 2024
[j12]Anwitaman Datta
, Daniël Reijsbergen, Jingchi Zhang, Suman Majumder:
BlockChain I/O: Enabling Cross-Chain Commerce. IEEE Access 12: 90915-90928 (2024)- [i24]Bretislav Hajek, Daniël Reijsbergen, Anwitaman Datta, Jussi Keppo:
Collateral Portfolio Optimization in Crypto-Backed Stablecoins. CoRR abs/2405.08305 (2024) - 2023
- [c28]Stefanos Leonardos, Daniël Reijsbergen, Barnabé Monnot, Georgios Piliouras:
Optimality Despite Chaos in Fee Markets. FC 2023: 346-362 - [c27]Daniël Reijsbergen, Aung Maw, Jingchi Zhang, Tien Tuan Anh Dinh, Anwitaman Datta:
Demo: PIEChain - A Practical Blockchain Interoperability Framework. ICDCS 2023: 1021-1024 - [c26]Daniël Reijsbergen, Aung Maw, Zheng Yang, Tien Tuan Anh Dinh, Jianying Zhou:
TAP: Transparent and Privacy-Preserving Data Services. USENIX Security Symposium 2023: 6489-6506 - [i23]Daniël Reijsbergen, Aung Maw, Jingchi Zhang, Tien Tuan Anh Dinh, Anwitaman Datta:
PIEChain - A Practical Blockchain Interoperability Framework. CoRR abs/2306.09735 (2023) - [i22]Daniël Reijsbergen, Bretislav Hajek, Tien Tuan Anh Dinh, Jussi Keppo, Hank Korth, Anwitaman Datta:
CroCoDai: A Stablecoin for Cross-Chain Commerce. CoRR abs/2306.09754 (2023) - [i21]Anwitaman Datta, Daniël Reijsbergen, Jingchi Zhang, Suman Majumder:
BlockChain I/O: Enabling Cross-Chain Commerce. CoRR abs/2308.02163 (2023) - 2022
- [c25]Daniël Reijsbergen, Aung Maw, Tien Tuan Anh Dinh, Wen-Tai Li, Chau Yuen:
Securing Smart Grids Through an Incentive Mechanism for Blockchain-Based Data Sharing. CODASPY 2022: 191-202 - [c24]Daniël Reijsbergen, Aung Maw, Sarad Venugopalan, Dianshi Yang, Tien Tuan Anh Dinh, Jianying Zhou:
Protecting the Integrity of IoT Sensor Data and Firmware With A Feather-Light Blockchain Infrastructure. ICBC 2022: 1-9 - [i20]Daniël Reijsbergen, Aung Maw, Tien Tuan Anh Dinh, Wen-Tai Li, Chau Yuen:
Securing Smart Grids Through an Incentive Mechanism for Blockchain-Based Data Sharing. CoRR abs/2202.04345 (2022) - [i19]Daniël Reijsbergen, Aung Maw, Sarad Venugopalan, Dianshi Yang, Tien Tuan Anh Dinh, Jianying Zhou:
Protecting the Integrity of IoT Sensor Data and Firmware With A Feather-Light Blockchain Infrastructure. CoRR abs/2205.00185 (2022) - [i18]Daniël Reijsbergen, Aung Maw, Zheng Yang, Tien Tuan Anh Dinh, Jianying Zhou:
TAP: Transparent and Privacy-Preserving Data Services. CoRR abs/2210.11702 (2022) - [i17]Stefanos Leonardos, Daniël Reijsbergen, Barnabé Monnot, Georgios Piliouras:
Optimality Despite Chaos in Fee Markets. CoRR abs/2212.07175 (2022) - 2021
- [j11]Ivan Homoliak, Sarad Venugopalan, Daniël Reijsbergen, Qingze Hum, Richard Schumi, Pawel Szalachowski:
The Security Reference Architecture for Blockchains: Toward a Standardized Model for Studying Vulnerabilities, Threats, and Defenses. IEEE Commun. Surv. Tutorials 23(1): 341-390 (2021) - [j10]Bithin Alangot, Daniël Reijsbergen, Sarad Venugopalan, Pawel Szalachowski, Kiat Seng Yeo:
Decentralized and Lightweight Approach to Detect Eclipse Attacks on Proof of Work Blockchains. IEEE Trans. Netw. Serv. Manag. 18(2): 1659-1672 (2021) - [c23]Stefanos Leonardos, Barnabé Monnot, Daniël Reijsbergen, Efstratios Skoulakis, Georgios Piliouras:
Dynamical analysis of the EIP-1559 Ethereum fee market. AFT 2021: 114-126 - [c22]Daniël Reijsbergen, Shyam Sridhar, Barnabé Monnot, Stefanos Leonardos, Stratis Skoulakis, Georgios Piliouras:
Transaction Fees on a Honeymoon: Ethereum's EIP-1559 One Month Later. Blockchain 2021: 196-204 - [c21]Daniël Reijsbergen, Zheng Yang, Aung Maw, Tien Tuan Anh Dinh, Jianying Zhou:
Transparent Electricity Pricing with Privacy. ESORICS (2) 2021: 439-460 - [c20]Daniël Reijsbergen, Pawel Szalachowski, Junming Ke, Zengpeng Li, Jianying Zhou:
LaKSA: A Probabilistic Proof-of-Stake Protocol. NDSS 2021 - [i16]Stefanos Leonardos, Barnabé Monnot, Daniël Reijsbergen, Stratis Skoulakis, Georgios Piliouras:
Dynamical Analysis of the EIP-1559 Ethereum Fee Market. CoRR abs/2102.10567 (2021) - [i15]Daniël Reijsbergen, Zheng Yang, Aung Maw, Tien Tuan Anh Dinh, Jianying Zhou:
Transparent Electricity Pricing with Privacy. CoRR abs/2104.07949 (2021) - [i14]Daniël Reijsbergen, Shyam Sridhar, Barnabé Monnot, Stefanos Leonardos, Stratis Skoulakis, Georgios Piliouras:
Transaction Fees on a Honeymoon: Ethereum's EIP-1559 One Month Later. CoRR abs/2110.04753 (2021) - 2020
- [j9]Vitalik Buterin, Daniël Reijsbergen, Stefanos Leonardos, Georgios Piliouras:
Incentives in Ethereum's hybrid Casper protocol. Int. J. Netw. Manag. 30(5) (2020) - [j8]Stefanos Leonardos, Daniël Reijsbergen, Georgios Piliouras:
Weighted voting on the blockchain: Improving consensus in proof of stake protocols. Int. J. Netw. Manag. 30(5) (2020) - [j7]Stefanos Leonardos, Daniël Reijsbergen, Georgios Piliouras:
PREStO: A Systematic Framework for Blockchain Consensus Protocols. IEEE Trans. Engineering Management 67(4): 1028-1044 (2020) - [c19]Bithin Alangot, Daniël Reijsbergen, Sarad Venugopalan, Pawel Szalachowski:
Decentralized Lightweight Detection of Eclipse Attacks on Bitcoin Clients. Blockchain 2020: 337-342 - [c18]Daniël Reijsbergen, Tien Tuan Anh Dinh:
On Exploiting Transaction Concurrency To Speed Up Blockchains. ICDCS 2020: 1044-1054 - [i13]Daniël Reijsbergen, Tien Tuan Anh Dinh:
On Exploiting Transaction Concurrency To Speed Up Blockchains. CoRR abs/2003.06128 (2020) - [i12]Daniël Reijsbergen, Pawel Szalachowski, Junming Ke, Zengpeng Li, Jianying Zhou:
ProPoS: A Probabilistic Proof-of-Stake Protocol. CoRR abs/2006.01427 (2020) - [i11]Bithin Alangot, Daniël Reijsbergen, Sarad Venugopalan, Pawel Szalachowski:
Decentralized Lightweight Detection of Eclipse Attacks on Bitcoin Clients. CoRR abs/2007.02287 (2020) - [i10]Daniël Reijsbergen, Stephen Gilmore:
A spatial algorithm for the analysis of transportation systems using statistical model checking. CoRR abs/2009.13053 (2020)
2010 – 2019
- 2019
- [j6]Pieter H. Hartel, Ivan Homoliak, Daniël Reijsbergen:
An Empirical Study Into the Success of Listed Smart Contracts in Ethereum. IEEE Access 7: 177539-177555 (2019) - [j5]Enno Ruijters, Daniël Reijsbergen, Pieter-Tjerk de Boer, Mariëlle Stoelinga:
Rare event simulation for dynamic fault trees. Reliab. Eng. Syst. Saf. 186: 220-231 (2019) - [c17]Vitalik Buterin, Daniël Reijsbergen, Stefanos Leonardos, Georgios Piliouras:
Incentives in Ethereum's Hybrid Casper Protocol. IEEE ICBC 2019: 236-244 - [c16]Stefanos Leonardos, Daniël Reijsbergen, Georgios Piliouras:
Weighted Voting on the Blockchain: Improving Consensus in Proof of Stake Protocols. IEEE ICBC 2019: 376-384 - [c15]Pawel Szalachowski, Daniël Reijsbergen, Ivan Homoliak, Siwei Sun:
StrongChain: Transparent and Collaborative Proof-of-Work Consensus. USENIX Security Symposium 2019: 819-836 - [i9]Vitalik Buterin, Daniël Reijsbergen, Stefanos Leonardos, Georgios Piliouras:
Incentives in Ethereum's Hybrid Casper Protocol. CoRR abs/1903.04205 (2019) - [i8]Stefanos Leonardos, Daniël Reijsbergen, Georgios Piliouras:
Weighted Voting on the Blockchain: Improving Consensus in Proof of Stake Protocols. CoRR abs/1903.04213 (2019) - [i7]Pawel Szalachowski, Daniël Reijsbergen, Ivan Homoliak, Siwei Sun:
StrongChain: Transparent and Collaborative Proof-of-Work Consensus. CoRR abs/1905.09655 (2019) - [i6]Stefanos Leonardos, Daniël Reijsbergen, Georgios Piliouras:
PREStO: A Systematic Framework for Blockchain Consensus Protocols. CoRR abs/1906.06540 (2019) - [i5]Pieter H. Hartel, Ivan Homoliak, Daniël Reijsbergen:
An Empirical Study into the Success of Listed Smart Contracts in Ethereum. CoRR abs/1908.11597 (2019) - [i4]Ivan Homoliak, Sarad Venugopalan, Qingze Hum, Daniël Reijsbergen, Richard Schumi, Pawel Szalachowski:
The Security Reference Architecture for Blockchains: Towards a Standardized Model for Studying Vulnerabilities, Threats, and Defenses. CoRR abs/1910.09775 (2019) - 2018
- [j4]Daniël Reijsbergen, Pieter-Tjerk de Boer, Werner R. W. Scheinhardt, Sandeep Juneja:
Path-ZVA: General, Efficient, and Automated Importance Sampling for Highly Reliable Markovian Systems. ACM Trans. Model. Comput. Simul. 28(3): 22:1-22:25 (2018) - [c14]Vincent Chia, Pieter H. Hartel, Qingze Hum, Sebastian Ma, Georgios Piliouras, Daniël Reijsbergen, Mark van Staalduinen, Pawel Szalachowski:
Rethinking Blockchain Security: Position Paper. iThings/GreenCom/CPSCom/SmartData 2018: 1273-1280 - [i3]Vincent Chia, Pieter H. Hartel, Qingze Hum, Sebastian Ma, Georgios Piliouras, Daniël Reijsbergen, Mark van Staalduinen, Pawel Szalachowski:
Rethinking Blockchain Security: Position Paper. CoRR abs/1806.04358 (2018) - 2017
- [j3]Cheng Feng, Jane Hillston, Daniël Reijsbergen:
Moment-based availability prediction for bike-sharing systems. Perform. Evaluation 117: 58-74 (2017) - [c13]Stephen Gilmore, Daniël Reijsbergen, Andrea Vandin:
Transient and Steady-State Statistical Analysis for Discrete Event Simulators. IFM 2017: 145-160 - [c12]Enno Ruijters, Daniël Reijsbergen, Pieter-Tjerk de Boer, Mariëlle Stoelinga:
Rare Event Simulation for Dynamic Fault Trees. SAFECOMP 2017: 20-35 - 2016
- [c11]Daniël Reijsbergen, Pieter-Tjerk de Boer, Werner R. W. Scheinhardt:
Hypothesis Testing for Rare-Event Simulation: Limitations and Possibilities. ISoLA (1) 2016: 16-26 - [c10]Cheng Feng, Jane Hillston, Daniël Reijsbergen:
Moment-Based Probabilistic Prediction of Bike Availability for Bike-Sharing Systems. QEST 2016: 139-155 - [c9]Daniël Reijsbergen:
Probabilistic Modelling of Station Locations in Bicycle-Sharing Systems. STAF Workshops 2016: 83-97 - 2015
- [j2]Daniël Reijsbergen, Pieter-Tjerk de Boer, Werner R. W. Scheinhardt, Boudewijn R. Haverkort:
On hypothesis testing for statistical model checking. Int. J. Softw. Tools Technol. Transf. 17(4): 377-395 (2015) - [c8]Nicolas Gast, Guillaume Massonnet, Daniël Reijsbergen, Mirco Tribastone:
Probabilistic Forecasts of Bike-Sharing Systems for Journey Planning. CIKM 2015: 703-712 - [c7]Pieter-Tjerk de Boer, Daniël Reijsbergen, Werner R. W. Scheinhardt:
Interactive comparison of hypothesis tests for statistical model checking. VALUETOOLS 2015: 153-157 - [c6]Daniël Reijsbergen, Rajeev Ratan:
Probabilistic Modelling of the Impact on Bus Punctuality of a Speed Limit Proposal in Edinburgh. VALUETOOLS 2015: 234-241 - [i2]Daniël Reijsbergen, Rajeev Ratan:
Probabilistic Modelling of the Impact on Bus Punctuality of a Speed Limit Proposal in Edinburgh (Extended Version). CoRR abs/1511.05363 (2015) - 2014
- [c5]Daniël Reijsbergen, Stephen Gilmore:
Formal Punctuality Analysis of Frequent Bus Services Using Headway Data. EPEW 2014: 164-178 - [c4]Stephen Gilmore, Daniël Reijsbergen:
Validation of Automatic Vehicle Location Data in Public Transport Systems. UKPEW 2014: 31-51 - [c3]Daniël Reijsbergen, Stephen Gilmore, Jane Hillston:
Patch-based Modelling of City-centre Bus Movement with Phase-type Distributions. PASM 2014: 157-177 - [i1]Sylwester Arabas, Michael R. Bareford, Ian P. Gent, Benjamin M. Gorman, Masih Hajiarabderkani, Tristan Henderson, Luke Hutton, Alexander Konovalov, Lars Kotthoff, Ciaran McCreesh, Ruma R. Paul, Karen E. Petrie, Abdul Razaq, Daniël Reijsbergen:
An Open and Reproducible Paper on Openness and Reproducibility of Papers in Computational Science. CoRR abs/1408.2123 (2014) - 2013
- [c2]Daniël Reijsbergen, Pieter-Tjerk de Boer, Werner R. W. Scheinhardt, Boudewijn R. Haverkort:
Automated Rare Event Simulation for Stochastic Petri Nets. QEST 2013: 372-388 - 2012
- [j1]Daniël Reijsbergen, Pieter-Tjerk de Boer, Werner R. W. Scheinhardt, Boudewijn R. Haverkort:
Rare event simulation for highly dependable systems with fast repairs. Perform. Evaluation 69(7-8): 336-355 (2012) - 2010
- [c1]Daniël Reijsbergen, Pieter-Tjerk de Boer, Werner R. W. Scheinhardt, Boudewijn R. Haverkort:
Rare Event Simulation for Highly Dependable Systems with Fast Repairs. QEST 2010: 251-260
Coauthor Index
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