Why Should I Trust a Blockchain Platform? Designing for Trust in the Digital Car Dossier

Liudmila Zavolokina, Noah Zani and Gerhard Schwabe

International Conference on Design Science Research in Information Systems and Technology


Trust is a crucial component for successful transactions regardless of whether they are executed in physical or virtual spaces. Blockchain technology is often discussed in the context of trust and referred to as a trust-free, trustless, or trustworthy technology. However, the question of how the trustworthiness of blockchain platforms should be demonstrated and proven to end users still remains open. While there may be some genuine trust in the blockchain technology itself, on an application level trust in an IT artifact needs to be established. In this study, we examine how trust-supporting design elements may be implemented to foster an end user’s trust in a blockchain platform. We follow the design science paradigm and suggest a practically useful set of design elements that can help designers of blockchain platforms to build more trustworthy systems.



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Dealers of Peaches and Lemons: How Can Used Car Dealers Use Trusted Car Data to Create Value?

Baumann, J., Zavolokina, L., & Schwabe, G.

Proceedings of the 54th Hawaii International Conference on System Sciences


The used car market is full of mistrust and uncertainties. Providing a vehicle history with trusted car data increases market transparency but also threatens the market position of used car dealers. But does a vehicle history also provide opportunities for them? Based on expert interviews, we propose three design principles addressing current problems. The evaluation results of prototypes – which are based on these principles – indicate that they could improve the current market situation by easing data access, increasing the efficiency of sales related processes, and by expanding the competences of used car dealers. This paper is one of only few papers analyzing the current situation of used car dealers in the light of emerging new technologies. It indicates that used car dealers do not necessarily become disintermediated by the provision of trusted car data but rather have opportunities to reinvent themselves.



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Mining blocks in a row: A statistical study of fairness in Bitcoin mining

Sheng-Nan Li, Zhao Yang, Claudio J. Tessone

2nd IEEE International Conference on Blockchain and Cryptocurrency (ICBC 2020), Toronto, Canada, May 2020


The Bitcoin system keeps its ledger consistent in a blockchain by solving cryptographic problems, in a method called “Proof-of-Work”. The conventional wisdom asserts that the mining protocol is incentive-compatible. However, Eyal and Sirer in 2014 have discovered a mining attack strategy called selfish mining (SM), in which a miner (or a mining pool) publishes the blocks it mines selectively instead of immediately. SM strategy would have the impact of wasting resources of honest miners. Scholars proposed various extensions of the SM strategy and approaches to defense the SM attack. Whether selfish mining occurs in practice or not, has been subject of extensive debate. For the first time, in this paper we propose a method to identify selfish miners by detecting anomalies in the properties of consecutive blocks’ statistics. Furthermore, we extend our method to detect the mining cartels, in which miners secretly get together and share timely information. Our results provide evidence that these strategic behaviors take place in practice


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SC-FLARE: Cooperative DDoS Signaling based on Smart Contracts

Bruno Rodrigues, Spasen Trendafilov, Eder John Scheid, Burkhard Stiller

2nd IEEE International Conference on Blockchain and Cryptocurrency (ICBC 2020), Toronto, Canada, May 2020, pp 1–3


Distributed Denial-of-Service (DDoS) attacks remains as one of the major causes of concerns for service providers around the world. This paper introduces SC-FLARE, a Smart Contract (SC) based cooperative signaling protocol built on top of a Ethereum Proof-of-Authority Blockchain (BC) for the sharing of attack information, the exchange of incentives, and the tracking of reputation in a fully distributed and automated fashion. By making use of BC and SC, SC-FLARE provide the required collaborative platform without the burden to maintain, design, and develop special registries and gossip protocols for a cooperative defense.

A Controlled Natural Language to Support Intent-based Blockchain Selection

Eder John Scheid, Patrick Widmer, Bruno Rodrigues, Muriel Franco, Burkhard Stiller

2nd IEEE International Conference on Blockchain and Cryptocurrency (ICBC 2020), Toronto, Canada, May 2020, pp 1–9


In the last years, cryptocurrencies have become increasingly popular along with their underlying distributed ledger technology, referred to as a Blockchain (BC). Nowadays, a wide variety of BC implementations are available. However, the selection of a suitable implementation for a particular application or use case is complex because it requires technical understanding of the underlying BC implementation aspects. Therefore, this paper proposes a Controlled Natural Language (CNL) to extends existing BC selection solutions to abstract underlying implementation details. The approach allows the specification abstract high-level policies, referred to as intents, in an English-based language. The approach is inspired by previous approaches from the network management field. Moreover, a state machine-based refinement technique is proposed to refine these intents into low-level BC selection policies. The results of the performance evaluation of the prototype implementation show that the refinement process presents a minimal overhead. In addition, the perceived intuitiveness of the CNL by users was assessed in a survey. The results of the survey suggest that technical and non-technical individuals benefit from an intentbased approach equally.

Standardization of Blockchain-based I2oT Systems in the I4 Era

Sina Rafati Niya, Eryk Schiller, Ile Cepilov, Burkhard Stiller

IEEE/IFIP Network Operations and Management Symposium (NOMS 2020), Budapest, Hungary. 2020, pp. 1-9


In Industry 4.0 (I4), the Industrial Internet of Things(I2oT) data streams are prone to significant data manipulationrisks. The integration of Blockchains (BC) with I2oT may becomea solution preventing from this problem. This paper provides ablockchain agnostic Blockchain I2oT (BI2oT) architecture calledBIIT that allows developing a broad range of BC applicationsfully integrating Internet of Things (IoT). The mechanismsintroduced in BIIT aim at solutions that provide data reliability,limit the computational overhead, and enhance energy efficiency.BIIT is evaluated through real-world experimentation.

PleBeuS: a Policy-based Blockchain Selection Framework

Eder John Scheid, Daniel Lakic, Bruno Rodrigues, Burkhard Stiller

IEEE/IFIP Network Operations and Management Symposium (NOMS 2020), Budapest, Hungary. 2020, pp. 1-9


Due to the growing interest in the blockchain (BC), several applications are being developed, taking advantage of the benefits that such technology promises to deliver, such as removal of Trust Third Parties (TTP) to verify transactions and data immutability. However, these applications require certain aspects, such as high transaction throughput or data privacy, that early BC implementations (e.g., Bitcoin) did not provide. Thus, a myriad of novel BC implementations was developed, which introduced the issue of choosing the right implementation for a specific use-case. This paper presents a framework, called PleBeuS, to address this selection issue by allowing users to specify policies that rule the automatic selection of the BC that data will be stored. The selection process relies on a cost-aware approach and considers both public and private implementations and their technical characteristics. Moreover, PleBeuS communicates with a BC-agnostic interoperability API to enforce transactions. The evaluation of the PleBeuS prototype showed that it is possible to automatically select a BC-based on user policies, considering cost thresholds and technical details (e.g., BC throughput, deployment), and reduce manual interaction.

Design and Implementation of Cast-as-Intended Verifiability for a Blockchain-Based Voting System

Christian Killer, Bruno Rodrigues, Raphael Matile, Eder John Scheid, Burkhard Stiller

Proceedings of the 35th Annual ACM Symposium on Applied Computing, 2020, pp. 286-293.


Digitization of electoral processes depends on confident systems that produce verifiable evidence. The design and implementation of voting systems has been widely studied in prior research, bringing together expertise in many fields. Switzerland is organized in a federal, decentralized structure of independent governmental entities. Thus, its decentralized structure is a real-world example for implementing an electronic voting system, where trust is distributed among multiple authorities.
This work outlines the design and implementation of a blockchain-based electronic voting system providing cast-as-intended verifiability. The generation of non-interactive zero-knowledge proofs of knowledge enables every voter to verify the encrypted vote, while maintaining the secrecy of the ballot. The Public Bulletin Board (PBB) is a crucial component of every electronic voting system, serving as a publicly verifiable log of communication and ballots – here a blockchain is used as the PBB. Also, the required cryptographic operations are in linear relation to the number of voters, making the outlined system fit for large-scale elections.

Toward scalable blockchains with transaction aggregation

Sina Rafati Niya, Fabio Maddaloni, Thomas Bocek, Burkhard Stiller

Proceedings of the 35th Annual ACM Symposium on Applied Computing, 2020, pp. 308-315.


Blockchains (BCs) are back-linked chain of records termed as blocks. To establish decentralized trusted systems, BCs employ consensus mechanisms. During the past ten years, there have been various proposals of BC design and implementations. However, most of the developed sate of the art BCs suffer from scalability issues. In order to enhance the scalability of the BCs, this paper proposes a transaction aggregation mechanism on a Proof-of-Stake (PoS)-based BC. Having developed the transaction aggregation and double linked blocks, efficient prevention and control of the BC’s size growth is observed in the evaluated scenarios.

Threat Management Dashboard for a Blockchain Collaborative Defense

Christian Killer, Bruno Rodrigues, Burkhard Stiller

2019 IEEE Globecom Workshops (GC Wkshps), Waikoloa, HI, USA, 2019, pp. 1-6


The increasing number of Distributed Denial-of-Service (DDoS) attacks leads to a growing research and development interest in DDoS defense systems. As a response to the increasingly distributed nature of DDoS attacks, many organizations have demonstrated willingness to exchange information concerning threats, incidents, and mitigation strategies. Blockchain is, in this regard, a viable threat sharing platform, where different organizations can interact in a verifiable manner. This paper tackles the security visualization and management issue in a blockchain-based collaborative defense platform, defining an interactive dashboard displaying on-going threat mitigation status and enabling security analysts to react on threats on an individual or group level. The dashboard was implemented and evaluated on real hardware emulating the exchange of threats between three isolated Autonomous Systems (AS).

Scalable Transport Mechanisms for Blockchain IoT Applications

Eryk Schiller, Sina Rafati Niya, Timo Surbeck, Burkhard Stiller

44th Conference on Local Computer Networks (LCN 2019), Osnabrück, Germany, October 2019, pp. 34–41


This paper studies various methods that improve the performance of Blockchain systems integrated with the Internet of Things (BIoT) using the LoRaWAN access method. Duty Cycle Enforcement (DCE) and Listen Before Talk (LBT) mechanisms as the channel access methods, Automatic Repeat reQuest (ARQ) on the Transport Layer, and transaction aggregation on the Application Layer are evaluated. The main focus is put on the system performance studying the maximal number of transactions submitted, reliability of transport schemes, and the energy efficiency of the BIoT system. The combination of LBT-based MAC, the ARQ-enabled Transport Layer, and transaction aggregation at the Application Layer provides a good trade-off between submitted transaction count, packet loss, and energy efficiency. The proposed scheme complies to the data integrity demands of BIoT applications by specifying a reliable data transmission scheme from IoT devices to the BC.

TradeMap: A FINMA-compliant Anonymous Management of an End-2-end Trading Market Place

Sina Rafati Niya, Sebastian Allemann, Arik Gabay, Burkhard Stiller

15th International Conference on Network and Service Management (CNSM 2019), Halifax, Canada, October 2019, pp. 1–5


Data leaks and privacy scandals have been a growing concern of the last decade. While most traditional, i.e., centralized, online platforms require users to register with their personal data, they potentially expose the user’s identity and data to be used for unintended purposes. This work proposes TradeMap as an integrated architecture, designing and enabling an online end-to-end (e2e) trading market place, while supporting anonymous management features. TradeMap addresses the Swiss Financial Market Supervisory Authority (FINMA) regulations by designing a FINMA-complaint Know Your Customer (KYC) platform. Additionally, TradeMap is based on blockchains and employs Ethereum Smart Contracts (SC). Thus, trust and anonymity between the market place and the KYC system relies on zero knowledge proof-based SCs used for user identification processes. With this management approach proposed, the user authentication is only verified within the KYC platform, providing a legally valid and fully anonymous online trading platform.

BUNKER: a Blockchain-based trUsted VNF pacKagE Repository

Eder John Scheid, Manuel Keller, Muriel Franco, Burkhard Stiller

16th Conference on the Economics of Grids, Clouds, Systems, and Services (GECON 2019), Leeds, UK, September 2019, pp. 188-196


Current projects applying blockchain technology to enhance the trust of NFV environments do not consider the VNF repository. However, the blockchain’s properties can enhance trust by allowing to verify a VNF package’s integrity without relying (a) on a Trusted Third Party (TTP) for remote attestation or (b) a secure database. This paper presents BUNKER, a Blockchain-based trUsted VNF packagE Repository, intended to be integrated with traditional database-based package verification environments, acting as a trusted repository containing VNF package information. Moreover, BUNKER allows users to acquire VNFs without the need of a TTP using an Ethereum Smart Contract (SC). The SC automatically transfers license fees to the vendor once a VNF is acquired, and sends the VNF package’s link to the buyer before verifying its integrity.

GENEVIZ: a Visual Tool for the Construction and Blockchain-based Validation of SFC Packages

Muriel Franco, Martin Bucher, Eder Scheid, Lisandro Granville, Burkhard Stiller

16th Conference on the Economics of Grids, Clouds, Systems, and Services (GECON 2019), Leeds, UK, September 2019, pp. 15–28


Network Functions Virtualization (NFV) decouples the network package performed by network functions from dedicated hardware appliance by running Virtual Network Functions (VNF) on commercial off-the-shelf hardware. Network operators can create customized network services by chaining multiple VNFs, defining a so-called Service Function Chaining (SFC). Because NFV became technically mature recently, the building of such SFCs still needs in-depth knowledge about NFV technology and its descriptors. Furthermore, there is a lack of tools that help to simplify the creation of SFCs. This paper, introduces GENEVIZ, a tool that provides a user-friendly interface for the creation of new SFCs as well as for importing and adjusting acquired SFCs (e.g., from marketplaces of VNFs), in order to create new SFCs based on existing ones. Therefore, this work addresses as well data integrity and provides the functionality to store and validate SFCs through the use of blockchains. Three case studies are presented to provide evidence of the technical feasibility of the solution proposed.

Cooperative Signaling of DDoS Attacks in a Blockchain-based Network

Bruno Rodrigues, Burkhard Stiller

ACM SIGCOMM 2019 Conference Posters and Demos, Beijing, China, August 2019, pp. 39–41


Driven by the increasing number of stationary and portable devices, Distributed Denial-of-Service (DDoS) attacks pose a major threat to Internet availability. While advantages of cooperative defenses have been widely recognized over traditional on-premise defenses, there is not a widespread deployment of such cooperative defenses. This work demonstrates the Blockchain Signaling System (BloSS), a modular, network-agnostic and cooperative DDoS defense system consisting of independent instances working together to mitigate attacks targeted at any member of this alliance.

SATOS: Storage Agnostic Tokens over Opaque and Substructural Types

Markus Knecht, Burkhard Stiller

2019 Crypto Valley Conference on Blockchain Technology (CVCBT), Rotkreuz, Switzerland, 2019, pp. 12-20


Public blockchains in support of Smart Contracts (SC), like Ethereum enable everyone to represent scarce, valuable resources (like cryptocurrencies) as so-called tokens. Token issuing and management was the first blockchain use case. However, programming languages and runtime systems used in the current blockchains for their SCs lack a secure and straightforward way to implement and handle tokens. The unnecessary complexity in doing so can lead to erroneous implementation of tokens and applications built on top of these, including the loss or theft of tokens as it happened. The most known attack was “TheDAO” attack which led to the “loss” of tokens, valued at that time at approximately 60 M US Dollar. A better and secure token representation directly embedded into a SC runtime and SC programming language could prevent loss of tokens. Thus this paper presents an approach including parts of a programming language using it. The core of the model is to use opaque and substructural data types together with an onchain soundness checker to generically represent tokens securely as values similar to integers and booleans. Such opaque data types enforce that only a designated piece of code can create values of that type. The substructural data types allow arbitrary values to express scarcity by preventing the duplication and elimination of values. The on-chain soundness checker ensures that the deployed code does not violate guarantees given by the type system, which includes opaque and substructural data types.

Security Management and Visualization in a Blockchain-based Collaborative Defense

Christian Killer, Bruno Rodrigues, Burkhard Stiller

2019 IEEE International Conference on Blockchain and Cryptocurrency (ICBC), Seoul, Korea (South), 2019, pp. 108-111


A cooperative network defense is one approach to fend off large-scale Distributed Denial-of-Service (DDoS) attacks. In this regard, the Blockchain Signaling System (BloSS) is a multi-domain, blockchain-based, cooperative DDoS defense system, where each Autonomous System (AS) is taking part in the defense alliance. Each AS can exchange attack information about ongoing attacks via the Ethereum blockchain. However, the currently operational implementation of BloSS is not interactive or visualized, but the DDoS mitigation is automated. In realworld defense systems, a human cybersecurity analyst decides whether a DDoS threat should be mitigated or not. Thus, this work presents the design of a security management dashboard for BloSS, designed for interactive use by cyber security analysts.

A Blockchain-based Scientific Publishing Platform

Sina Rafati Niya, Lucas Pelloni, Severin Wullschleger, Andreas Schaufelbühl, Thomas Bocek, Burkhard Stiller, Lawrence Rajendran

2019 IEEE International Conference on Blockchain and Cryptocurrency (ICBC), Seoul, Korea (South), 2019, pp. 329-336


Out casting, sharing, and publishing the collected knowledge, experiences, and outputs of scientific works, regardless of being empirical or purely theoretical, has always been one of the key assets of human evolution. However, on one hand, re-usability of published work depends on accessibility, and, on the other hand, om the correctness of published work. Studies on the traditional scientific publishing platforms reveal many deficits with those systems, which had been addressed with the proposed blockchain-based solution called Eureka. Eureka enables high quality reviews of tthe published work, while incentivizing authors and reviewers to participate in this decentralized, open, and public scientific publishing platform.

A Platform-independent, Generic-purpose, and Blockchain-based Supply Chain Tracking

Sina Rafati Niya, Danijel Dordevic, Atif Ghulam Nabi, Tanbir Mann, Burkhard Stiller

2019 IEEE International Conference on Blockchain and Cryptocurrency (ICBC), Seoul, Korea (South), 2019, pp. 11-12


Supply Chain Tracking (SCT) is considered as a major challenge for stakeholders of heterogeneous production, processing, transporting, storing, and selling systems. Studies on solutions in SCT reveal that many centralized SCT applications lack a design, which can support or even enable main features of a reliable, transparent, and publicly accessible SCT system for end users. This work demonstrates the implementation of a SCT application which, employs SC on the Ethereum blockchain (BC). This Decentralized Application (Dapp) provides a hardware-and platform-independent approach that flexibly enables multiple object combinations and transformations to be tracked with a use case-agnostic design and utilization.

EUREKA – A Minimal Operational Prototype of a Blockchain-based Rating and Publishing System

Andreas Schaufelbühl, Sina Rafati Niya, Lucas Pelloni, Severin Wullschleger, Thomas Bocek, Burkhard Stiller, Lawrence Rajendran

2019 IEEE International Conference on Blockchain and Cryptocurrency (ICBC), Seoul, Korea (South), 2019, pp. 13-14


Today’s number of reputable academical publishers is dominated by few key players. This imbalance of supply and demand in publishing academic work makes the entire process inefficient. EUREKA is a blockchain-based scientific publishing platform, developed to address this imbalance. It offers the opportunity of a fair reward distribution for all contributors and immediate ownership rights to authors of an article. For the demonstration, the platform including the back-end and frontend integrated into the Ethereum blockchain is shown, and the interaction processes of users i.e., authors and reviewers are presented.

Adaptation of Proof-of-Stake-based Blockchains for IoT Data Streams

Sina Rafati Niya, Eryk Schiller, Ile Cepilov, Fabio Maddaloni, Timo Surbeck, Kürsat Aydinli, Thomas Bocek

2019 IEEE International Conference on Blockchain and Cryptocurrency (ICBC), Seoul, Korea (South), 2019, pp. 15-16


Proof-of-Work (PoW) in Blockchains (BC), which is a widely used consensus algorithm, suffers from high power consumption of miners and low transaction rates. This work demonstrates a Proof-of-Stake (PoS)-based BC called Bazo, which is specially designed and adapted for Internet of Things (IoT) data streams. Bazo displays enhanced performance in terms of energy consumption and transactions processing in comparison to PoW-based BC. To further improve performance of Bazo, sharding and transaction aggregation methods are employed. Moreover, IoT-BC adaptation helpers of a modular and layered architecture are provided to allow wireless devices to submit data into the BC. The designed architecture can support multiple hardware and software platforms as well as network technologies.

Cast-as-Intended Verifiability in Blockchain-based Electronic Voting

Raphael Matile, Bruno Rodrigues, Eder John Scheid, Burkhard Stiller

2019 IEEE International Conference on Blockchain and Cryptocurrency (ICBC), Seoul, Korea (South), 2019, pp. 24-28


Democracy in the digital age has attracted a lot of public attention in recent years. However, bringing the human right of secrecy in voting to electronic systems is difficult. Properties, such as the possibility of verifying universally that any vote counted was indeed carrying the decision made by a voter, are often conflicting and a trade-off must be found. This paper proposes a blockchain-based electronic voting system providing explicitly cast-as-intended verifiability. By using a non-interactive zero-knowledge proof of knowledge any voter can verify that his or her encrypted vote represents the decision voted for while maintaining at the same time the secrecy of the ballot. In addition, any required cryptographic material can be generated in linear time with respect to the number of voters, making the system suitable for large scale elections, thus scalable.

BRAIN: Blockchain-based Reverse Auction for Infrastructure Supply in Virtual Network Functions-as-a-Service

Muriel Franco, Eder Scheid, Lisandro Granville, Burkhard Stiller

2019 IFIP Networking Conference (IFIP Networking), Warsaw, Poland, 2019, pp. 1-9


Network Functions Virtualization (NFV) is transforming the way in which network operators acquire and manage network services. By using virtualization technologies to move packet processing from dedicated hardware to software, NFV has introduced a new market focused on the offer and distribution of Virtual Network Functions (VNF). Infrastructure Providers (InP) can benefit from an NFV market by providing their infrastructures to fulfill demands of end-users that, in turn, acquire VNFs-as-a-Service (VNFaaS). In this context, solutions that promote the competition between InPs can lead to lower prices, while increasing VNF performance to accommodate specific demands of end-users. In this paper, BRAIN, a blockchain-based reverse auction is presented to introduce an auditable solution in which InPs can compete to host VNFs taking into account the demands of each particular end-user. Such a solution helps reduce costs involved in VNF’s commercialization and also monetize NFV-enabled infrastructures. BRAIN is supported by a case study that provides evidence of the solution’s feasibility and effectiveness. A discussion regarding blockchain advantages and drawbacks in this use-case (e.g., additional costs and time) concludes this paper.

Enabling Dynamic SLA Compensation Using Blockchain-based Smart Contracts

Eder Scheid, Bruno Rodrigues, Lisandro Granville, Burkhard Stiller

2019 IFIP/IEEE Symposium on Integrated Network and Service Management (IM), Arlington, VA, USA, 2019, pp. 53-61.


Service Level Agreements (SLA) are documents that specify what Service Providers (SP) are delivering to customers. They contain information about the service, such as target performance level or monthly availability, and penalties for the violations of the SLA. The information about the penalties is essential because if the SP does not deliver what is defined, the customer must be compensated accordingly. However, the current compensation process is cumbersome and complex because of the amount of involved manual effort. To address this issue, it is proposed in this paper an approach based on blockchain and Smart Contracts (SC) to automate the compensation process while enabling dynamic payments during the SLA lifetime. The proposed approach was evaluated in an use case that simulates the management of a Quality of Service SLA between an SP and a customer. Based on the performed evaluation, parts of the SLA management process were successfully automated using a decentralized solution, and the payment of the compensation occurred without the intervention of a third party.

Toward a Policy-based Blockchain Agnostic Framework

Eder Scheid, Bruno Rodrigues, Burkhard Stiller

2019 IFIP/IEEE Symposium on Integrated Network and Service Management (IM), Arlington, VA, USA, 2019, pp. 609-613.


Blockchain technology is developing at a rapid pace. For consumers that are only interested in simplifying processes and reducing costs by using a blockchain solution a new problem has occurred. It is not only necessary to select the appropriate solution, but also to configure and operate considering blockchain interoperability with different chains. For the industry, there is a need for solutions based on open standards. This paper proposes a Policy-based Blockchain Agnostic Framework that not only connects different blockchains but also facilitates their configuration and operation. Moreover, a case study is presented considering the cold-chain supply-chain, where each actor defines its policies based on blockchain requirements.

A Reputation and Reward Scheme for a Cooperative Network Defense

Andreas Gruhler, Bruno Rodrigues, Burkhard Stiller

2019 IFIP/IEEE Symposium on Integrated Network and Service Management (IM), Arlington, VA, USA, 2019, pp. 71-79.


Distributed Denial-of-Service (DDoS) attacks rise in frequency, diversity, and intensity. Often, centralized defense approaches lack hard- and software capabilities. A cooperative, multi-domain DDoS mitigation system provides defense services on top of an existing, distributed infrastructure. However, participants in these systems lack incentives for cooperation and reputation. Thus, reward systems can fill this gap by providing necessary incentives for cooperation among service providers and consumers. This paper presents the design, implementation, and evaluation of a reputation scheme for the Blockchain Signaling System (BloSS). A smart contract-enabled process automates reputation management to diminish malicious behavior by incentive design. Among other metrics, Beta reputation provides intelligence to identify and reward honest participants.

Evaluating a Blockchain-based Cooperative Defense

Bruno Rodrigues; Lukas Eisenring ; Eder Scheid ; Thomas Bocek ; Burkhard Stiller

2019 IFIP/IEEE Symposium on Integrated Network and Service Management (IM), Arlington, VA, USA, 2019, pp. 533-538.


The volume of traffic generated by modern Distributed Denial-of-Service (DDoS) attacks suggests that centralized defenses are not the most effective approach to counter these attacks. An alternative to reduce the burden of detection and mitigation is to combine centralized defense systems, creating a global and cooperative protection system. However, existing approaches suffer from the complexity of deployment and operation across different systems. Blockchains appear in this scenario as an alternative to simplify the exchange of information in a cooperative defense. This work evaluates in both local and global experimentations the performance of the blockchain system proposed in concerning the latency to perform the signaling of blacklisted addresses.

Bifröst: a Modular Blockchain Interoperability API

Eder John Scheid, Timo Hegnauer, Bruno Rodrigues, Burkhard Stiller

2019 IEEE 44th Conference on Local Computer Networks (LCN), Osnabrueck, Germany, 2019, pp. 332-339


The blockchain (BC) world is rapidly becoming a universe of several ledgers designed for a specific purpose, holding data previously stored (i.e., siloed) in centralized databases. The use of different BCs for the same purpose could hamper the frictionless exchange of data or value. On one hand, it is natural that there are competing implementations exploring the benefits of BC. On the other hand, the problem of siloed data re-emerges, with respect to isolated chains. In this regard, BC interoperability is necessary to connect different BCs, exchanging information and assets. Moreover, to foster BC employment, developers must be able to interact with such different BCs without knowing the details of each implementation. This paper presents a novel solution, called Bifröst, to store and retrieve data on different BCs. Bifröst employs a notary scheme, which allows for connectivity to different BCs. The presented prototype is highly modular and currently implements seven adapters to popular BC implementations, including Bitcoin, Ethereum, and Stellar. The developed prototype was evaluated concerning performance, security, and data size to verify the feasibility of such an implementation and assess design decisions taken during its development.

Examining Gentle Rivalry: Decision-Making in Blockchain Systems

Rafael Ziolkowski, Geetha Parangi, Gianluca Miscione and Gerhard Schwabe

52nd Hawaii International Conference on System Sciences (HICSS 2019), Maui, Hawaii, 8-13 January 2019.


The blockchain comes with the promise of being a disruptive technology with the potential for novel ways of interaction in a wide range of applications. Although scholarly interest in the technology is growing, a broad analysis of blockchain applications from a governance perspective lacks to date. This research pays special attention to the governance of blockchain systems and illustrates core governance decisions on 15 blockchain systems from four application domains. Based on academic literature, semi-structured interviews with representatives from those companies, and content analysis of grey literature, different blockchain governance decisions have been derived and their enactment described. The identification of them enriches the scarce body of knowledge on blockchain systems with a better understanding of how key governance decisions are enacted in practice.

Exploring Blockchain Value Creation: The Case of the Car Ecosystem

Ingrid Bauer, Liudmila Zavolokina, Fabian Leisibach and Gerhard Schwabe

52nd Hawaii International Conference on System Sciences (HICSS 2019), Maui, Hawaii, 8-12 January 2019.


Blockchain is expected to create a variety of new opportunities for businesses. Yet, little is known about how companies can exploit business value from the technology. However, without a clear understanding of how, and corresponding adaption of business practices, the realization of value is doomed to failure. Hence, we contribute to this gap by analyzing and explicating the specificities of value creation from blockchain in the ecosystem of a car. In the course of an exploratory case analysis we conducted interviews and workshops with industry and blockchain experts from five diverse stakeholder groups. In brief, we provide early evidence that (1) blockchain enables value creation through: Distributed Product Innovation, Controlled Customer Intimacy and Shared Operational Efficiency. Further, (2) we derive guidelines and discuss learnings for other businesses aiming to leverage value from blockchain technology.

Buyers of lemons: addressing buyers’ needs in the market for lemons with blockchain technology

Liudmila Zavolokina, Gianluca Miscione and Gerhard Schwabe

52nd Hawaii International Conference on System Sciences (HICSS 2019), Maui, Hawaii, 8-12 January 2019.


The automotive market is in the top three markets with the least trust from consumers. In particular, in the second-hand car market, consumers suffer from such problems as the car being in worse condition than initially indicated, accident damage that is not disclosed, fraud, etc. Akerlof, described the market for used cars as an example of the problem of information asymmetries and resulting quality uncertainty. In order to cope with quality uncertainties, used car buyers actively engage themselves in information seeking. Blockchain technology promises to automatize the tracking of cars through their lifecycles and provide reliable information at any point in time it is needed. In our study, we investigate the problems car buyers face during information seeking and propose requirements for the design of a blockchain-based system to address these.

To Token or not to Token: Tools for Understanding Blockchain Tokens

Luis Oliveira, Liudmila Zavolokina, Ingrid Bauer and Gerhard Schwabe

International Conference of Information Systems (ICIS 2018), San Francisco, USA, 12-16 December 2018.


The growing usage of tokens in real-world blockchain projects – mostly visible in ICOs – has unveiled the need to understand what blockchain tokens in fact represent and how they relate to their underlying business model. Previous research has contributed to this gap but often lacks a comprehensive understanding of tokens and their design as well as of the growing and rapidly-changing complexity in token landscape. This has crucial implications for assessing tokens’ value and utility. Applying a structured, scientific approach towards blockchain tokens, we provide a comprehensive token classification and a decision-aid on token design. This is based on a literature review and an empirical study to cover this research gap. Our work offers a novel contribution in an emerging field within the Blockchain research domain and proposes structured analytical tools which can be used by both practitioners and researchers.

Incentivizing Data Quality in Blockchains for Inter-Organizational Networks – Learning from the Digital Car Dossier

Liudmila Zavolokina, Florian Spychiger, Claudio J. Tessone and Gerhard Schwabe

International Conference of Information Systems (ICIS 2018), San Francisco, USA, 12-16 December 2018.


Recent research reports the need for consistent incentives in blockchain-based systems. In this study, we investigate how incentives for a blockchain-based inter-organizational network should be designed to ensure a high quality of data, exchanged and stored within the network. For this, we use two complementary methodological approaches: an Action Design Research approach in combination with agent-based modelling, and demonstrate, through the example of a real-world blockchain project, how such an incentive system may be modelled. The proposed incentive system features a rating mechanism influenced by measures of data correction. We evaluate the incentive system in a simulation to show how effective the system is in terms of sustaining a high quality of data. Thus, the paper contributes to our understanding of incentives in inter- organizational settings and, more broadly, to our understanding of incentive mechanisms in blockchain economy.

Consensus through Blockchains: Exploring Governance across interorganizational Settings

Rafael Ziolkowski, Gianluca Miscione and Gerhard Schwabe

International Conference of Information Systems (ICIS 2018), San Francisco, USA, 12-16 December 2018.


The blockchain technology challenges the view on established modes of governance by offering distributed authentication without the need for a central authority, which is well-exemplified by Bitcoin. While the governance of and through Bitcoin is well- accentuated in research, we spotlight impacts on governance which blockchain-based systems bring to inter-organizational settings as well as their purpose. To build our arguments, we explore those impacts on two contrasting cases from the domains of automotive and public administration and relate them to cryptocurrencies. Relying on interviews with experts from said organizations utilizing blockchain technology, and a content analysis of related grey literature, we discuss established forms of governance as well as platforms and infrastructures against the impacts which blockchain-based systems cause. After referring those to the concepts of markets, hierarchies, networks, and tribes, we critically reflect on their purpose by utilizing the notions of infrastructures and platforms, and conclude blockchain-based systems to possibly alter the way established modes of governance are enacted.

Tribal Governance: The Business of Blockchain Authentication

Gianluca Miscione, Rafael Ziolkowski, Liudmila Zavolokina, Gerhard Schwabe

Hawaii International Conference on System Sciences (HICSS), 2018


The blockchain technology offers a novel mode of distributed authentication, which does not depend on a central authority. We consider this novelty against established governance modes. We illustrate our argument by paying special attention to blockchain-based authentication functions in the empirical domain of land registries across the world. Based on interviews with representatives from organizations deploying blockchain, and content analysis of related grey literature, we discuss established governance ideal types against what the rivalry that cryptocurrencies and blockchains bring to digital settings. After referring to market, hierarchy, network, and bazaar, we conclude outlining the prospects of a different, blockchain-related governance mode called ‘tribal’ that better captures the ‘togetherness’ which rivalry originates.

Blockchain Technologies from the Consumers’ Perspective: What Is There and Why Should Who Care?

Manuel Schlegel, Liudmila Zavolokina and Gerhard Schwabe

51st Hawaii International Conference on System Sciences (HICSS 2018), Hawaii, 4-6 January 2018.


The blockchain, the ledger that underlies the famous cryptocurrency Bitcoin, has huge implications for many industries. There have been various papers dedicated to research how blockchain technology will transform businesses and industries. However, current research lacks an overview of what the blockchain implies for the biggest stakeholder of these businesses and industries: consumers. This paper aims to provide an overview of how the blockchain affects consumers. We conduct a systematic literature review and enrich it with interview-based knowledge from blockchain experts to show how blockchain technology changes business sectors, name affected consumers in these sectors, derive implications for these consumers and list existing as well as currently emerging blockchain-based products and services. Finally, we warn of the technical, institutional and human challenges and manifold pitfalls blockchain technology must overcome to gain widespread adaptation among consumers.