NDAK17002U Subjects in Blockchain Technology (SBT)
The term blockchain encompasses decentralised peer-to-peer systems maintaining a joint ledger (log of event) without central control or privileged platform providers or users, as well as applications conceived for and made possible by such technology.
Blockchain gained much popularity due to the growing interest in Bitcoin and other cryptocurrencies. However, the potential of blockchain technology is not limited to cryptocurrencies, and expands to a variety of smart contracts. Some believe it has the potential to revolutionise the world just like the internet did.
We will engage in "blockchain summer of code'', 4 weeks of software development where we will have a short introduction to the state-of-the-art blockchain technology followed by implementing a prototype in a team to solve a real-world problem using blockchain technology. Examples of potential projects are contract management languages, identity (Know-Your-Customer, data mining), reporting and applications such as backup, bill of lading or resource tracking. Each team would choose an adequate blockchain platform (such as the Ethereum network or R3 Corda).
We look for diversified groups of participants from different technical disciplines (such as economics, mathematics, computer science, engineering, etc.) as the project will depend not only on the technology but also on the usability of the solutions.
- A distributed ledger (= blockchain) platform supporting
executing programs ("smart contracts") such as Ethereum
Important characteristics of and corresponding techniques for implementing distributed ledgers
Potential of distributed ledger technology for solving real-world problems
- Design, analyse, implement and test smart contract code on a
state-of-the-art distributed ledger platform
- Set up and deploy prototype smart contract code on a
distributed ledger test system
- Analyse suitability of applications for implementation on a particular distributed ledger system
Design basic distributed ledger based solutions to real-world problems
Produce rapid prototypes of distributed ledger applications
Report and present findings of a group project
Will be published before the start of the course a reading list of up to date relevant articles that will be distributed to the participants.
Information about a few of the generalised ledgers:
- Ethereum https://github.com/ethereum/wiki/wiki/White-Paper
- Corda https://static1.squarespace.com/static/55f73743e4b051cfcc0b02cf/t/57bda2fdebbd1acc9c0309b2/1472045822585/corda-introductory-whitepaper-final.pdf
- Hyperledger Fabric https://docs.google.com/document/d/1Z4M_qwILLRehPbVRUsJ3OF8Iir-gqS-ZYe7W-LE9gnE/pub
- 7,5 ECTS
- Type of assessment
- Written assignmentOral examination, 20min (no preparation)Group report based on the group project.
Part-examinations (written and oral examination) are not weighted, an overall assesment is provided for the part-examinations.
- Exam registration requirements
Submission of weekly status updates (specific guidelines will be given during the course.)
- All aids allowed
- Marking scale
- 7-point grading scale
- Censorship form
- No external censorship
Several internal examiners
Same as original exam format.
The written report can be improved and resubmitted.
If the exam registration requirements have not been met the student must prepare a full project on their own and submit a report.
The exam registration requirements must be met no later than two weeks prior to re-exam.
Criteria for exam assesment
See Learning Outcome
- Project work