PhDSupervision:VolkerStrobel
From IridiaWiki
General Information
Personal
Name: Volker Strobel
Birthdate: 10 November 1987
Belgian mobile phone: +32 483 42 21 04
Belgian home adress: Avenue Wielemans Ceuppens 138, 1190 Forest / Bruxelles
PhD started: 7 September 2016
Matricule ULB: 000443899
Office phone: +32-2-650 27 12
Projects
TODO
- 30/1/2017
- Implement majority voting and voter model in smart contract
- Compare classical approach and secure approach (run experiments)
- Answer question 1: "What do we get more?"
- Answer question 2: "What can we do in terms of attacks and robustness?"
- Finish FNRS proposal (definitely before 16th, since Marco might not be here from 17-23 Feb.)
- Possible further improvements: use signal strength (range of the transmitter) as modulation strategy
- Next meeting 7/2/2017 10am
Lab Responsibilities
- IRIDIA server maintenance
Tutorials
- Udemy: Ethereum Developer: Build A Decentralised Blockchain App Completed 75 %
- Coursera: Bitcoin and Cryptocurrency Technologies
Literature
See separate page
FRIA
- Presentation
- Ideas for next proposal: Ideas
Meetings
Meeting 27/9/2016
- Continue literature research (read papers mentioned in FRIA proposal)
- Find out which labs are doing blockchain / cryptocurrency / cryptography research (see Google Docs)
Meeting 4/10/2016
- Propose literature (see separate page)
- Séance d'information sur les financements permettant des mobilités dans le cadre d’un doctorat [1][2][3]
- Practice presentation with Marco, Yasu, Gaetan, and Ken (Volker - Comments of Marco, Yasu, Gaetan, and Ken)
Meeting 18/10/2016
- French language course Mon 31 October - Fri 4 November?
- iMAL Blockchain symposium & showcase Friday 4 November 2pm - 6pm (0 EUR) -- http://imal.org/en/activity/blockchain-fact-fiction-future/
- iMAL Hacklab Saturday 5 November (30 EUR)
Intermediate Meeting
- French language course Mon 31 October - Fri 4 November time: 9am - 1pm
Meeting 15/11/2016
- Continued literature research
- Started first web application for smart contracts (http://164.15.10.140/) with very basic functionality:
- Robots can be added to the swarm
- Miner can issue a premium in Ether as incentive for removing oil
- Oil can be removed by pressing a button -> sender gets rewarded
- Experimented a bit with ARGoS
- Discussed points during the meeting:
- I need a convincing problem/application that absolutely requires the blockchain (could be very different from the oil spill removal task)
- Look into PoW/PoS/PoX algorithms and see which one is best for robot swarms (also look into "Physical Proof of Work"); since robots are computationally rather limited, we need a clever consensus algorithm, otherwise, an attacker could easily perform a 51% attack; also find out which cryptocurrencies use which algorithm; see if it is possible to switch to PoS in Ethereum
- Investigate possibilities for light clients (e.g., each city/organization could have a node that maintains the blockchain and the corresponding robots just run light clients)
- I can use the footbot simulation for now but will probably use the e-puck in the real experiments
Meeting 22/11/2016
- Application Scenario
- Proof-of-X
- Created simple interface between ARGoS and Ethereum node
- TODO: Find out, which application scenario is suited for blockchain technology (for example by reading Swarm robotics: a review); see if Amanda's paper is relevant
Intermediate Meeting 25/11/2016
- Discussed Collective decisions
Meeting 29/11/2016
- Finished Week 1 of Coursera course
- Started ARGoS simulation for the collective decisions scenario (centralized version):
- 10 robots, each robot has an account/address with some ETH
- Robots with id 0 - 3: send opinion red; Robots with id 4 - 9: send opinion green
- If a robot detects a wall or another robot it sends its opinion via the smart contract
- After a random amount of time an epoch is finished, the majority opinion is determined, and the counters for red and green are set back to 0
- TODO:
- Make voting only possible if 1 ETH is send with the transaction
- Distribute ETH after an epoch is finished
- Base opinions on sensor inputs
- Implement strategies for changing opinions (e.g., majority opinion, voter model)
Meeting 7/12/2016
- Implemented decentralized ARGoS/Ethereum framework
- Each robot is an Ethereum node
- Some are miners (currently, only one is a miner)
- Only robots that are physically close to each other are connected to each other via their Ethereum nodes
- TODO:
- Transfer simple scenario to collective decision scenario
- Transfer framework to the cluster (and see if it is possible at all, since the processes have to talk to each other; maybe reserve some fixed cluster nodes)
- Looked at Davide's code and Master's thesis
- Answer Pedro (Innoviris funding)
Meeting 13/12/2016
- Prototype of collective decision scenario with Epucks in ARGoS
- Next steps:
- Transfer to cluster (first steps are done)
- Improve voting strategies (e.g., payed voting, direct modulation, ...)
Meeting 19/12/2016
- Transferred framework to cluster
- Conducted some experiments
- Robots are always mining now
- MAJORITY VOTING: black is: 664 white is: 1032 -> Choosing white
Meeting 12/1/2017
- FNRS Aspirant
- Pre-form entry
- Link to application: Google Docs
- Link to Technical report: PDF (Dropbox)
Meeting 24/1/2017
- Continued with Technical report: PDF (Dropbox)
Date?! Meeting
- Make scenarios more similar (non-secure approach vs. blockchain approach) - comparison
Next Meeting
- FNRS proposal: https://docs.google.com/document/d/1XCAz8S4f8vP6GFaH4P-HqzD05ecvW35RfA-oB7pcWNM/edit
- FNRS abstract: https://docs.google.com/document/d/1ZQYwFREb8mcoknzqjYp9RLN-nokxLOvKRZiyiSquMUI/edit?usp=sharing
- FNRS publications: https://docs.google.com/document/d/1VgC82EYPeXfKxhLj968vuJPMdjODq_la-8_H-c6yd6g/edit?usp=sharing
- FNRS course details: https://docs.google.com/document/d/1WVSvWKR3uHBk8kDjy_y0ByLj6KAvXdfTo5dYqrKEjgo/edit?usp=sharing
- TODO:
- Upload letter from Jason
- Update workplan; include MIT visit