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To let students have a basic understanding of swarm intelligence principles
Swarm intelligence is the discipline that deals with natural and artificial systems composed of many individuals that coordinate using decentralized control and self-organization. In particular, the discipline focuses on the collective behaviors that result from the local interactions of the individuals with each other and with their environment. Examples of systems studied by swarm intelligence are colonies of ants and termites, schools of fish, flocks of birds, herds of land animals. Some human artifacts also fall into the domain of swarm intelligence, notably some multi-robot systems, and also certain computer programs that are written to tackle optimization and data analysis problems. The course will present a number of swarm intelligence systems and will give the opportunity to experiment with them.
Introduction to Swarm Intelligence
Particle Swarm Optimization (PSO)
Introduction to Swarm Robotics
Ant Colony Optimization and Particle Swarm Optimization:
* The TSP solved using Ant System
* Scripts
* Template of ACO for the TSP (implemented)
* ACOTSP (implementation of various ACO algorithms applied to the TSP)
Swarm Robotics:
Instructions for the practical sessions are available through Office 365 Teams:
S22 - Lesson 01 - Thu 13.02.2020 - 2:00pm-4:00pm - S.H2213
S23 - Lesson 02 - Thu 20.02.2020 - 2:00pm-4:00pm - S.H2213
S23 - Lesson 03 - Thu 20.02.2020 - 4:00pm-6:00pm - Descartes (UB4.329a) and Platon (J.1.104)
S24 - Lesson 04 - Thu 27.02.2020 - 2:00pm-4:00pm - S.H2213
s24 - Lesson 05 - Thu 27.02.2020 - 4:00pm-6:00pm - Aristote (UB4.126)
S26 - Lesson 06 - Thu 12.03.2020 - 2:00pm-4:00pm - Aristote (UB4.126)
S26 - Lesson 07 - Thu 12.03.2020 - 4:00pm-6:00pm - Aristote (UB4.126)
S27 - Lesson 08 - Thu 19.03.2020 - 2:00pm-4:00pm - online via email to assistants
S27 - Lesson 09 - Thu 19.03.2020 - 4:00pm-6:00pm - online via email to assistants
Due to the COVID-19 lockdown, the theoretical and practical sessions for the remaining part of the Swarm Intelligence course (which concerns swarm robotics) will be given through Office 365 Teams. Students can connect here: Connect to Office 365 Teams
If you have any questions concerning this part of the course you can contact Prof. Birattari via email: mbiro@ulb.ac.be
S28 - Lesson 10 - Thu 26.03.2020 - 2:00pm-4:00pm -
S28 - Lesson 11 - Thu 26.03.2020 - 4:00pm-6:00pm -
S29 - Lesson 12 - Thu 02.04.2020 - 2:00pm-4:00pm -
S29 - Lesson 13 - Thu 02.04.2020 - 4:00pm-6:00pm -
S32 - Lesson 14 - Thu 23.04.2020 - 2:00pm-4:00pm -
S32 - Lesson 15 - Thu 23.04.2020 - 4:00pm-6:00pm -
S33 - Lesson 16 - Thu 30.04.2020 - 2:00pm-4:00pm -
S33 - Lesson 17 - Thu 30.04.2020 - 4:00pm-6:00pm -
S34 - Lesson 18 - Thu 07.05.2020 - 2:00pm-4:00pm -
The first session exams will take place on June 22nd/23rd/24th, 2020
However, to increase flexibility, it will also be possible for the students to choose to have their exam on the 16th or the 18th. In this case they should let us know, at the time they deliver their project (June 6, 2020), whether they wish to have their examination on the 16th, the 18th or the 22nd/23rd/24th. We will try as much as possible to meet the students requests. If no indication is provided, it will be assumed that the student wishes to take his/her exam on the 22nd/23rd/24th.
Students should also provide, together with the delivery of their project, a telephone number or Skype address where we could call them in case there is any problem with the TEAMS connection. Please place your telephone number on the project front page, just beside your name.
Exams will take place online, using the ULB TEAMS application Oral examination
The second session exam will take place between August 12th and August 19th, 2020
Exams will take place online, using the ULB TEAMS application
The exact schedule will be communicated once we know the exact number of students.
The project is composed of two parts, covering the two subjects studied in class: swarm robotics and optimization. In the first part, the students are required to solve, by hand, a collective decision problem in which a swarm must select the best option among set of possible alternatives. In the second part, the students must identify parameters of their solution to the collective decision problem, and fine-tune these parameters using a particle swarm optimization algorithm.
Project rules
The project counts for 50% of the final grade. The two parts of the project (swarm robotics and optimization) are equally important and comprise one single project. Therefore, in order to deliver a complete project, the students have to tackle both parts.
The project submission deadline is June 6 at 23:59. Delay on the submission will entail a penalty of 1 point every 12 hours of delay on the final evaluation of the project. Maximum delays is June 9 at 23:59. After this deadline, the exam is failed.
The students have to submit, via the Assignments of TEAMS, the following elements: Their code in digital format together with information on how to test it; A short report of maximum 7 pages written in English that describes their work.
The project, as it was the case for the first session, will be composed of two parts, covering the two subjects studied in class: swarm robotics and optimization.
Project rules
The project counts for 50% of the final grade. The two parts of the project (swarm robotics and optimization) are equally important and comprise one single project. Therefore, in order to deliver a complete project, the students have to tackle both parts.
The project submission deadline is August 7 at 23:59. Delay on the submission will entail a penalty of 1 point every 12 hours of delay on the final evaluation of the project. Maximum delays is August 9 at 23:59. After this deadline, the exam is failed.
The students have to submit, via the Assignments of TEAMS, the following elements: Their code in digital format together with information on how to test it; A short report of maximum 7 pages written in English that describes their work.
There will be a second session. The exam modalities will be the same as in the first session. The description of a new project will be made available in early July.
Ex cathedra and projects. Course taught in English.