Self-organization

Faculteit Science and Engineering
Jaar 2021/22
Vakcode WBBY069-05
Vaknaam Self-organization
Niveau(s) bachelor
Voertaal Engels
Periode semester II b
ECTS 5
Rooster rooster.rug.nl

Uitgebreide vaknaam Self-organization
Leerdoelen At the end of the course, the student is able to:
1. State the association between hypotheses and experiments in the computer model
2. Extend the code in the project in a modelling environment (i.e. Netlogo)
3. Clarify the relation between hypotheses, the results and conclusions
4. Communicate clearly the outcomes (including test and graphs) of the experimental model and data-analyses orally (e.g. presentation and communication with supervisors). Present results in a short lecture to others in clear language and well-structured
Omschrijving Processes of self-organisation often stabilise ecological interactions on the one hand and lead complex social behaviour in group-living animals on the other hand. This is often due to the spatial structure which causes processes of self-organisation.
Self-organisation implies that cognitively simple rules at the level of the individual (the so-called micro-level) may lead to complex behaviour at a higher level (the macro-level). This will be illustrated with examples regarding, e.g. spatial configuration of individuals such as predator and prey, host and parasite (often in a spiral shape), and of processes such as the speed of spread of fire, grouping of larvae, segregation of the sexes of humans, cultural processes and social structure in primates, schools of fish, flocks of birds and architectural constructs made by social insects.

Pre-recorded short lectures will be studied in the mornings and practicals will be done in the afternoon. The practical work closely follows the contents of the lecture of each day. During these practicals students learn how to use the user-friendly programming environment Netlogo in combination with data-analysis in spreadsheets.

In the last part of the course, students work on their own modeling project (alone or in pairs). Projects will be offered, but students can also work on their own ideas. The work is to be rounded off with an end- presentation.
Uren per week
Onderwijsvorm Bijeenkomst (S), Hoorcollege (LC), Practisch werk (PRC), Werkcollege (T)
(LC-15 hrs, S-1 hr, T-36 hrs, PRC-60 hrs, self study 29 hrs)
Toetsvorm Meerkeuze toets (MC), Mondeling tentamen (OR), Practisch werk (PR), Presentatie (P)
(MC-10%, OE-40%, P-25%, PR-25%. Exam and project should each be 5.5 or higher)
Vaksoort bachelor
Coördinator prof. dr. C.K. Hemelrijk
Docent(en) prof. dr. C.K. Hemelrijk
Verplichte literatuur
Titel Auteur ISBN Prijs
Preferred literature (not mandatory): Self-organisation in Biological Systems, Princeton University Press, 2001 Camazine and co-authors 10: 0-691-11624-5
Entreevoorwaarden PLEASE NOTE
Students from other degree programmes than Biology, Life Science & Technology or Artificial Intelligence who would like to participate in this course unit are obliged to contact one of the academic advisors before enrolling in this course in order to check whether they have meet de entrance requirements. After this contact, students also have to request admission from the Board of Examiners Biology/Life Science & Technology. Failing to follow this entire procedure before the official enrollment deadline, results in immediate unenrollment without prior notification.
Opmerkingen Exercises obligatory (max 1 day missing)
Otherwise students are not allowed to participate in the projects (prc/pr)

Students from the bachelor degree programme Biology/(old curriculum LST) take priority over students from the bachelor programme Artificial Intelligence.
Opgenomen in
Opleiding Jaar Periode Type
BSc Artificial Intelligence  (Keuzevakken) 3 semester II b keuze
BSc Artificial Intelligence  (Keuzevakken) 2 semester II b keuze
BSc Biology: major Ecology and Evolution 2 semester II b keuze
BSc Biology: major Integrative Biology 2 semester II b keuze