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<!-- A short overview of the course (less than 100 words).
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      This is a naive site editor's version based on the information sheet: -->
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This course provides a comprehensive overview of principles of cognition, seen as a natural biological phenomenon. The main objective is the formulation of substantiated interrelation of cognition and evolution. The interdisciplinarity of research in cognitive biology requires students to think multi-disciplinary and on multiple scales.
 
This course provides a comprehensive overview of principles of cognition, seen as a natural biological phenomenon. The main objective is the formulation of substantiated interrelation of cognition and evolution. The interdisciplinarity of research in cognitive biology requires students to think multi-disciplinary and on multiple scales.
  
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<!--
 
{{Infolist|2-IKV-191|Course information sheet >}}
 
{{Infolist|2-IKV-191|Course information sheet >}}
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== News ==
  
<div class="well small pull-right" style="width: 50%">
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:The first lecture will be held on Wednesady, Feb 21, 2018 from 16:30 to 19:00 (exact time to be detemined). See more details in the [[#Schedule|schedule]] below.
'''Note.'''
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This page is meant to inform students about the ongoing course occurrence in the current semester.
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More general course information is in its information sheet, which is linked above (the sheet's content should be up to date soon).
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Examples of the suggested content follow below this note. Adjust it to your needs. Try keeping the bits that are most interesting to your students towards the top.
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== Study materials ==
 +
* Kováč L. (2015) Closing Human Evolution/Springer, https://goo.gl/Wo2ZRg
  
Comment-out or delete this note after reading.
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* Kováč L. (2000) [http://dai.fmph.uniba.sk/courses/CSCTR/materials/CSCTR_03sem_Kovac_2000.pdf  Fundamental principles of cognitive biology]. Evolution and Cognition, 6, 51-69
</div>
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== News ==
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* Baluška F., Mansuso S. (2009) [https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2649305/pdf/cib0201_0060.pdf Deep evolutionary origins of neurobiology]. Communicative & Integrative Biology, :1, 60-65
  
;Feb 15, 2018
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* other research papers
:The first lecture will be held on Monday, Feb 19, 2018. See more details in the [[#Schedule|schedule]] below.
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== Study materials ==
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The scientific concept of cognitive biology draws from the assumption that cognition is a natural biological phenomenon and can thus be approached by comparative studies of different types of organisms assuming a meaningful degree of continuity among them. The main objective is the formulation of substantiated interrelation of cognition and evolution. By understanding the underlying physicochemical and electrical principles of cognitive processes, cell-cell communication, and molecular mechanisms, the basics of homologous processes in increasingly complex systems (from simple model systems to humans and their socio-physical environment) can be tackled.
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[https://en.wikipedia.org/wiki/Cognitive_biology Cognitive Biology: Wikipedia Reference]
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=== Lectures ===
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# [[Media:Course:Example-lec02.pdf|The introduction proper]] (link to file which has not been uploaded yet; clicking it will show an upload form)
 
# [https://github.com/FMFI-UK-1-AIN-412/lpi/raw/master/docs/lecs/lec03.pdf Introduction (contd.)] (an external resource)
 
# [https://github.com/FMFI-UK-1-AIN-412/lpi/raw/master/docs/lecs/lec03.pdf Introduction (contd.)] (an external resource)
 
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=== Laboratories ===
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== LECTURER ==
# …
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# …
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== Teachers ==
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;Lecturer
 
 
:[https://www.kli.ac.at/en/people/kli_staff/view/137 Isabella Sarto-Jackson], <code>isabella.sarto-jackson{@}kli.ac.at</code> <!-- add more contact details if necessary -->
 
:[https://www.kli.ac.at/en/people/kli_staff/view/137 Isabella Sarto-Jackson], <code>isabella.sarto-jackson{@}kli.ac.at</code> <!-- add more contact details if necessary -->
; Teaching assistant <!-- remove if not applicable -->
 
:TBA
 
  
 
== Schedule ==
 
== Schedule ==
  
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{| class="table-responsive alternative"
 
{| class="table-responsive alternative"
 
!Session type
 
!Session type
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|-
 
|Lectures
 
|Lectures
|2AIN*
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|1IKV, 2IKV, ...
|rowspan="2"|Monday
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|rowspan="2"|Wednesday
|11:30
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|B
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|-
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|rowspan="3"|Tutorials
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|3AIN*, 2AIN*
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|16:30
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|M-X
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|-
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|2AIN2
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|rowspan="2"|Tuesday
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|14:50
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|M-VIII
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|-
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|2AIN1
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|16:30
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|M-XII
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|-
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|rowspan="2"| Laboratories
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|2AIN1, 3AIN*
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|rowspan="3"|Wednesday
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|14:50
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|I-H6
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|-
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|2AIN2
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|16:30
 
|16:30
|I-H3
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|to be announced
 
|-
 
|-
|Consultation
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|rowspan="3"|Seminar / Discussion round
|2AIN*, 3AIN*
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|1IKV, 2IKV, ...
|13:10–14:30
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|18:00
|I-16, I-7
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|to be announced
 
|-
 
|-
|Academic support center
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|2AIN*, 3AIN*
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|colspan="3"| See the [[Academic support center]] page.
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|}
 
|}
  
Riadok 114: Riadok 67:
  
 
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{| class="table-responsive alternative"
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!Possible maximum
Riadok 120: Riadok 73:
 
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|rowspan="3"|Teaching period
 
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|1st assignment
 
|25
 
|25
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|10
 
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|2nd test
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|2nd assignment
 
|25
 
|25
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|10
 
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|''Total''
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|3rd assignment
|''50''
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|25
|''25''
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|10
 
|-
 
|-
 
|rowspan="1"|Evaluation period
 
|rowspan="1"|Evaluation period
|Exam
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|Active involvement during course / discussion
|50
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|25
 
|25
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|20
 
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|colspan="2"|'''Course total'''
 
|colspan="2"|'''Course total'''
Riadok 168: Riadok 121:
 
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|}
  
== Columns example &mdash; two columns ==
 
You can place the content in columns by using the [[Template:Row|Row]] template, with multiple uses of the [[Template:Column|Column]] template inside. See the details in [{{fullurl:{{FULLPAGENAME}}|action=edit&section=10}} source code].
 
{{Row |
 
{{Column | width = 6 |
 
=== Column heading ===
 
Column width (the <code>width</code> parameter) is given in twelfths of the total content width. Two equally wide columns spanning the whole content width thus have the widths 6 + 6.
 
  
* Text '''structuring''' and ''formatting'' work as usual in columns, as well as image inclusion, [[Introduction|links]], {{Infolist|1-AIN-990|templates}}, even tables.
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== Course Outline ==
* Symbols {{!}} a {{=}} must be written as <code><nowiki>{{!}}</nowiki></code> and <code><nowiki>{{=}}</nowiki></code> in plain text, respectively. However, these symbols are used normally to assign template parameters.
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'''1. A Brief History of Cognitive Biology:''' 
Goodwin, Piaget, Kuhn, Riedl, Kovac, Lyon, Keijzer, Godfrey-Smith
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{{Column | width = 6 |
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=== Second column heading ===
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The columns may also have unequal widths. E.g., the tables in the previous section would fit well in two columns of widths 7 and 5, respectively.
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Columns stack one after another in narrow windows and on mobile devices.
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'''2. The Underlying Principles of Cognitive Biology:'''
 Kovac´s Fundamental Principles; Physicochemical Groundwork (Self-Organization; Thermodynamics vs. Kinetics)
}}
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}}
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== Columns example &mdash; three columns ==
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'''3. The Basal Level of Cognition I:''' ''
Molecular Mechanisms'': From Signaling in Single Cell Organisms to Action Potential
  
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'''4. The Basal Level of Cognition II:''' 
Concept of Information; Biosemiotics; Chemotons & Autocatalytic Sets
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Lorem ipsum dolor sit amet, consectetur adipiscing elit. Sed pulvinar, urna sit amet consectetur imperdiet, libero sem molestie nunc, nec efficitur nunc eros et magna. Cras vestibulum varius lacus cursus aliquam.
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Pellentesque rutrum viverra tellus quis molestie. Interdum et malesuada fames ac ante ipsum primis in faucibus.
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'''5. The Medial Level of Cognition:''' 
Cellular Communication, Neural Networks; Network Information Processing
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Phasellus fermentum purus erat, vitae faucibus erat dapibus vitae. Suspendisse fermentum odio mauris, pharetra egestas sem dapibus non. Quisque porttitor tellus et sem ullamcorper, nec ullamcorper sapien tincidunt. Quisque sodales egestas ante, sed
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'''6. The Apical Level of Cognition I:''' 
Organismal Behavior (Action [Doing/Knowing], Decision Making); “Rationality”; Goal-directedness
}}
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{{Column
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'''7. The Apical Level of Cognition II
:''' Emotions; Mechanisms for Learning & Memory; Associative Learning Paradigm; Brain Modularity; Onticity
|width = 4
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|class = col-sm-4
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'''8. The Ontic Level of Cognition:''' ''Developmental Processes I'': 
Developmental Genetics; Gene Regulatory Networks; Epigenetic Landscape; Principles of Homology/Analogy; Convergent Evolution
|column-content =
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{{Box | link = [[Template:Box]] |
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'''9. The Ontic Level of Cognition:''' ''Developmental Processes II'': 
Generative Entrenchment & Ratchet Effects; Developmental Constraints; Hierarchical Processing
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This box was made using [[Template:Box]]. Proin et lectus pretium, dignissim nisi at, imperdiet nibh. Integer fringilla sapien quis dapibus ultrices. Nulla in gravida magna. Praesent lacinia cursus lacinia.
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'''10. The Supra-Individual Level of Cognition I:''' 
From Eliminative Reductionism to Organicism; Evolutionary Epistemology; Teleonomy / Teleology
}}
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}}
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'''11. The Supra-Individual Level of Cognition II
:''' Social Cognition: Beyond the Nature-Nurture Divide; Cultural Evolution; 
Environmental Complexity; Umwelt; Niche Construction
}}
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'''12. The Supra-Individual Level of Cognition III
:''' Evolution of Complex Systems; The Extended Evolutionary Synthesis; Major Transitions in Evolution
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 +
'''13. Resumé & Outlook'''

Verzia zo dňa a času 21:39, 5. február 2018

Cognitive biology 2-IKV-191


This course provides a comprehensive overview of principles of cognition, seen as a natural biological phenomenon. The main objective is the formulation of substantiated interrelation of cognition and evolution. The interdisciplinarity of research in cognitive biology requires students to think multi-disciplinary and on multiple scales.

News

The first lecture will be held on Wednesady, Feb 21, 2018 from 16:30 to 19:00 (exact time to be detemined). See more details in the schedule below.

Study materials

  • other research papers

The scientific concept of cognitive biology draws from the assumption that cognition is a natural biological phenomenon and can thus be approached by comparative studies of different types of organisms assuming a meaningful degree of continuity among them. The main objective is the formulation of substantiated interrelation of cognition and evolution. By understanding the underlying physicochemical and electrical principles of cognitive processes, cell-cell communication, and molecular mechanisms, the basics of homologous processes in increasingly complex systems (from simple model systems to humans and their socio-physical environment) can be tackled.

Cognitive Biology: Wikipedia Reference

LECTURER

Isabella Sarto-Jackson, isabella.sarto-jackson{@}kli.ac.at

Schedule

Session type Study group Day of week Time Room
Lectures 1IKV, 2IKV, ... Wednesday 16:30 to be announced
Seminar / Discussion round 1IKV, 2IKV, ... 18:00 to be announced

Assessment and evaluation

You can earn points in the assessment activities spread throughout the semester listed in the following table. The table also shows the required minima and possible maximal point evaluations.

Assessment
Activity Possible maximum Required minimum
Teaching period 1st assignment 25 10
2nd assignment 25 10
3rd assignment 25 10
Evaluation period Active involvement during course / discussion 25 20
Course total 100 50

The final mark will be awarded according to the following table:

Course evaluation
Points earned Mark
〈90, 100〉 A
〈80, 90) B
〈70, 60) C
〈60, 70) D
〈50, 60) E
〈0, 50) FX


Course Outline

1. A Brief History of Cognitive Biology: 
Goodwin, Piaget, Kuhn, Riedl, Kovac, Lyon, Keijzer, Godfrey-Smith

2. The Underlying Principles of Cognitive Biology:
 Kovac´s Fundamental Principles; Physicochemical Groundwork (Self-Organization; Thermodynamics vs. Kinetics)

3. The Basal Level of Cognition I: 
Molecular Mechanisms: From Signaling in Single Cell Organisms to Action Potential

4. The Basal Level of Cognition II: 
Concept of Information; Biosemiotics; Chemotons & Autocatalytic Sets

5. The Medial Level of Cognition: 
Cellular Communication, Neural Networks; Network Information Processing

6. The Apical Level of Cognition I: 
Organismal Behavior (Action [Doing/Knowing], Decision Making); “Rationality”; Goal-directedness

7. The Apical Level of Cognition II
: Emotions; Mechanisms for Learning & Memory; Associative Learning Paradigm; Brain Modularity; Onticity

8. The Ontic Level of Cognition: Developmental Processes I: 
Developmental Genetics; Gene Regulatory Networks; Epigenetic Landscape; Principles of Homology/Analogy; Convergent Evolution

9. The Ontic Level of Cognition: Developmental Processes II: 
Generative Entrenchment & Ratchet Effects; Developmental Constraints; Hierarchical Processing

10. The Supra-Individual Level of Cognition I: 
From Eliminative Reductionism to Organicism; Evolutionary Epistemology; Teleonomy / Teleology

11. The Supra-Individual Level of Cognition II
: Social Cognition: Beyond the Nature-Nurture Divide; Cultural Evolution; 
Environmental Complexity; Umwelt; Niche Construction

12. The Supra-Individual Level of Cognition III
: Evolution of Complex Systems; The Extended Evolutionary Synthesis; Major Transitions in Evolution

13. Resumé & Outlook