Studienprojekt: Study Project: Machine Learning meets Animal Communication (Part II) - Details

Studienprojekt: Study Project: Machine Learning meets Animal Communication (Part II) - Details

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Veranstaltungsname Studienprojekt: Study Project: Machine Learning meets Animal Communication (Part II)
Untertitel
Veranstaltungsnummer 8.3479
Semester SoSe 2021
Aktuelle Anzahl der Teilnehmenden 12
erwartete Teilnehmendenanzahl 12
Heimat-Einrichtung LE Cognitive Science
Veranstaltungstyp Studienprojekt in der Kategorie Offizielle Lehrveranstaltungen
Erster Termin Dienstag, 27.04.2021 16:15 - 17:00
Art/Form
SWS 6
Sprache Englisch
ECTS-Punkte 12

Räume und Zeiten

Keine Raumangabe
Dienstag, 27.04.2021 16:15 - 17:00
Dienstag, 04.05.2021 16:15 - 17:00
Mittwoch, 12.05.2021 13:15 - 14:00
Dienstag, 18.05.2021 16:15 - 17:00
Mittwoch, 26.05.2021 14:15 - 15:00
Dienstag, 01.06.2021 16:15 - 17:00
Dienstag, 15.06.2021 16:15 - 17:00
Mittwoch, 16.06.2021 14:15 - 15:00
Mittwoch, 23.06.2021 14:15 - 15:00

Kommentar/Beschreibung

There has been a long-standing interest to understand the meaning and function of animal vocalizations, as well as the structures which determine how animals communicate (Darwin, 1871). In human languages, a phoneme is the smallest meaningful unit of sound and syntactic rules governing sentence formation and sematic rules guiding assignment of meanings to sentences play a crucial role. However, what are the smallest components of complex animal vocalizations? According to which underlying principles are they organized within the respective communication systems to make the communication intelligible? What can we infer about their underlying cognitive processes from those underlying rules?

The majority of comparative research into language origins has been based on traditional methods such as behavioural observations and play-back experiments (Seyfarth et al. 1980). The large amount of data and variations in the vocalizations as well as subjectivity make hand analysis challenging.

Recently, machine learning has advanced many different scientific fields that impact our daily lives, such as automated speech recognition and computer vision. Its application is, however, still extremely underdeveloped in the fields of Animal Behaviour, Bioacoustics, and Comparative Psychology.
The goals and the work packages of the study project
The interdisciplinary study project of Machine Learning Meets Animal Communication aims to fill this gap by developing parts of a user-friendly framework that supports the extraction of detectable principles within the vocal repertoire of one of our closest living relatives, the chimpanzee (Pan troglodytes):
The project is divided in 3 working packages, 2 deliverables and will be assessed via presentations and a final report. (The following working packages and deliverables serve as a guidance to the topic. Participating students can adjust and develop the final focus ...