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Developing geographic computer modeling competencies in higher education.

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Bibliographic Details
Title: Developing geographic computer modeling competencies in higher education.
Authors: Ammoneit, Rieke, Reudenbach, Christoph, Peter, Carina
Source: Journal of Geography in Higher Education; Jul2024, Vol. 48 Issue 3, p345-367, 23p
Subject Terms: COMPUTER simulation, TEACHERS, STUDENT development, NETLOGO (Computer program language), COMPUTER programming
Abstract: Modeling is a key scientific practice and is usually computer-implemented, but it is challenging to teach because it seems high on presuppositions, for example, coding. This design-based research study presents a geography course offered during the 2019/20 winter semester in computer modeling, with no prior coding knowledge. It was implemented in two elective classes: one in the Bachelor of Science program and one in the teacher program. Interviews were conducted to monitor the students' development, and the final reports showed their competencies at the end of the course. Since there were no noticeable differences between the Bachelor of Science students and the teacher trainees in terms of competence acquisition, four learning types could be described based on analysis of the interviews and final reports, which are important for the planning and adaptation of the course concepts. In summary, our results show four key findings: (1) mere reproduction of learning content is of no value for the development of geographic modeling skills; (2) the ability to access conceptual thinking patterns is crucial; (3) process-level understanding is a fundamental prerequisite for advanced geographic modeling understanding; and (4) poor programming skills hinder but do not prevent at least basic modeling understanding. [ABSTRACT FROM AUTHOR]
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Database: Complementary Index
Description
Abstract:Modeling is a key scientific practice and is usually computer-implemented, but it is challenging to teach because it seems high on presuppositions, for example, coding. This design-based research study presents a geography course offered during the 2019/20 winter semester in computer modeling, with no prior coding knowledge. It was implemented in two elective classes: one in the Bachelor of Science program and one in the teacher program. Interviews were conducted to monitor the students' development, and the final reports showed their competencies at the end of the course. Since there were no noticeable differences between the Bachelor of Science students and the teacher trainees in terms of competence acquisition, four learning types could be described based on analysis of the interviews and final reports, which are important for the planning and adaptation of the course concepts. In summary, our results show four key findings: (1) mere reproduction of learning content is of no value for the development of geographic modeling skills; (2) the ability to access conceptual thinking patterns is crucial; (3) process-level understanding is a fundamental prerequisite for advanced geographic modeling understanding; and (4) poor programming skills hinder but do not prevent at least basic modeling understanding. [ABSTRACT FROM AUTHOR]
ISSN:03098265
DOI:10.1080/03098265.2023.2250991