| 1. |
- Bivall Persson, Petter, 1979-, et al.
(författare)
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Improved Feature Detection over Large Force Ranges Using History Dependent Transfer Functions
- 2009
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Ingår i: Third Joint Eurohaptics Conference and Symposium on Haptic Interfaces for Virtual Environments and Teleoperator Systems, WorldHaptics 2009. - : IEEE. - 9781424438587 ; , s. 476-481
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Konferensbidrag (refereegranskat)abstract
- In this paper we present a history dependent transfer function (HDTF) as a possible approach to enable improved haptic feature detection in high dynamic range (HDR) volume data. The HDTF is a multi-dimensional transfer function that uses the recent force history as a selection criterion to switch between transfer functions, thereby adapting to the explored force range. The HDTF has been evaluated using artificial test data and in a realistic application example, with the HDTF applied to haptic protein-ligand docking. Biochemistry experts performed docking tests, and expressed that the HDTF delivers the expected feedback across a large force magnitude range, conveying both weak attractive and strong repulsive protein-ligand interaction forces. Feature detection tests have been performed with positive results, indicating that the HDTF improves the ability of feature detection in HDR volume data as compared to a static transfer function covering the same range.
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| 2. |
- Höst, Gunnar E., 1976-, et al.
(författare)
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Methods for investigating students’ learning and interaction with a haptic virtual biomolecular model
- 2010
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Ingår i: Contemporary Science Education Research: International Perspectives. - Ankara : Pegem Akademi. - 9786053640318 ; , s. 115-121
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Konferensbidrag (refereegranskat)abstract
- Although immersive haptic virtual technologies are emerging rapidly in modern education, few methods exist for delivering data on the pedagogical merits of such models in the molecular life sciences. This paper reports on a selection of methods that we have used to obtain and analyse data on students’ learning and interaction with a haptic virtual model of protein-ligand docking, previously designed by author PBP. The methods have been developed and employed during four consecutive years in which the model has been part of an advanced biomolecular interactions course. In this regard, we present data-collection methods that include written items, interviews, think-aloud tasks and automated time-stamped logs and, corresponding quantitative and qualitative analytical procedures such as pre/posttest statistical comparisons, word usage analysis and, visualised profiling of students’ interaction with the model. Our results suggest that these methods are useful for generating valuable information on students’ learning gain, changes in conceptual understanding, reasoning processes and patterns of interactivity with the model. Dissemination of such methods could provide an empirical contribution to the dearth of research instruments in this domain. Future research will develop these methodologies to explore the relationship between using the model and students’ conceptual and embodied learning.
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| 3. |
- Tibell, Lena A. E., 1952-, et al.
(författare)
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Educational Challenges of Molecular Life Science- Characteristics and implications for education and research
- 2010
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Ingår i: CBE - Life Sciences Education. - Bethesda, MD, United States : American Society for Cell Biology. - 1931-7913. ; 9:1, s. 25-33
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Tidskriftsartikel (övrigt vetenskapligt/konstnärligt)abstract
- Molecular life science is one of the fastest-growing fields of scientific and technical innovation, and biotechnology has profound effects on many aspects of daily life, often with deep ethical dimensions. At the same time the content is inherently complex, highly abstract and deeply rooted in diverse disciplines ranging from “pure sciences,” such as maths, chemistry, and physics, through “applied sciences”, such as medicine and agriculture, to subjects that are traditionally within the remit of humanities, notably philosophy and ethics. Together these features pose diverse, important, and exciting challenges for tomorrow’s teachers and educational establishments.With backgrounds in molecular life science research and secondary life science teaching, we (LT and CJR, respectively) bring different experiences, perspectives, concerns, and awareness of these issues. Taking the nature of the discipline as a starting point, we highlight important facets of molecular life science that are both characteristic of the domain and challenging for learning and education. Of these challenges we focus in most detail on content, reasoning difficulties, and communication issues. We also discuss implications for education research and teaching in the molecular life sciences.
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| 4. |
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| 5. |
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| 6. |
- Andersson, Johanna, et al.
(författare)
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Children's reasoning and representations about living and non-living things
- 2013
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Konferensbidrag (refereegranskat)abstract
- Understanding of the concept ‘life’ and what characterise ‘living things’ is important as a foundation for learning in biology. In a more general view, this understanding can make children develop awareness, respect and responsibility for life as members of a society and in decision making for sustainable development. The present pilot study aim to investigate 5-6 year old pre-school children’s reasoning and representations about living and nonliving things. In cognitive developmental research, the concept of life is well investigated but, questions still remain regarding how children reason around and represent these concepts. Previous research has found that children have difficulties in including plants as living things. Moreover, it is found that young children include e.g. the sun, clouds and rocks as living things. The methods that have been used are often quantitative and use picture-cards with different objects for the children to categorize. In the present pilot study a modified methodology was applied. Children’s drawings of what they consider as living and non-living were collected and picture-cards were used as point of departure for reasoning. In interviews the children were encouraged to explain and express their ideas. The drawings and the cards mainly worked as a meaning making tool for the children. Results from the study will be presented and discussed.
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| 7. |
- Bivall, Petter, 1979-, et al.
(författare)
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Do Haptic Representations Help Complex Molecular Learning?
- 2011
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Ingår i: Science Education. - : Wiley. - 0036-8326 .- 1098-237X. ; 95:4, s. 700-719
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Tidskriftsartikel (refereegranskat)abstract
- This study explored whether adding a haptic interface (that provides users with somatosensory information about virtual objects by force and tactile feedback) to a three-dimensional (3D) chemical model enhanced students' understanding of complex molecular interactions. Two modes of the model were compared in a between-groups pre- and posttest design. In both modes, users could move and rotate virtual 3D representations of the chemical structures of the two molecules, a protein and a small ligand molecule. In addition, in a haptic mode users could feel the interactions (repulsive and attractive) between molecules as forces with a haptic device. Twenty postgraduate students (10 in each condition) took pretests about the process of protein--ligand recognition before exploring the model in ways suggested by structured worksheets and then completing a posttest. Analysis addressed quantitative learning outcomes and more qualitatively students' reasoning during the learning phase. Results showed that the haptic system helped students learn more about the process of protein–ligand recognition and changed the way they reasoned about molecules to include more force-based explanations. It may also have protected students from drawing erroneous conclusions about the process of protein–ligand recognition observed when students interacted with only the visual model.
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| 8. |
- Jahic Pettersson, Alma, 1986-, et al.
(författare)
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Students’ Meaning-Making of Nutrient Uptake in Relation to Organizational Levels
- 2022
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Ingår i: Designs for Learning. - : Stockholm University Press. - 2001-7480. ; 14:1, s. 29-45
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Tidskriftsartikel (refereegranskat)abstract
- Previous research suggests that everyday expressions are commonly used in students’ descriptions of nutrient uptake. This study investigate a classroom context in year 5 with a focus on signs of scientific meaning-making about nutrient uptake with an animation as a resource in two different schools. In one of the schools there was also a teacher review. The aim of this study is to investigate the pedagogical affordances of scientific terms and everyday expressions in the animation and in classroom teaching. Further, students’ signs of scientific meaning-making at the meso and submicro organizational level in group discussions and written descriptions are analyzed and if taking part of a teacher review influenced the students’ use of scientific terms and everyday expressions.The results show that the students who had a teacher review use everyday expressions at the meso and submicro level to a greater extent than the students who did not have an teacher review. The everyday expressions are often used as a kind of translation from the scientific terms in the students’ drawings.
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| 9. |
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| 10. |
- Orraryd, Daniel, et al.
(författare)
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Creative evolution: Students generating stop-motion animations of evolutionary change
- 2015
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Konferensbidrag (refereegranskat)abstract
- iagrams have been used to visualize evolutionary relationships for more than 150 years, and are today readily found in many areas such as textbooks, media, museums and the scientific literature. The tree of life metaphor, where the diagram takes the form of an organic vertical tree has been used almost as long and is still used to a high degree in textbooks and at museums. Despite this high prevalence the instructional needed to develop tree-thinking abilities are often lacking, potentially leading to interpretational misconceptions of the evolutionary concepts presented.In this study 5 exhibitions with evolutionary content in natural science museums in the Nordic countries have been analysed in order to understand how evolutionary tree diagrams are incorporated in these exhibitions, what design is used and what instructional support is available to the visitor. A multi-modal social semiotic approach was used, where 3 functional levels were analysed together in order to assess the meaning making potential of the evolutionary trees in these exhibitions; i) content, representational process and design. ii) instruction and interactivity. iii) spatial and organizational composition. The analyses show a wide range of communication strategies; reaching from the evolutionary tree diagrams having a pivotal role in the exhibition narrative to being placed purely in the margin with no explicit connection to the overall evolutionary content. The instructional support is in many cases lacking but is sometimes incorporated in the presentational text of specific parts of the evolutionary tree, and the design ranges from tree of life type iconic visualisations to highly abstract renderings. Overall the evolutionary tree as a visual tool to communicate important evolutionary concepts seems to be used to a high degree but important aspects in order to better afford scientific correct interpretations of the trees are sometimes lacking.
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