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Analogical Reasoning in Biomimicry Design Education

“Teaching is both an art and a science” (Harrison & Coll, 2008 p.1). Good teaching excites students and cultivates their curiosity to learn more than they are asked. But what if students’ blank faces tell you that the teaching did not land, what can you do? Using an analogy or metaphor to explain the principle helps students visualize and comprehend the knowledge of difficult, abstract concepts by making it familiar. The National Academy of Engineers issued a report in 2008 emphasizing the need for design engineers to develop 21st century skills, such as ingenuity and creativity, and to create innovative products and markets. However, designers have a hard time ignoring evident constraints on their concepts during their design process. This is especially difficult for novice designers when attempting to use analogical reasoning (Osborn, 1963; Hey et al. 2008). Hey et al. explains how the multitude of design considerations is even more difficult for novice as compared to expert designers who are more able to focus on the important features of a problem. Kolodner (1997) iterates how novice designers have difficulty sifting through the mass of information they encounter. They need help with the transfer of knowledge that analogical reasoning requires. When students can clearly extract and articulate what they have learned, this helps them to internalize this. Biomimicry education teaches the clear extraction and articulation while learning to decipher and transfer function analogies from biology to design. This transfer can also improve reasoning when solving problems (Wu and Weng, 2013), reacting to the challenge in a more ‘out-of-the-box’ manner (Yang et al. 2015). However, not being able to fully understand this “conceptual leap between biology and design” in an accurate manner, is sited as a key obstacle of this field (Rowland, 2017; Rovalo and McCardle 2019, p. 1). Therefore, didactics on how to teach this analogical leap to overcome the hurdles is essential. There is insufficient research on the effectivity of biomimicry education in design to help establish ‘best practices’. This thesis offers advice to fill this pedagogical gap to find out how to overcome the obstacle of analogical reasoning for novice designers, while practicing biomimicry. The contribution to science is a not earlier tested methodology that leads to a clearer understanding of the translation of biological strategies and mechanisms found in scientific research. This translation from biology to design in visual and textual manner, is called the Abstracted Design Principle (ADP) and is introduced and explained in detail in chapters 4, 5 and 6 of this thesis. Together with the proposed instructions, we sketch the net-gain of positive mind-set for novice designers on their path to design for a sustainable future.

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Analogical Reasoning in Biomimicry Design Education

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Voorbeelden en analoog redeneren

Voorbeelden en onderwijs lijken onlosmakelijk met elkaar verbonden. Het gebruik van voorbeelden is vaak zo vanzelfsprekend, dat zelfs in didactische opleidingen niet altijd aandacht wordt besteed aan de voorwaarden voor een optimal gebruik ervan. Voorbeelden blijken echter niet automatisch tot meer kennis en beter begrip te leiden. Leren van en door voorbeelden vereist bewuste aandacht en doet een beroep op analoog redeneren. Er is veel onderzoek gedaan naar de centrale rol van analoog redeneren in leren. De hieruit voortgekomen kennis en inzichten lijken echter nog niet algemeen bekend bij docenten noch breed geïmplementeerd in het onderwijs, zo komt ook naar voren uit een verkennend onderzoek aan De Haagse Hogeschool. Dit artikel vormt een eerste aanzet om kennis en inzichten in analoog redeneren en in het effectief gebruik van voorbeelden bredere bekendheid te geven. De aanbevelingen in het artikel zijn bedoeld om docenten te inspireren en uit te dagen. Abstract. The use of examples for teaching purposes would seem an obvious choice for teachers. This might be the reason why even courses intended to instruct teachers in their future profession sometimes skip over ways to make effective use of examples. However, research has shown that the use of examples does not automatically enhance a learner’s knowledge and understanding. Learning from examples requires conscious effort and attention and calls for analogical reasoning. Although the key role played by analogical reasoning in learning has been widely investigated, an exploratory study conducted among lecturers at The Hague University of Applied Sciences showed that not that many of them were familiar with the findings of these studies nor were these findings featured in their teaching. This article is an attempt to promote the acquisition of scientific knowledge and insights into analogical reasoning and the effective use of examples. The recommendations provided here are meant to inspire and challenge teachers.

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Biomimicry design thinking education

Preliminary empirical research conducted by the leading author has shown that design students using biological analogies, or models across different contexts, often misinterpreted these, intentionally or unintentionally, during design. By copying shape or form without integrating the main function of the mimicked biological model, students failed to consider the process or system directing that function when attempting to solve the design need. This article considers the first step in the development of an applicable educational model using distant analogies from nature, by means of biomimicry thinking methodology. The analysis examines results from a base-line exercise taken by students in the Minor Design with Nature during the Spring semester of Industrial Design Engineering at The Hague University of Applied Sciences in 2019, verifying that students without biomimicry training use this hollow approach automatically. This research confirms the gap between where students are at the beginning of the semester and where they need to be as expert sustainable designers when they graduate. These findings provide a starting point for future interventions in biomimicry workshops to improve systematic design thinking through structural and scientifically based iterations of analogical reasoning. https://doi.org/10.1007/s10798-020-09574-1 LinkedIn: https://www.linkedin.com/in/helenkopnina/

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When students tackle grammatical problems

When teaching grammar, one of the biggest challenges teachers face is how to make their students achieve conceptual understanding. Some scholars have argued that metaconcepts from theoretical linguistics should be used to pedagogically and conceptually enrich traditional L1 grammar teaching, generating more opportunities for conceptual understanding. However, no empirical evidence exists to support this theoretical position. The current study is the first to explore the role of linguistic metaconcepts in the grammatical reasoning of university students of Dutch Language and Literature. Its goal was to gain a better understanding of the characteristics of students’ grammatical conceptual knowledge and reasoning and to investigate whether students’ reasoning benefits from an intervention that related linguistic metaconcepts to concepts from traditional grammar. Results indicate, among other things, that using explicit linguistic metaconcepts and explicit concepts from traditional grammar is a powerful contributor to the quality of students’ grammatical reasoning. Moreover, the intervention significantly improved students’ use of linguistic metaconcepts.

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When students tackle grammatical problems

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Teacher-Students learning to notice children’s mathematical reasoning in a video club

In the Netherlands there is discussion about the best way to teach mathematics, especially in the case of primary school students. Being able to identify and understand pupils’ multiple problem solving strategies is one of the pillars of pedagogy. However, it is very demanding for teachers, since it requires to notice and analyze pupils’ mathematical thinking and to understanding their actions. The skill to notice and analyze a student’s mathematical thinking is usually not emphasized in Dutch primary school teacher training. It is important to find ways to help teacher-students to analyze student mathematical reasoning, and to learn to recognize the importance of such analysis. Sherin and van Es used the concept of video clubs to help teachers in US schools to notice and analyze their students’ mathematical thinking. In such video clubs, students jointly discuss their filmed lessons. This leads to the following research question:How can video clubs be used to teach students who are learning to become primary school teachers to analyze their pupils’ mathematical thinking and to learn to recognize the importance of such analysis?This paper describes a study that monitors a video club with four participants.

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Education for Sustainable Development (ESD)

The study of moral reasoning in relation to sustainable development is an emerging field within environmental education (EE) and education for sustainable development (ESD). The vignette method was used to evaluate the perception of the relationship between environmental and social issues in the Dutch upper elementary school children. This case study is placed within two broad areas of tension, namely between the need to address urgent environmental problems and to promote pluralistic democratic learning; and between the value of environment as an economic asset and deep ecology perspective. Results of this study indicate that the children are able to critically think about the moral dilemmas inherent in sustainable development and distinguish between different values in relation to environment. https://doi.org/10.1016/j.stueduc.2013.12.004 https://www.linkedin.com/in/helenkopnina/

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Education for Sustainable Development (ESD)

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Building from the Bottom Up

Biomimicry education is grounded in a set of natural design principles common to every known lifeform on Earth. These Life’s Principles (LPs) (cc Biomimicry 3.8), provide guidelines for emulating sustainable strategies that are field-tested over nearly four billion years of evolution. This study evaluates an exercise for teaching LPs to interdisciplinary students at three universities, Arizona State University (ASU) in Phoenix, Arizona (USA), College of Charleston (CofC) in Charleston, South Carolina (USA) and The Hague University of Applied Sciences (THUAS) in The Hague (The Netherlands) during the spring 2021 semester. Students researched examples of both biological organisms and human designs exhibiting the LPs. We gauged the effectiveness of the exercise through a common rubric and a survey to discover ways to improve instruction and student understanding. Increased student success was found to be directly linked to introducing the LPs with illustrative examples, assigning an active search for examples as part of the exercise, and utilizing direct assessment feedback loops. Requiring students to highlight the specific terms of the LP sub-principles in each example is a suggested improvement to the instructions and rubric. An iterative, face-to-face, discussion-based teaching and learning approach helps overcome minor misunderstandings. Reiterating the LPs throughout the semester with opportunities for application will highlight the potential for incorporating LPs into students’ future sustainable design process. Stevens LL, Fehler M, Bidwell D, Singhal A, Baumeister D. Building from the Bottom Up: A Closer Look into the Teaching and Learning of Life’s Principles in Biomimicry Design Thinking Courses. Biomimetics. 2022; 7(1):25. https://doi.org/10.3390/biomimetics7010025

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The use of metaphors in organizational theory; the case of social capital

Metaphor is one of the important discursive themes in organizational literature (Grant et al.,2001). Metaphors play an important role in the discourse within organizations as well as in theorizing about organizations. This empirical paper focuses on the latter by analysing the role of metaphor in the development of theoretical concepts – in particular the concept of social capital – through the means of quantitative content analysis. Some authors argue that metaphors should be avoided in organizational theory (Bourgeois and Pinder, 1983; Tinker, 1986). Others see metaphors as valuable creative tools for developing new theories and insights (Weick, 1989). Morgan (1997) has shown that many theories about organizations can be ‘reordered’ (Keenoy et al., 2003) into a particular metaphorical view of organizations, showing the metaphorical bases of organizational theorizing. Lakoff and Johnson (1980, 1999) go even further, presenting compelling evidence from cognitive science indicating that metaphors are inescapable because they are the basis for our abstract reasoning. There is a debate about the way metaphor works (Black, 1993; Cornelissen, 2005; Heracleous, 2003; Keenoy et al., 2003; Lakoff and Johnson, 1999; Marshak, 2003; Oswick et al. 2002, 2003; Tsoukas, 1991;) especially about whether metaphor is simply a matter of comparison highlighting the analogies in the source and target domain, or whether a metaphor does more then that. In the paper we take the latter position and adopt Lakoff and Johnson’s (1999) model of cross-domain mapping. This model states that not only similarities and features are transferred from the source to the target domain but that the target domain often gets its structure from the source domain. The metaphorical mapping from the source to the target domain can be rich and complex because metaphors have many ‘entailments’. Entailments are the connotations of the metaphor that transport meaning from the source to the target domain. Furthermore, the application of conceptual metaphor often happens out-of-awareness (Lakoff and Johnson, 1999; Marshak, 2003). It is part of the unconscious mental operations concerned with conceptual systems, meaning, inference, and language. We can recognize the unconscious use of metaphor in organizational theorizing by looking at the literal meaning of organizational concepts and statements (Andriessen, 2006).

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The use of metaphors in organizational theory; the case of social capital

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Illness scripts in nursing: Directed content analysis

AimsTo explore the possible extension of the illness script theory used in medicine to the nursing context.DesignA qualitative interview study.MethodsThe study was conducted between September 2019 and March 2020. Expert nurses were asked to think aloud about 20 patient problems in nursing. A directed content analysis approach including quantitative data processing was used to analyse the transcribed data.ResultsThrough the analysis of 3912 statements, scripts were identified and a nursing script model is proposed; the medical illness script, including enabling conditions, fault and consequences, is extended with management, boundary, impact, occurrence and explicative statements. Nurses often used explicative statements when pathophysiological causes are absent or unknown. To explore the applicability of Illness script theory we analysed scripts’ richness and maturity with descriptive statistics. Expert nurses, like medical experts, had rich knowledge of consequences, explicative statements and management of familiar patient problems.ConclusionThe knowledge of expert nurses about patient problems can be described in scripts; the components of medical illness scripts are also relevant in nursing. We propose to extend the original illness script concept with management, explicative statements, boundary, impact and occurrence, to enlarge the applicability of illness scripts in the nursing domain.ImpactIllness scripts guide clinical reasoning in patient care. Insights into illness scripts of nursing experts is a necessary first step to develop goals or guidelines for student nurses’ development of clinical reasoning. It might lay the groundwork for future educational strategies.

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Analogical Reasoning in Biomimicry Design Education

Voorbeelden en analoog redeneren

Biomimicry design thinking education

When students tackle grammatical problems

Teacher-Students learning to notice children’s mathematical reasoning in a video club

Education for Sustainable Development (ESD)

Building from the Bottom Up

The use of metaphors in organizational theory; the case of social capital

Illness scripts in nursing: Directed content analysis

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Analogical Reasoning in Biomimicry Design Education

Voorbeelden en analoog redeneren

Biomimicry design thinking education

When students tackle grammatical problems

Teacher-Students learning to notice children’s mathematical reasoning in a video club

Education for Sustainable Development (ESD)

Building from the Bottom Up

The use of metaphors in organizational theory; the case of social capital

Illness scripts in nursing: Directed content analysis