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
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
The Hospital Elder Life Program (HELP) has been shown to be highly efficient and (cost-)effective in reducing delirium incidence in the USA. HELP provides multicomponent protocols targeted at specific risk factors for delirium and introduces a different view on care organization, with trained volunteers playing a pivotal role. The primary aim of this study is the quantification of the (cost-)effectiveness of HELP in the Dutch health care system. The second aim is to investigate the experiences of patients, families, professionals and trained volunteers participating in HELP.
The denim industry faces many complex sustainability challenges and has been especially criticized for its polluting and hazardous production practices. Reducing resource use of water, chemicals and energy and changing denim production practices calls for collaboration between various stakeholders, including competing denim brands. There is great benefit in combining denim brands’ resources and knowledge so that commonly defined standards and benchmarks are developed and realized on a scale that matters. Collaboration however, and especially between competitors, is highly complex and prone to fail. This project brings leading denim brands together to collectively take initial steps towards improving the ecological sustainability impact of denim production, particularly by establishing measurements, benchmarks and standards for resource use (e.g. chemicals, water, energy) and creating best practices for effective collaboration. The central research question of our project is: How do denim brands effectively collaborate together to create common, industry standards on resource use and benchmarks for improved ecological sustainability in denim production? To answer this question, we will use a mixed-method, action research approach. The project’s research setting is the Amsterdam Metropolitan Area (MRA), which has a strong denim cluster and is home to many international denim brands and start-ups.
Due to the existing pressure for a more rational use of the water, many public managers and industries have to re-think/adapt their processes towards a more circular approach. Such pressure is even more critical in the Rio Doce region, Minas Gerais, due to the large environmental accident occurred in 2015. Cenibra (pulp mill) is an example of such industries due to the fact that it is situated in the river basin and that it has a water demanding process. The current proposal is meant as an academic and engineering study to propose possible solutions to decrease the total water consumption of the mill and, thus, decrease the total stress on the Rio Doce basin. The work will be divided in three working packages, namely: (i) evaluation (modelling) of the mill process and water balance (ii) application and operation of a pilot scale wastewater treatment plant (iii) analysis of the impacts caused by the improvement of the process. The second work package will also be conducted (in parallel) with a lab scale setup in The Netherlands to allow fast adjustments and broaden evaluation of the setup/process performance. The actions will focus on reducing the mill total water consumption in 20%.
Alcoholgebruiksstoornis (AUD) is een groot probleem. Alleen al in de USA zijn er 15 miljoen mensen met een AUD en meer dan 950.000 Nederlanders drinkt overmatig. Wereldwijd is 3-8% van het aantal sterfgevallen en 5% van alle ziektes en letsels toe te schrijven aan AUD. Zorg staat voor uitdagingen. Zo krijgt meer dan de helft van de AUD-patiënten binnen een jaar na behandeling een terugval. Een oplossing hiervoor is de inzet van Cue-Exposure-Therapy (CET). Daarbij worden cliënten blootgesteld aan triggers d.m.v. objecten, mensen en omgevingen die zucht opwekken. Om op een realistische, veilige en gepersonaliseerde manier deze triggers te ervaren, wordt Virtual Reality ingezet (VRET). Op die manier worden coping-vaardigheden getraind om verlangen naar alcohol tegen te gaan. De effectiviteit van VRET is (klinisch) bewezen. De komst van AR-technologieën roept echter de vraag op om mogelijkheden van Augmented-Reality-Exposure-Therapy (ARET) te onderzoeken. ARET geniet dezelfde voordelen als VRET (zoals een realistische veilige ervaring). Maar omdat AR virtuele-componenten in de echte omgeving integreert, waarbij het lichaam zichtbaar is, roept het vermoedelijk een ander type ervaring op. Dit kan de ecologische validiteit van CET in de behandeling vergroten. Daarnaast is ARET goedkoper te ontwikkelen (minder virtuele elementen) en hebben cliënten/klinieken gemakkelijker toegang tot AR (via smartphone/tablet). Bovendien worden nieuwe AR-brillen ontwikkeld, die nadelen zoals een te klein smartphone-scherm oplossen. Ondanks de vraag vanuit behandelaars, is ARET nog nooit ontwikkeld en onderzocht rondom verslaving. In dit project wordt het eerste ARET-prototype ontwikkeld rondom AUD in de behandeling van alcoholverslaving. Het prototype wordt ontwikkeld op basis van Volumetric-Captured-Digital-Humans en toegankelijk gemaakt voor AR-brillen, tablets en smartphones. Het prototype wordt gebaseerd op RECOVRY, een door het consortium ontwikkelde VRET rondom AUD. Een prototype-test onder (ex)AUD-cliënten zal inzicht geven in behoeften en verbeterpunten vanuit patiënt en zorgverlener en in het effect van ARET in vergelijk met VRET.
