Relevant bibliographies by topics / Template for Sustainable Product Development

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  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers
  6. Reports

Academic literature on the topic 'Template for Sustainable Product Development'

Author: Grafiati
Published: 4 June 2021
Last updated: 2 February 2022

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Journal articles on the topic "Template for Sustainable Product Development"

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Ny, Henrik, Sophie Hallstedt, Karl-Henrik Robèrt, and Göran Broman. "Introducing Templates for Sustainable Product Development." Journal of Industrial Ecology 12, no. 4 (August 2008): 600–623. http://dx.doi.org/10.1111/j.1530-9290.2008.00061.x.

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Barin, Gabriela Borin, Thalita Santos Bispo, Iara de Fátima Giminenez, and Ledjane Silva Barreto. "Carbon Nanostructures Synthesize from Coconut Coir Dust Mediated by Layered Clays through Hydrothermal Process." Materials Science Forum 727-728 (August 2012): 1355–59. http://dx.doi.org/10.4028/www.scientific.net/msf.727-728.1355.

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Brazil has a large potential for energy generation and development of new materials from renewable resources through eco-friendly routes, which presents an alternative for construction of an eco-technological platform, where the entire lifecycle of the material or industrial product be sustainable. The proposal of the present work was synthesize carbon nanostructures from coconut coir dust and via template synthesis mediated by layered clays through hydrothermal process. The obtained materials were characterized by Raman Spectroscopy, Fourier Transform Infrared Spectroscopy and Scanning Electron Microscope (SEM). Carbon phase formation was indicated by infrared results with bands at 1444 cm-1and 1512 cm-1assigned to C=C of aromatic groups. Raman spectroscopy results showed presence of carbonaceous species by the appearance of D and G bands assigned to disordered and graphitic crystallites, respectively. SEM results showed overlapping sheets and plates formation. High Resolution Transmission Electron Microscopy measures are in progress.
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Acharya, Shakuntala, Kiran Ghadge, B. S. C. Ranjan, Suman Devadula, and Amaresh Chakrabarti. "Evaluating the effectiveness of InDeaTe tool in supporting design for sustainability." Artificial Intelligence for Engineering Design, Analysis and Manufacturing 34, no. 1 (February 2020): 45–54. http://dx.doi.org/10.1017/s0890060419000337.

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AbstractIn today's aggressive global market, innovation is key for success and design solutions require not only to achieve competitive edge, but also to address the growing environmental, social, and economic needs of the community at large. Consideration of these three pillars of sustainability makes a design inclusive, and life cycle thinking is found to be a promising approach across the literature. However, most supports for design address certain facets or aid singular tasks, and the use of design methods and tools, which have the potential to significantly improve the design process, is low due to inappropriate use and selection of these methods. InDeaTe (Innovation Design database and Template) is a holistic, knowledge-driven, computer-based tool for design of sustainable systems, such as products, manufacturing systems andservice systems and has been developed to address and integrate the aspects of sustainability on a singular design platform. It comprises of the generic design process Template that imbibes life cycle thinking into the process by incorporating consideration of every life cycle phase in each design stage, where design activities are performed iteratively. It further supports the design process by aiding the use and selection of appropriate design methods and tools in concurrence with the primary motivation of improving sustainability of the system with the aid of the InDeaTe Design Database. This paper discusses the ontological underpinnings behind the conceptualization of the InDeaTe methodology and the development of the supporting tool. The paper further reports empirical findings from six different case studies conducted for evaluating the effectiveness of InDeaTe tool in supporting design for sustainability (DfS). The results show that InDeaTe tool has potential in supporting DfS.
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Chen, Canxi, Abhishek Chaudhary, and Alexander Mathys. "Dietary Change Scenarios and Implications for Environmental, Nutrition, Human Health and Economic Dimensions of Food Sustainability." Nutrients 11, no. 4 (April 16, 2019): 856. http://dx.doi.org/10.3390/nu11040856.

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Demand side interventions, such as dietary change, can significantly contribute towards the achievement of 2030 national sustainable development goals. However, most previous studies analysing the consequences of dietary change focus on a single dimension of sustainability (e.g., environment) using a limited number of indicators and dietary scenarios. A multi-dimension and multi-indicator analysis can identify the potential trade-offs. Here, starting from the current food consumption data (year 2011), we first designed nine alternative dietary scenarios (healthy Swiss diet, healthy global diet, vegetarian, vegan, pescatarian, flexitarian, protein-oriented and meat-oriented diets and a food greenhouse gas tax diet). Next we calculated three nutritional quality (nutrient balance score, disqualifying nutrient score, percent population with adequate nutrition), five environmental (greenhouse gas, water, land, nitrogen and phosphorus use), one economic (daily food expenditure) and one human health indicator (DALYs) for current and alternative diets. We found that transition towards a healthy diet following the guidelines of Swiss society of nutrition is the most sustainable option and is projected to result in 36% lesser environmental footprint, 33% lesser expenditure and 2.67% lower adverse health outcome (DALYs) compared with the current diet. On the other extreme, transition towards a meat or protein oriented diet can lead to large increases in diet related adverse health outcomes, environmental footprint, daily food expenditure and a reduction in intakes of essential nutrients (for Vitamin C, Fibre, Potassium and Calcium). We found that shifting to the vegetarian and vegan diet scenarios might lead to a reduction in intakes of certain micronutrients currently supplied primarily by animal-sourced foods (Vitamin B12, Choline and Calcium). Results show that achieving a sustainable diet would entail a high reduction in the intake of meat and vegetable oils and a moderate reduction in cereals, roots and fish products and at the same time increased intake of legumes, nuts, seeds, fruits and vegetables. We identify several current data and research gaps that need to be filled in order to get more accurate results. Overall, our analysis underscores the need to consider multiple indicators while assessing the dietary sustainability and provides a template to conduct such studies in other countries and settings. Future efforts should focus on assessing the potential of different interventions and policies that can help transition the population from current to sustainable dietary patterns.
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van Weenen, J. C. "Towards sustainable product development." Journal of Cleaner Production 3, no. 1-2 (January 1995): 95–100. http://dx.doi.org/10.1016/0959-6526(95)00062-j.

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Hanssen, O. J. "Sustainable product systems—experiences based on case projects in sustainable product development." Journal of Cleaner Production 7, no. 1 (February 1999): 27–41. http://dx.doi.org/10.1016/s0959-6526(98)00032-8.

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Chen, Gang, Hong Chao Zhang, and Chang Yong Chu. "Decision Analysis in Sustainable Product Development." Advanced Materials Research 468-471 (February 2012): 370–73. http://dx.doi.org/10.4028/www.scientific.net/amr.468-471.370.

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As one of the main contributors to global environmental degradation, mechatronic industry must take the responsibility of improving the environmental performance of its products. Compared with further development of green technology, setting environmental protection willingly and seriously as one of the engineering optimization objectives are also important. This paper analyzes the decision making processes from the viewpoint of product life cycle and serves the purpose of reaching a balance between economic profit and environmental performance for each life cycle participator.
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Wang, Cheng Jun, and Mei Rong Wang. "Sustainable Development of Agricultural Product Logistics." Applied Mechanics and Materials 522-524 (February 2014): 1817–21. http://dx.doi.org/10.4028/www.scientific.net/amm.522-524.1817.

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As a large agricultural country, agricultural economic development determines the development of the national economy, and the logistics of agricultural products but restricts agricultural economic development, China's economic development is incompatible with the rural economy, largely agricultural logistics relationship enough disorders due. In this paper, according to the anti-agricultural own characteristics, the condition of the rural economy, the situation of logistics development, management system and development like logistics, be unbalanced urban and rural development and other factors put forward five agricultural logistics development model of sustainable development, and the corresponding development mechanism.
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Cooper, Tim. "Product Development Implications of Sustainable Consumption." Design Journal 3, no. 2 (July 2000): 46–57. http://dx.doi.org/10.2752/146069200789390150.

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Marques, P. Carmona, M. Januário Charmier, and J. Oliveira Santos. "A Survey on Sustainable Product Development." Procedia Manufacturing 39 (2019): 1307–16. http://dx.doi.org/10.1016/j.promfg.2020.01.328.

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Dissertations / Theses on the topic "Template for Sustainable Product Development"

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Gould, Rachael, Sara Regio Candeias, and Anton Valkov. "How to Apply the Templates for Sustainable Product Development : Support for Sustainability Practitioners." Thesis, Blekinge Tekniska Högskola, Sektionen för ingenjörsvetenskap, 2012. http://urn.kb.se/resolve?urn=urn:nbn:se:bth-2462.

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The Templates for Sustainable Product Development (TSPD) is a tool for sustainability practitioners to assist product development teams with bringing sustainability considerations to the early phases of product development in a strategic, quick and resource-efficient way. This thesis project builds on the earlier TSPD work by investigating the ways in which sustainability practitioners could apply the TSPD in order to improve the outcomes. The factors influencing the quality of the outcomes of a TSPD application were investigated. Then, support was developed for use by sustainability practitioners to address these factors. This support was field tested and refined in four iterations. It was discovered that achieving high quality outcomes from a TSPD application is dependent on having both high quality strategic sustainable product development content and high quality facilitation of the people considering this content. The quality of both content and facilitation influences the participants’ level of engagement, which influences the quality of the outcomes of the TSPD application. The support was developed such that it assists sustainability practitioners in addressing both content and facilitation through a participatory approach. There is some evidence that use of the developed support contributed to both high level of participants’ engagement and high quality outcomes of the TSPD applications.

Blog at http://sustainableproductdevelopment.blogspot.se/

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Olivier, Hervé-Bazin, Iacovino Carlo, and Ren Hanzi. "Applying the Framework for Strategic Sustainable Development to Water management." Thesis, Blekinge Tekniska Högskola, Avdelningen för maskinteknik, 2009. http://urn.kb.se/resolve?urn=urn:nbn:se:bth-3817.

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A strategic management of water is integral for any society aiming at moving towards sustainability. This thesis aims to provide a common understanding of how water management should be considered within sustainability constraints, using ‘backcasting’ from basic sustainability principles as a compass. With a common language, a constructive dialogue is then possible to unify all stakeholders to move together towards sustainability. To answer the research question “How can an interaction with water stakeholders be strategically developed to progress toward the service of water in a sustainable society”, a methodology based on Sustainability Life Cycle Assessment, the Template for Sustainable Product Development and Multi-Stakeholder Platforms has been utilised within one domestic and one industrial water user case study in Blekinge, Southern Sweden. In this locality, water is regarded as abundant in volume. Yet it was revealed that what is consumed by society is not water as such; but the purity of water. Within this context, opportunities to move towards sustainability have arisen and the case study organizations were able to utilise improvements in reporting and operations. Economic activity such as new infrastructure, pollutant trading schemes and product accreditation are amongst the many concepts identified as potential steps towards the service of water in a sustainable society.
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Davis, Kim, Changkun Shen, and Aymeric Maratea. "Contributing to a Transition towards a Sustainable Society : Education Matters." Thesis, Blekinge Tekniska Högskola, Sektionen för ingenjörsvetenskap, 2013. http://urn.kb.se/resolve?urn=urn:nbn:se:bth-3062.

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This research aims to shed insights and produce supportive tools to help stimulate the design of education programs. First a characterization of opportunities and challenges for education programs is given from a global sustainability standpoint. Second a characterization of what education programs may contain and take into account from a full sustainability standpoint, as an outline of education programs in a desired future at a principle level, is provided to help inspire purpose-led education services organizations. Third an outline of possible tools and strategies to help strategically close the gap between the current unsustainable state and the desired sustainable future is provided. A special focus is put on the Template for Sustainable Product Development (TSPD) process tool, originally used to help industries in their production chain, but here adapted as the “Sustainability Potential” Express Strategic Assessment for Education Programs to benefit education programs stakeholders. The authors also propose a set of three abilities acting in synergy: Creativity, “Knowledge Making” & “Open Values” (CKMOV) that are at the heart of Strategic Sustainable Development and thus may help form three equally vital pillars, which education programs may strategically take support from while helping society transition to a sustainable equilibrium.

+86 13637758331

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Saha, Polin, Salman Ahmad, Ashfaq Abbasi, and Masood Khan. "Environmental Management Systems and Sustainability : Integrating Sustainability in Environmental Management Systems." Thesis, Blekinge Tekniska Högskola, Sektionen för ingenjörsvetenskap, 2009. http://urn.kb.se/resolve?urn=urn:nbn:se:bth-3228.

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To check rapidly deteriorating environmental conditions, many management tools are being used by different industries. In order to address environmental issues the corporate sector has seen a drastic increase in the use of environmental management systems. There is strong need to check how these environmental management systems are rendering environmental management services. Research shows that environmental management systems are mistakenly expected to prescribe technical and environmental objectives. Without describing what goals an organization must achieve, they lay out a system for management of numerous environmental obligations. Hence environmental management systems are not strategic; they tend to reactively fix issues contingent upon their occurrence and may miss opportunities to avoid problems before they occur. Further, environmental management itself is seen in isolation of a socio-ecological context, which makes environmental management lose ground and operate in a virtual vacuum. Mostly environmental management is identified as an ’agenda’ which runs counter to the overall development of an organization. Provided, environmental management systems can be integrated with basic principles of sustainable development these management systems can be utilized as a launching pad to move organizations towards sustainability. Built to render the administrative services only through a mechanism of self regulation and continuous improvement, these management systems can be used to deliver sustainable product planning. The present study illustrates the possibilities for integration of sustainability objectives into environmental management systems. In our effort to integrate sustainability in environment management systems extensive literature reviews, interviews and a case study (Hammarplast AB) have been used. For the analysis of the current reality, a framework for strategic sustainable development and methods incorporating “backcasting from principles of sustainability” – i.e. templates for sustainable product development and strategic life cycle management – has been used. The use of tools not only illustrates contemporary sustainability gaps but also gives a concrete set of guidance to integrate sustainability in environmental management systems.
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Hallstedt, Sophie. "A Foundation for Sustainable Product Development." Doctoral thesis, Karlskrona : Department of Mechanical Engineering, Blekinge Institute of Technology, 2008. http://www.bth.se/fou/Forskinfo.nsf/allfirst2/767bf02d08e2de4cc1257442003d4593?OpenDocument.

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Holzbaur, U. D. "Sustainable development and product development - friend or foe?" Journal for New Generation Sciences, Vol 8, Issue 3: Central University of Technology, Free State, Bloemfontein, 2010. http://hdl.handle.net/11462/569.

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Published Article
Sustainable development is the key issue for enabling the survival of human culture. Product development is sometimes seen as conflicting with the aims of sustainable development. This comes from a twofold impact: the production of new goods exploits scarce resources, and their use creates additional resource consumption and potential disparity. However, innovation and product development are important means to fulfil the needs of present and future generations and to achieve sustainable development. In this context, we must also consider the development of service products - classical services and product - related ones creating surplus value from physical products. The contribution of product development to sustainability will depend on the way sustainability issues are integrated into the development process. An important focus is on the early phases of product development and especially on the process of requirements analysis since this integrates all sustainability role players as potential stakeholders.
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Lu, Mei Mechanical &amp Manufacturing Engineering Faculty of Engineering UNSW. "Multidimensional requirements analysis for sustainable product development." Publisher:University of New South Wales. Mechanical & Manufacturing Engineering, 2008. http://handle.unsw.edu.au/1959.4/41496.

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Product development is an essential component of a successful manufacturing business. As an interdisciplinary activity with several different actors, one of its aspects involves Product Environmental Performance considerations, and this is becoming an area where companies see opportunities for competition. In light of increasing pressures to adopt more sustainable approaches to product design and manufacture, the requirement to develop sustainable products is one of the key challenges facing manufacturing industry in the 21st century. Besides the Product Environmental Performance, there are three key requirements to be considered, which include Product Life Cycle Cost, Product Quality, and Product Lead Time. Product Life Cycle Cost and Product Quality are very traditional facets in decision-making in a design process. A product with low cost and high performance is always the objective in industry. For the last two decades, shortening the Product Lead Time to increase profits is another key requirement that has been adopted. Trade-offs among these four key requirements are necessary when choices have to be made between different alternatives. In this research, an integrated methodology is proposed to balance the environmental performance of a product against traditional design objectives, in the decision making process during the early design stage. Finally, a concept of product performance indicator was introduced to compare product design activities. In order to achieve this, a weighting system has been developed to assess the total performance of competing design alternatives. Later, this weighting system is integrated into a fuzzy model in order to compensate for the fuzziness in the available data. Additionally, the method is used to rank five important product development features, which are Technology Level of the Product, Speed of Technical Development, Product Life Cycle, Price Competitiveness, and Environmental Awareness, assisted by the weighting system. Finally, a total product performance concept is proposed in order to allow the user to carry out trade-off analysis between different design alternatives. Two case studies, which are a car sunroof and a mobile phone, were used to test the validity of the produce performance methodology proposed in this research.
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Durgin, Ron, and Scott Grierson. "Touchpoint : A Foundation for Sustainable Product Development." Thesis, Blekinge Tekniska Högskola, Avdelningen för maskinteknik, 2005. http://urn.kb.se/resolve?urn=urn:nbn:se:bth-5406.

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Much has been written on the subject of sustainable development and the urgent need for society to understand and address human impacts on socio-ecological systems. Emerging from this broad context, the concept of sustainable product development (SPD) represents an important strategy to steer human society towards sustainability. This thesis investigates strategies for integrating sustainability concepts, through organisational learning and stakeholder management, into a new product development tool entitled ‘Touchpoint’. Built on prior research, specifically Methods for Sustainable Product Development(MSPD) and Templates for Sustainable Product Development (TSPD), this could help to eliminate product development approaches that lead to reductionism and ensure that SPD is adopted rapidly and widely.
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Rota, Luca, Yanjun Zhou, and Svenja Paege. "Sustainable Product-Service System Design from a strategic sustainable development perspective." Thesis, Blekinge Tekniska Högskola, Institutionen för strategisk hållbar utveckling, 2019. http://urn.kb.se/resolve?urn=urn:nbn:se:bth-18515.

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Although they lead to several potential sustainability benefits, product-service systems are not intrinsically sustainable. Therefore, this thesis investigates the factors designers should consider in order to ensure sustainable results. A systematic literature review on product-service system and sustainability is combined with three interviews with product-service system providers. The results are analysed through the application of the Framework for Strategic Sustainable Development. The results of the systematic literature review show that there is no unified definition of sustainable product-service system and multiple approaches to address sustainability in product-service system design. By adopting the Framework for Strategic Sustainable Development, a definition of sustainable product-service system and a list of design criteria are developed. This thesis suggests which overarching aspects product-service system designers should consider to integrate a strategic sustainability perspective. The outcome of this thesis supports designers in understanding what a sustainable product-service system could be and what elements it should embed. By combining the definition and the list of criteria, designers can apply a systematic and strategic approach to integrate sustainability in product-service system offerings.
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Davis, Kara, Pinar Öncel, and Qingqing Yang. "An Innovation Approach for Sustainable Product and Product-Service System Development." Thesis, Blekinge Tekniska Högskola, Sektionen för ingenjörsvetenskap, 2010. http://urn.kb.se/resolve?urn=urn:nbn:se:bth-2023.

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This thesis investigates the potential of User-Centered Design (UCD) and Agile to support Strategic Sustainable Development (SSD) practice in product and product-service system (PSS) design. UCD tools and concepts are used to support stakeholder and needs research. Agile provides process support for collaboration and resilience. SSD tools and concepts are used to define and work within the system boundaries for sustainability. All three practices are combined in an innovation approach that supports collaborative and cross-functional design teams as they develop products and PSS. Design teams using this approach will work to satisfy the needs of customers while considering the needs of all non-customer stakeholders and the ecosphere. The full-systems context emphasized in the approach will support innovation and encourage design teams to consider services as complements to, or substitutes for, physical products.
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Books on the topic "Template for Sustainable Product Development"

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Su, Daizhong, ed. Sustainable Product Development. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-39149-2.

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Schroeder, Wen. Sustainable cosmetic product development. Carol Stream, IL: Alluredbooks, 2012.

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Desai, Anoop, and Anil Mital. Sustainable Product Design and Development. First edition. | Boca Raton: CRC Press, 2021.: CRC Press, 2020. http://dx.doi.org/10.1201/9780429327803.

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Desai, Anoop, and Anil Mital. Sustainable Product Design and Development. First edition. | Boca Raton: CRC Press, 2021.: CRC Press, 2020. http://dx.doi.org/10.4324/9780429327803.

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Chakrabarti, Amaresh. CIRP Design 2012: Sustainable Product Development. London: Springer London, 2013.

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Wimmer, Wolfgang. Ecodesign Pilot: Product Investigation, Learning and Optimization Tool for Sustainable Product Development, with CD-ROM. Dordrecht: Springer Netherlands, 2003.

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1959-, Züst Rainer, ed. ECODESIGN Pilot: Product-investigation-, learning- and optimization-tool for sustainable product development, with CD-ROM. Dordrecht: Kluwer Academic Publishers, 2001.

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Cobb, Clifford W. The green national product: A proposed index of sustainable economic welfare. Lanham: University Press of America, 1994.

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Vezzoli, Carlo. Designing Sustainable Energy for All: Sustainable Product-Service System Design Applied to Distributed Renewable Energy. Cham: Springer Nature, 2018.

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Stjepandić, Josip, Georg Rock, and Cees Bil, eds. Concurrent Engineering Approaches for Sustainable Product Development in a Multi-Disciplinary Environment. London: Springer London, 2013. http://dx.doi.org/10.1007/978-1-4471-4426-7.

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Book chapters on the topic "Template for Sustainable Product Development"

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Wiesner, Martin. "Sustainable Product Development." In Integrated Design Engineering, 341–81. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-19357-7_12.

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Su, Daizhong. "Introduction and Sustainable Product Development." In Sustainable Product Development, 1–12. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-39149-2_1.

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Su, Daizhong, and Zhongming Ren. "Gearbox Life Cycle Assessment." In Sustainable Product Development, 193–219. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-39149-2_10.

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Irhoma, Ammar, Daizhong Su, and Martin Higginson. "An Analysis and Evaluation of the Environmental Impacts of ‘Upstream’ Petroleum Operations." In Sustainable Product Development, 221–47. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-39149-2_11.

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Su, Daizhong, Jonathan Smith, You Wu, and Zhongming Ren. "Environmental Impact Assessment of Farming with Combined Methods of Life Cycle Assessment and Farm Carbon Calculator." In Sustainable Product Development, 249–70. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-39149-2_12.

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Casamayor, Jose L., and Daizhong Su. "Assessment of the Environmental Impact of Lighting Product." In Sustainable Product Development, 271–91. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-39149-2_13.

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Wang, Shuyi, Daizhong Su, Shifan Zhu, and Qianren Zhang. "Comparative Life Cycle Assessment of Raised Flooring Products." In Sustainable Product Development, 293–310. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-39149-2_14.

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Casamayor, Jose L., and Daizhong Su. "Integrated Approach for Eco-Lighting Product Development." In Sustainable Product Development, 313–49. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-39149-2_15.

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Su, Daizhong, You Wu, Wenjie Peng, Shuyi Wang, Shifan Zhu, and Qianren Zhang. "Integrated Approach for Sustainable Flooring Product Development." In Sustainable Product Development, 351–69. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-39149-2_16.

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Casamayor, Jose L., and Daizhong Su. "Review of Directives, Regulations and Standards Related to Sustainable Product Design and Manufacture." In Sustainable Product Development, 15–37. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-39149-2_2.

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Conference papers on the topic "Template for Sustainable Product Development"

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Diaz-Elsayed, Nancy, K. C. Morris, and Julius Schoop. "Towards a Digital Depot to Support Sustainable Manufacturing During Crisis Response." In ASME 2021 16th International Manufacturing Science and Engineering Conference. American Society of Mechanical Engineers, 2021. http://dx.doi.org/10.1115/msec2021-62227.

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Abstract The COVID-19 pandemic has imposed new challenges to maintaining sustainability in our manufacturing operations. With such high variability in demand for urgently needed products (e.g., personal protective equipment, testing technologies) and shifts in the needed capabilities of already complex production systems, sustainability challenges concerning waste management, life cycle impact characterization, and production operations have come to light. An extensive amount of data can be extracted from manufacturing systems, but it is not yet being used to improve the performance of production systems and maintain sustainability strategies during times of distress. This article proposes the concept of a Digital Depot. Being virtual in nature, the depot can contain plans and data for many different types of crises and contain a wider array of products than would be available in a physical, national stockpile. The information could be made available on demand to a national base of manufacturers to help them swiftly pivot to the production of critically needed goods while building on their existing manufacturing capabilities. The contents of the Digital Depot would be applicable to several stages pertinent to manufacturing operations including product definition, production planning information, asset and factory-level data, as well as data concerning the supply chain, distribution, and end-of-life stages. Future work is recommended in the development of templates for robust and secure data sharing, as well as multi-disciplinary identification of businesses cases for data-driven collaborative and sustainable manufacturing practices enabled by the Digital Depot.
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Ottosson, Stig. "DEVELOPMENT OF SUSTAINABLE PRODUCT INNOVATIONS." In 28th International Academic Conference, Tel Aviv. International Institute of Social and Economic Sciences, 2017. http://dx.doi.org/10.20472/iac.2017.028.015.

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Agogino, Alice M., Sara L. Beckman, Vicente Borja, Marcelo Lo´pez, Nathan Shedroff, and Alejandro C. Rami´rez. "Teaching Multinational, Multidisciplinary Sustainable Product Development." In ASME 2008 International Design Engineering Technical Conferences and Computers and Information in Engineering Conference. ASMEDC, 2008. http://dx.doi.org/10.1115/detc2008-49388.

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This paper describes a multinational program aimed at teaching processes and methods for sustainable product development using multidisciplinary project-based teams. The foundation course teaches processes for designing sustainable products and services, metrics and evaluation methods through a combination of lectures, project work, and examination of actual business cases. It is to be followed by courses on green manufacturing and pre-commercialization planning. The program features bi-national collaboration between the U.S. and Mexico, motivated by our shared vision for the development of sustainable solutions in a global context. The exploratory foundation course of the program, Design for Sustainability, was taught in Fall 2007 at the University of California at Berkeley with students and faculty members from 14 disciplines and three institutions: University of California at Berkeley (UCB), the California College of the Arts (CCA) in San Francisco, and the National University of Mexico (UNAM) in Mexico City. This paper describes the course content, project experiences, faculty evaluation and student lessons learned from the foundation course as well as a proposed three-phase strategy for future program development.
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Schulte, Jesko, and Sophie I. Hallstedt. "WORKSHOP METHOD FOR EARLY SUSTAINABLE PRODUCT DEVELOPMENT." In 15th International Design Conference. Faculty of Mechanical Engineering and Naval Architecture, University of Zagreb, Croatia; The Design Society, Glasgow, UK, 2018. http://dx.doi.org/10.21278/idc.2018.0209.

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SANTOS, M. TELES DOS, and V. GERBAUD. "DEVELOPMENT OF A COMPUTER-AIDED PRODUCT DESIGN TOOL FOR SUSTAINABLE CHEMICAL PRODUCT DEVELOPMENT." In XX Congresso Brasileiro de Engenharia Química. São Paulo: Editora Edgard Blücher, 2015. http://dx.doi.org/10.5151/chemeng-cobeq2014-1867-17111-188642.

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Goto, Norihiko, Tsuyoshi Koga, Shin Okamura, and Kazuhiro Aoyama. "Development of a Template Design Support System." In ASME 2007 International Design Engineering Technical Conferences and Computers and Information in Engineering Conference. ASMEDC, 2007. http://dx.doi.org/10.1115/detc2007-35310.

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A major problem in product design is that the design process is not clear to designers. Therefore, every time designers develop a new product, they face difficulties in determining the order in which the product attributes should be determined, especially in the case of large, complicated products. This problem mainly occurs due to two reasons. First, the knowledge about past product designs is not well arranged and thus there is no way to utilize it. Therefore, this research focuses on developing a design support system that proposes a design process in which the designer can easily reflect the important attributes of a product while facing less difficulties in completing the design; this is done using a topdown design support system. In a top-down design system, the designer expresses the product knowledge using elements such as entity, attribute, constraint, interface, etc. Further, five types of knowledge are expressed in this system. They are: knowledge about product structure, knowledge about product entity, knowledge about product function, knowledge about product constraint, and knowledge about product design process. Since this research focuses on the design process, extracting knowledge about the product design process is very important. To extract this knowledge, we first compare the template of past products and the product currently being designed. Next, we calculate the consistency of the two models. Then, based on the results of the consistency calculation, we select and extract the available knowledge. We create a new process by using this extracted knowledge from the design template. It is possible to produce more than one process by combining the knowledge from more than one template. Finally, we evaluate the process from three perspectives: whether it is easy to reflect the customer requirements, whether the design conflict difficulty is small, and whether the design loop difficulty is small. Based on the evaluation result, the designers can select a process to design a new product. In this research, the ocean thermal energy conversion (OTEC) system is used as an example. Further, a process that can easily design the important attributes with a smaller possibility of breakdown than the existing process is chosen based on the results of applying a model proposed by this research. A well-organized design process has been achieved in the OTEC example. Future works must focus on improving the evaluation of the design process and the method for expressing the design knowledge as a template.
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Reiff-Stephan, Jörg. "Solar power in product development." In 1st German-West African Conference on Sustainable, Renewable Energy Systems SusRes. Technische Hochschule Wildau, 2020. http://dx.doi.org/10.15771/978-3-9819225-5-4_sii-1b.

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Woy, U., and Q. Wang. "New product development: implementing procedures for sustainable product development in SMEs utilising available technologies." In IET International Conference on Agile Manufacturing (ICAM 2007). IEE, 2007. http://dx.doi.org/10.1049/cp:20070004.

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Ko, Eunju, Jinghe Han, Eunha Chun, and Minyoung Lee. "SUSTAINABLE FASHION PRODUCT DEVELOPMENT USING THE PLM APPROACH." In Bridging Asia and the World: Global Platform for Interface between Marketing and Management. Global Alliance of Marketing & Management Associations, 2016. http://dx.doi.org/10.15444/gmc2016.11.06.05.

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Chen, Ling, San-qiang Li, and Zi-juan Mo. "Sustainable design principles and methods for product development." In EM 2011). IEEE, 2011. http://dx.doi.org/10.1109/icieem.2011.6035546.

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Reports on the topic "Template for Sustainable Product Development"

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johansson, Bjorn, Kevin Lyons, Ram D. Sriram, and Gaurav Ameta. Modeling, simulation and analysis for sustainable product development. Gaithersburg, MD: National Institute of Standards and Technology, 2010. http://dx.doi.org/10.6028/nist.ir.7745.

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Rusch, Magdalena, Josef Peter Schöggl, Lukas Stumpf, and Rupert J. Baumgartner. Interplay of Digital Technologies and Sustainable Product Development –What Can Product Life Cycle Data Tell Us? University of Limerick, 2021. http://dx.doi.org/10.31880/10344/10239.

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Lee, Yoon Kyung, and Marilyn DeLong. Re-Birth Product Development for Sustainable Apparel Design Practice in a Design Studio Class. Ames: Iowa State University, Digital Repository, November 2016. http://dx.doi.org/10.31274/itaa_proceedings-180814-1332.

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Gender mainstreaming in local potato seed system in Georgia. International Potato Center, 2020. http://dx.doi.org/10.4160/9789290605645.

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This report presents the study findings associated with the project “Enhancing Rural Livelihoods in Georgia: Introducing Integrated Seed Health Approaches to Local Potato Seed Systems” in Georgia. It also incorporates information from the results of gender training conducted within the framework of the USAID Potato Program in Georgia. The study had three major aims: 1) to understand the gender-related opportunities and constraints impacting the participation of men and women in potato seed systems in Georgia; 2) to test the multistakeholder framework for intervening in root, tuber, and banana (RTB) seed systems as a means to understand the systems themselves and the possibilities of improving gender-related interventions in the potato seed system; and 3) to develop farmers’ leadership skills to facilitate women’s active involvement in project activities. Results of the project assessment identified certain constraints on gender mainstreaming in the potato seed system: a low level of female participation in decision-making processes, women’s limited access to finances that would enable their greater involvement in larger scale potato farming, and a low awareness of potato seed systems and of possible female involvement in associated activities. Significantly, the perception of gender roles and stereotypes differs from region to region in Georgia; this difference is quite pronounced in the target municipalities of Kazbegi, Marneuli, and Akhalkalaki, with the last two having populations of ethnic minorities (Azeri and Armenian, respectively). For example, in Marneuli, although women are actively involved in potato production, they are not considered farmers but mainly as assistants to farmers, who are men. This type of diversity (or lack thereof) results in a different understanding of gender mainstreaming in the potato seed system as well. Based on the training results obtained in three target regions—Akhalkalaki, Akhaltsikhe, and Marneuli—it is evident that women are keen on learning new technologies and on acquiring updated agricultural information, including on potato production. It is also clear that women spend as much time as men do on farming activities such as potato production, particularly in weeding and harvesting. However, women are heavily burdened with domestic work, and they are not major decision-makers with regard to potato variety selection, agricultural investments, and product sales, nor with the inclusion of participants in any training provided. Involving women in project activities will lead to greater efficiency in the potato production environment, as women’s increased knowledge will certainly contribute to an improved production process, and their new ideas will help to improve existing production systems, through which women could also gain confidence and power. As a general recommendation, it is extremely important to develop equitable seed systems that take into consideration, among other factors, social context and the cultural aspects of local communities. Thus, understanding male and female farmers’ knowledge may promote the development of seed systems that are sustainable and responsive to farmers’ needs and capacities.
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African Open Science Platform Part 1: Landscape Study. Academy of Science of South Africa (ASSAf), 2019. http://dx.doi.org/10.17159/assaf.2019/0047.

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This report maps the African landscape of Open Science – with a focus on Open Data as a sub-set of Open Science. Data to inform the landscape study were collected through a variety of methods, including surveys, desk research, engagement with a community of practice, networking with stakeholders, participation in conferences, case study presentations, and workshops hosted. Although the majority of African countries (35 of 54) demonstrates commitment to science through its investment in research and development (R&D), academies of science, ministries of science and technology, policies, recognition of research, and participation in the Science Granting Councils Initiative (SGCI), the following countries demonstrate the highest commitment and political willingness to invest in science: Botswana, Ethiopia, Kenya, Senegal, South Africa, Tanzania, and Uganda. In addition to existing policies in Science, Technology and Innovation (STI), the following countries have made progress towards Open Data policies: Botswana, Kenya, Madagascar, Mauritius, South Africa and Uganda. Only two African countries (Kenya and South Africa) at this stage contribute 0.8% of its GDP (Gross Domestic Product) to R&D (Research and Development), which is the closest to the AU’s (African Union’s) suggested 1%. Countries such as Lesotho and Madagascar ranked as 0%, while the R&D expenditure for 24 African countries is unknown. In addition to this, science globally has become fully dependent on stable ICT (Information and Communication Technologies) infrastructure, which includes connectivity/bandwidth, high performance computing facilities and data services. This is especially applicable since countries globally are finding themselves in the midst of the 4th Industrial Revolution (4IR), which is not only “about” data, but which “is” data. According to an article1 by Alan Marcus (2015) (Senior Director, Head of Information Technology and Telecommunications Industries, World Economic Forum), “At its core, data represents a post-industrial opportunity. Its uses have unprecedented complexity, velocity and global reach. As digital communications become ubiquitous, data will rule in a world where nearly everyone and everything is connected in real time. That will require a highly reliable, secure and available infrastructure at its core, and innovation at the edge.” Every industry is affected as part of this revolution – also science. An important component of the digital transformation is “trust” – people must be able to trust that governments and all other industries (including the science sector), adequately handle and protect their data. This requires accountability on a global level, and digital industries must embrace the change and go for a higher standard of protection. “This will reassure consumers and citizens, benefitting the whole digital economy”, says Marcus. A stable and secure information and communication technologies (ICT) infrastructure – currently provided by the National Research and Education Networks (NRENs) – is key to advance collaboration in science. The AfricaConnect2 project (AfricaConnect (2012–2014) and AfricaConnect2 (2016–2018)) through establishing connectivity between National Research and Education Networks (NRENs), is planning to roll out AfricaConnect3 by the end of 2019. The concern however is that selected African governments (with the exception of a few countries such as South Africa, Mozambique, Ethiopia and others) have low awareness of the impact the Internet has today on all societal levels, how much ICT (and the 4th Industrial Revolution) have affected research, and the added value an NREN can bring to higher education and research in addressing the respective needs, which is far more complex than simply providing connectivity. Apart from more commitment and investment in R&D, African governments – to become and remain part of the 4th Industrial Revolution – have no option other than to acknowledge and commit to the role NRENs play in advancing science towards addressing the SDG (Sustainable Development Goals). For successful collaboration and direction, it is fundamental that policies within one country are aligned with one another. Alignment on continental level is crucial for the future Pan-African African Open Science Platform to be successful. Both the HIPSSA ((Harmonization of ICT Policies in Sub-Saharan Africa)3 project and WATRA (the West Africa Telecommunications Regulators Assembly)4, have made progress towards the regulation of the telecom sector, and in particular of bottlenecks which curb the development of competition among ISPs. A study under HIPSSA identified potential bottlenecks in access at an affordable price to the international capacity of submarine cables and suggested means and tools used by regulators to remedy them. Work on the recommended measures and making them operational continues in collaboration with WATRA. In addition to sufficient bandwidth and connectivity, high-performance computing facilities and services in support of data sharing are also required. The South African National Integrated Cyberinfrastructure System5 (NICIS) has made great progress in planning and setting up a cyberinfrastructure ecosystem in support of collaborative science and data sharing. The regional Southern African Development Community6 (SADC) Cyber-infrastructure Framework provides a valuable roadmap towards high-speed Internet, developing human capacity and skills in ICT technologies, high- performance computing and more. The following countries have been identified as having high-performance computing facilities, some as a result of the Square Kilometre Array7 (SKA) partnership: Botswana, Ghana, Kenya, Madagascar, Mozambique, Mauritius, Namibia, South Africa, Tunisia, and Zambia. More and more NRENs – especially the Level 6 NRENs 8 (Algeria, Egypt, Kenya, South Africa, and recently Zambia) – are exploring offering additional services; also in support of data sharing and transfer. The following NRENs already allow for running data-intensive applications and sharing of high-end computing assets, bio-modelling and computation on high-performance/ supercomputers: KENET (Kenya), TENET (South Africa), RENU (Uganda), ZAMREN (Zambia), EUN (Egypt) and ARN (Algeria). Fifteen higher education training institutions from eight African countries (Botswana, Benin, Kenya, Nigeria, Rwanda, South Africa, Sudan, and Tanzania) have been identified as offering formal courses on data science. In addition to formal degrees, a number of international short courses have been developed and free international online courses are also available as an option to build capacity and integrate as part of curricula. The small number of higher education or research intensive institutions offering data science is however insufficient, and there is a desperate need for more training in data science. The CODATA-RDA Schools of Research Data Science aim at addressing the continental need for foundational data skills across all disciplines, along with training conducted by The Carpentries 9 programme (specifically Data Carpentry 10 ). Thus far, CODATA-RDA schools in collaboration with AOSP, integrating content from Data Carpentry, were presented in Rwanda (in 2018), and during17-29 June 2019, in Ethiopia. Awareness regarding Open Science (including Open Data) is evident through the 12 Open Science-related Open Access/Open Data/Open Science declarations and agreements endorsed or signed by African governments; 200 Open Access journals from Africa registered on the Directory of Open Access Journals (DOAJ); 174 Open Access institutional research repositories registered on openDOAR (Directory of Open Access Repositories); 33 Open Access/Open Science policies registered on ROARMAP (Registry of Open Access Repository Mandates and Policies); 24 data repositories registered with the Registry of Data Repositories (re3data.org) (although the pilot project identified 66 research data repositories); and one data repository assigned the CoreTrustSeal. Although this is a start, far more needs to be done to align African data curation and research practices with global standards. Funding to conduct research remains a challenge. African researchers mostly fund their own research, and there are little incentives for them to make their research and accompanying data sets openly accessible. Funding and peer recognition, along with an enabling research environment conducive for research, are regarded as major incentives. The landscape report concludes with a number of concerns towards sharing research data openly, as well as challenges in terms of Open Data policy, ICT infrastructure supportive of data sharing, capacity building, lack of skills, and the need for incentives. Although great progress has been made in terms of Open Science and Open Data practices, more awareness needs to be created and further advocacy efforts are required for buy-in from African governments. A federated African Open Science Platform (AOSP) will not only encourage more collaboration among researchers in addressing the SDGs, but it will also benefit the many stakeholders identified as part of the pilot phase. The time is now, for governments in Africa, to acknowledge the important role of science in general, but specifically Open Science and Open Data, through developing and aligning the relevant policies, investing in an ICT infrastructure conducive for data sharing through committing funding to making NRENs financially sustainable, incentivising open research practices by scientists, and creating opportunities for more scientists and stakeholders across all disciplines to be trained in data management.
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