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1. A Method for Creating Product Social Impact Models of Engineered Products

   https://doi.org/10.1115/1.4044161  

   Stevenson, Phillip D.; Mattson, Christopher A.; Dahlin, Eric C. (April 2020, Journal of Mechanical Design)

   Abstract All products impact the lives of their users, this is called social impact. Some social impacts are commonly recognized by the engineering community, such as impacts to a user’s health and safety, while other social impacts can be more difficult to recognize, such as impacts on families and gender roles. When engineers make design decisions, without considering social impacts, they can unknowingly cause negative social impacts. Even harming the user and/or society. Despite its challenges, measuring a program’s or policy’s social impact is a common practice in the field of social sciences. These measurements are made using social impact indicators, which are simply the things observed to verify that true progress is being made. While there are clear benefits to predicting the social impact of an engineered product, it is unclear how engineers should select indicators and build predictive social impact models that are functions of engineering parameters and decisions. This paper introduces a method for selecting social impact indicators and creating predictive social impact models that can help engineers predict and improve the social impact of their products. As a first step in the method, an engineer identifies the product’s users, objectives, and requirements. Then, the social impact categories that are related to the product are determined. From each of these categories, the engineer selects several social impact indicators. Finally, models are created for each indicator to predict how a product’s parameters will change these indicators. The impact categories and indicators can be translated into product requirements and performance measures that can be used in product development processes. This method is used to predict the social impact of the proposed, expanded U.S. Mexico border wall. 

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2. Analysis of Perceived Social Impacts of Existing Products Designed for the Developing World, With Implications for New Product Development

   https://doi.org/10.1115/1.4044323  

   Ottosson, Hans J.; Mattson, Christopher A.; Dahlin, Eric C. (May 2020, Journal of Mechanical Design)

   Abstract Engineered products often have more social impacts than are realized. A product review was conducted to bring this to light. In this paper, we show the extent to which different social impacts in 11 impact categories are co-present in 150 products and how this can help engineers and others during the product development process. Specifically, we show how social impact categories not previously considered can be identified. The product review resulted in 13,200 data points that were divided into two data sets, one with 8800 data points from which a social impact probability table was created. The remaining data points were then used to validate the table. All data points were then combined to create a final social impact probability table. This table provides insight for how various social impact categories correlate and can assist engineers in expanding their views to include additional social impact objectives and thus achieve a design with broader social impact or a design with minimized unwanted negative social impact. A simple method for predicting social impact is also created in order to assist engineers when developing products with social impacts in mind. 

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3. Trade-Off Characterization Between Social and Environmental Impacts Using Agent-Based Product Adoption Models and Life Cycle Assessment

   https://doi.org/10.1115/1.4056006  

   Liechty, Joseph C.; Mabey, Christopher S.; Mattson, Christopher A.; Salmon, John L.; Weaver, Jason M. (March 2023, Journal of Mechanical Design)

   Abstract Meeting the United Nations (UN) sustainable development goals efficiently requires designers and engineers to solve multi-objective optimization problems involving trade-offs between social, environmental, and economical impacts. This paper presents an approach for designers and engineers to quantify the social and environmental impacts of a product at a population level and then perform a trade-off analysis between those impacts. In this approach, designers and engineers define the attributes of the product as well as the materials and processes used in the product’s life cycle. Agent-based modeling (ABM) tools that have been developed to model the social impacts of products are combined with life cycle assessment (LCA) tools that have been developed to evaluate the pressures that different processes create on the environment. Designers and engineers then evaluate the trade-offs between impacts by finding non-dominated solutions that minimize environmental impacts while maximizing positive and/or minimizing negative social impacts. Product adoption models generated by ABM allow designers and engineers to approximate population level environmental impacts and avoid Simpson’s paradox, where a reversal in choices is preferred when looking at the population level impacts versus the individual product-level impacts. This analysis of impacts has the potential to help designers and engineers create more impactful products that aid in reaching the UN sustainable development goals. 

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4. A Blockchain Platform for Protecting Intellectual Property: Implications for Additive Manufacturing

   Esmaeilian, Behzad; Deka, Angshuman; Behdad, Sara (August 2019, the ASME 2019 International Design Engineering Technical Conferences & Computers and Information in Engineering Conference, IDETC/CIE, Aug 18-21, 2019, Anaheim, CA.)

   Prior studies have already predicted that enforcement of IP on the additive manufacturing industry will not be successful due to the widespread use of file-sharing technologies, similar to the entertainment and music industry. This paper discusses the capabilities of Blockchain technology for protecting IP in the design and manufacturing area. A conceptual framework for a digital platform is defined in this paper and further, a survey study of engineering design and manufacturing students has been conducted to identify the main motivation behind developing these platforms and the types of features that should be included in Blockchain-based IP platforms for asset protection, particularly for product design. In addition, respondents provided their opinions about the type of industry that might be affected more by the threat of counterfeiting products and the role of Blockchain-based IP systems on the growth and development of innovation. 

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5. Where Next?: Exploring Opportunity Areas and Tool Functions for Sustainable Product Design

   Nicole B. Damen, Ye Wang (January 2022, International Design Engineering Technical Conferences)

   Shifts in policy and consumers’ awareness have raised the importance of sustainability in product design, inspiring the development of tools that support more sustainable design. However, such tools are not adopted as quickly as expected. To understand what tools designers consider useful, we explored how much control designers perceive over existing design strategies, and how much impact they think these strategies have. We used a survey (n = 42) and follow-up interviews (n = 12) to ask hardware product design professionals what areas they see opportunities in, and what functions they look for in tools. The findings reveal that designers perceive impact and control differently in different opportunity areas, so to increase the likelihood of adoption, tools should incorporate features that reflect those differences. Designers report the least control over aspects related to manufacturing, and also rate these as having low impact on sustainability. In contrast, designers attribute high control and impact to aspects related to their design practice and their organizations’ business model, which are tightly linked. To address these issues, designers pointed towards tools that improve information transparency, support decision-making, predict results, share knowledge, and discover user needs. Regardless of how much control designers have, they care about tools and strategies that are highly impactful. 

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