Abstract-This paper presents an investigation of global scale diversity and inclusion efforts within engineering education. The content is an expansion of work that was shared at the 2015 World Engineering Education Forum's first special session on "Diversity & Inclusion in Global Engineering Education." Diversity and Inclusion (D&I) are contextualized topics that shift objectives from country to country. The role of D&I in engineering education and practice has gained prominence in recent years due to the fact that engineers are facing increased need for global collaboration and are expected to be able to work in highly diverse teams and within different cultures. D&I initiatives in the field of engineering generally include gender, ethnicity, and national origin, and may include persons who are economically underprivileged and persons with disabilities. While the prominence of D&I has increased, international learning outcomes and collaborations within these efforts are limited. Within a global community a common platform, presented here as a theoretical framework for decontextualized D&I, would allow for the sharing of best practices and maximize learning opportunities and impact. By examining models from around the world, we can begin to structure, consolidate, optimize, and disseminate the global benefits of D&I. In this work, various programs are reviewed as success cases because they have increased the numbers of underrepresented students who enroll in and graduate from STEM programs. The potential for solidarity amongst Diversity & Inclusion initiatives and programs in different regions of the world is explored. Efforts are made to determine what can be learned from synergies across D&I activities.
The Global Experiment, Water: A Chemical Solution, was one of the flagship activities of the International Year of Chemistry (IYC). During the virtual colloquium of the spring 2012 online ConfChem conference, the main results of this year-long experiment were presented and discussed online for a week. Some of the main conclusions of the virtual conversations relate to the benefits of creating online communities of people sharing similar interests, the use of online educational platforms to gather massive amounts of data, and specific questions about the development of this IYC initiative. The activities of the global water experiment (GWE) were designed by a team of experts and the protocols are available online on the GWE Web site. The results were shown in one interactive world map that allowed students to learn about data visualization, validation, and interpretation. The feedback obtained from the participants of the GWE and later by the contributors of the virtual colloquium was very positive. Many participants asked specific and technical questions about the development of this experiment, while others excitedly endorsed the convenience of these large open-access activities to promote chemistry worldwide. The estimate is that over 2 million people took part in the GWE during the IYC. This communication summarizes one of the invited papers to the ConfChem online conference: A Virtual Colloquium to Sustain and Celebrate IYC 2011 Initiatives in Global Chemical Education, held from May 18 to June 29, 2012 and hosted by the ACS DivCHED Committee on Computers in Chemical Education and the IUPAC Committee on Chemistry Education.
is currently a postdoctoral engineering education research associate with Singapore-MIT Alliance for Research and Technology (SMART) Innovation Centre. She completed her Doctoral degree from Teachers College, Columbia University where she studied engineering education. She is the Global Chair and founding director of the National Academy of Engineering Longhorn Grand Challenges Scholars & K12 Partners Program at The University of Texas at Austin. Dr. White is also the director of an outreach program called Design, Technology, & Engineering for All Children (DTEACh)which has reached more than 1000 teachers and 85,000 students. She is the lead inventor on a patent for assistive technology. Her current research includes global competencies, innovative design-based pedagogy, humanitarian engineering, and ways to attract and retain traditionally underrepresented groups in engineering education.
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