A systematic literature review of university-industry partnerships in engineering education

Over the last few decades, a wide range of works have featured studies documenting successful pedagogic collaborations in the form of university-industry partnerships in engineering education. In light of this, we conducted a systematic literature review of these studies centred around five key research questions: (a) purposes of universityindustry collaborations, (b) theories used to guide such work, (c) types of methods employed, (d) evidence-based best practices identified and (e) areas of future work to be explored. Publications were selected for inclusion by screening and appraising results obtained from databases and keywords refined through a scoping study. We conclude from our findings that future studies would benefit from better alignment with literature or theoretical frameworks and specific robust methods. Additionally, early and middle years of undergraduate engineering programs offer underutilised opportunities for partnership, in line with designing a more futures-focused educational curriculum

CIRAS News (Vol. 47, No. 1)

Contents: Rich tradition of innovation continues at Hagie Manufacturing; Q&A with Cathann Kress, Iowa State University Vice President for Extension and Outreach; Veteran-owned business proves to be ahead of the curve; CIRAS and ABI partner to provide services, support, and solutions for Iowa businesses; Senior capstone design program a win-win opportunity for students and industry partnershttps://lib.dr.iastate.edu/ciras_news/1037/thumbnail.jp

Opiskelijoiden valmistaminen työelämään yliopiston sisäisen ohjelmisto-startupin avulla

Tertiary education aims to prepare computer science students for the working life. While much of the technical principles are covered in lower-level courses, team-based capstone projects are a common way to provide students hands-on experience and teach soft skills. Although such courses help students to gain some of the relevant skills, it is difficult to simulate in a course context what work in a professional software engineering team really is about. Our goal is to understand ways tertiary education institutions prepare students for the working life in software engineering. Firstly, we do this by focusing on the mechanisms that software engineering capstones use to simulate work-life. A literature review of 85 primary studies was conducted for this overview. Secondly, we present a more novel way of teaching industry-relevant skills in an university-lead internal software startup. A case study of such a startup, Software Development Academy (SDA), is presented, along with the experiences of both students and faculty involved in it. Finally, we look into how these approaches might differ. Results indicate that capstone courses differ greatly in ways they are organized. Most often students are divided in teams of 4–6 and get assigned with software projects that the teams then develop from an idea to a robust proof-of-concept. In contrast, students employed in the SDA develop production-level software in exchange for a salary for university clients. Students regarded SDA as a highly relevant and fairly irreplaceable educational experience. Working with production-quality software and having a wide range of responsibilities was perceived integral in giving a thorough skill set for the future. In conclusion, capstones and the internal startup both aim to prepare students for the work-life in software engineering. Capstones do it by simulating professional software engineering in a one-semester experience in a course environment. The internal startup adds a touch of realism to this by being actual work in a relatively safe university context

CIRAS News, Fall 2011, Vol. 47, no. 1

CIRAS is to enhance the performance of Iowa industry, and associated entities, through education and technology-based services. This newsletter holds information regarding these services

CIRAS News, Fall 2011, Vol.47, no.1

Center for Industrial Research and Service: CIRAS partners with Iowa manufacturing companies to enhance the performance of Iowa industries with education and technology

Improving Graduate Futures and Employability Through Embedded Industrial Experience

The financial cost to individuals of higher education is now regularly exceeding £50k before maintenance in the UK; consequently, students are more concerned than ever that their degree should offer value for money when they enter the jobs marketplace. Overshadowed by long-term debt, lack of career options and job offerings with low salary, student numbers in the arts, languages, humanities and philosophy areas have suffered compared to most STEM disciplines (Universities UK, 2018). Computer science, I.T. and computing tend to buck this trend (HESA, 2020), and, with a drive toward reskilling the workforce for a more technology-focussed future, this suits Government strategy. However, graduate employers want to hire individuals who are well rounded and have experience; businesses identify that more general workplace experience is key.The subsequent sections describe a level 7 (Master’s) capstone project module, Commercial Development Practice, dedicated to fulfilling these employer requirements by focussing on project processes rather than project products. The practicalities of running this module and considerations that have been key for the successful application of this technique over the 14 years the module has been running are discussed. The curriculum, pedagogic approaches and assessment methods are presented. The evaluation of this approach, which analyses the impact and student experience and perception of the module using data gathered since 2015, has found that participants gain valuable skills, experience and confidence which leads to more employable graduates

Nairobi National Park - Living on the EdgeLearning Partnership for an Urban Protected Area

NoIn January 2011, a team of four students from the Masters of Public Affairs at Sciences Po (Paris) conducted an intense campaignof fieldwork for their collective research project on the Nairobi National Park. This work contributes to the research program ofthe Urban Protected Areas Network (PIRVE) and was supported by IFRA-Nairobi and the Kenya Wildlife Service. This present articledescribes their work and summarizes its result