T. Boult, A. Chamillard, R. Lewis, N. Polok, G. Stock and D. Wortman
This article focuses on university education in innovation. We examine and present a novel system we have developed that is achieving our vision of instantiating a robust…
Abstract
This article focuses on university education in innovation. We examine and present a novel system we have developed that is achieving our vision of instantiating a robust education that teaches, develops, and grades innovation in the education system. This paper is discussing a paradigm shift, offering new degrees with a common core focused on innovation, with teams of students learning and practicing the key elements of the innovation process. First we examine the motivation and need for a radically new approach, not a new major or a course, that is based upon a new common core and family of degrees. We describe how we knew that to effectively reach our goals the program had to span across departments, college boundaries, and beyond the very core of the university. Second, we show how in doing so we created a family of degrees that moved us beyond the centuries-old B.S. and B.A. educational constraints with a new, innovative "Bachelor of Innovation™" (B.I.) family of degrees that includes a core built around multi-disciplinary multi-year innovation partnering with real companies. Lastly we summarize the unique aspects of the program and the rationale behind them, from the 3-year multi-disciplinary team experience to the trademarked name. We present our B.I. program as its own case study in innovation within higher education, reviewing the key challenges we faced so that other innovative institutions and departments may learn from our experience. We conclude with lessons learned and the future of the B.I. family of degrees.
Pengkun Liu, Zhewen Yang, Jing Huang and Ting-Kwei Wang
The purpose of this study is to scrutinize the influence of individual learning styles on the effectiveness of augmented reality (AR)-based learning in structural engineering…
Abstract
Purpose
The purpose of this study is to scrutinize the influence of individual learning styles on the effectiveness of augmented reality (AR)-based learning in structural engineering. There has been a lack of research examining the correlation between learning efficiency and learning style, particularly in the context of quantitatively assessing the efficacy of AR in structural engineering education.
Design/methodology/approach
Using Kolb’s experiential learning theory (ELT), a model that emphasizes learning through experience, students from the construction management department are assigned four learning styles (converging, assimilating, diverging and accommodating). Performance data were gathered, appraised, and compared through the three dimensions from the Knowledge, Attitude and Practices (KAP) survey model across four categories of Kolb’s learning styles in both text-graph (TG)-based and AR-based learning settings.
Findings
The findings indicate that AR-based materials positively impact structural engineering education by enhancing overall learning performance more than TG-based materials. It is also found that the learning style has a profound influence on learning effectiveness, with AR technology markedly improving the information retrieval processes, particularly for converging and assimilating learners, then diverging learners, with a less significant impact on accommodating learners.
Originality/value
These results corroborate prior research analyzing learners' outcomes with hypermedia and informational learning systems. It was found that learners with an “abstract” approach (convergers and assimilators) outperform those with a “concrete” approach (divergers and accommodators). This research emphasizes the importance of considering learning styles before integrating technologies into civil engineering education, thereby assisting software developers and educational institutions in creating more effective teaching materials tailored to specific learning styles.
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Catarina Barata, Vânia Simões and Francisca Soromenho
Obstetric violence is the mistreatment of women in the setting of obstetric care, which includes preconception, medically assisted reproduction, pregnancy, childbirth and…
Abstract
Obstetric violence is the mistreatment of women in the setting of obstetric care, which includes preconception, medically assisted reproduction, pregnancy, childbirth and postpartum. Obstetric violence follows and perpetuates the devaluation and subjugation of women in patriarchal societies, where socio-cultural conceptions contribute to a view of the female body as faulty and deviating from the male prototype. These shape the perception that female reproductive processes require technological corrections. The medicalisation of reproductive processes and the mechanisation of a normal life event, with the threat of death and other life-changing consequences, disempower women and objectify the body and its functions.
The entrance of women into the workforce and the specialised fields, feminising care professions, failed to shift this paradigm. Female health workers are trained in the procedures instituted by dominant patriarchal structures, expressing values encoded in the professional culture and the institutions where they work. As women conform to the models they are exposed to during their training, perpetuating corporate hierarchies and practices, they act as agents and perpetrators of obstetric violence. Thus, obstetric violence also constitutes a specific type of violence against women at the hands of other women.
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Dominiek Coates and Sharon Mickan
The embedded researcher is a healthcare-academic partnership model in which the researcher is engaged as a core member of the healthcare organisation. While this model has…
Abstract
Purpose
The embedded researcher is a healthcare-academic partnership model in which the researcher is engaged as a core member of the healthcare organisation. While this model has potential to support evidence translation, there is a paucity of evidence in relation to the specific challenges and strengths of the model. The aim of this study was to map the barriers and enablers of the model from the perspective of embedded researchers in Australian healthcare settings, and compare the responses of embedded researchers with a primary healthcare versus a primary academic affiliation.
Design/methodology/approach
104 embedded researchers from Australian healthcare organisations completed an online survey. Both purposive and snowball sampling strategies were used to identify current and former embedded researchers. This paper reports on responses to the open-ended questions in relation to barriers and enablers of the role, the available support, and recommendations for change. Thematic analysis was used to describe and interpret the breadth and depth of responses and common themes.
Findings
Key barriers to being an embedded researcher in a public hospital included a lack of research infrastructure and funding in the healthcare organisation, a culture that does not value research, a lack of leadership and support to undertake research, limited access to mentoring and career progression and issues associated with having a dual affiliation. Key enablers included supportive colleagues and executive leaders, personal commitment to research and research collaboration including formal health-academic partnerships.
Research limitations/implications
To support the embedded researcher model, broader system changes are required, including greater investment in research infrastructure and healthcare-academic partnerships with formal agreements. Significant changes are required, so that healthcare organisations appreciate the value of research and support both clinicians and researchers to engage in research that is important to their local population.
Originality/value
This is the first study to systematically investigate the enablers and challenges of the embedded researcher model.
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Kuo-Ting Hung, Neil Hunt, Gina Vega, Laurie Levesque, Hasan Arslan and Christian DeLaunay
Jeff Hotchkiss, President of the Assembly Test Division of Teradyne, Inc., the largest electronics testing company in the world, returned to the corporation where he had built his…
Abstract
Jeff Hotchkiss, President of the Assembly Test Division of Teradyne, Inc., the largest electronics testing company in the world, returned to the corporation where he had built his career after a three-year hiatus as CEO of a VOIP start-up. Teradyne's operation was struggling through the effects of a bad economy coupled with significant downturns in the electronics industry, and Hotchkiss encountered numerous problems specifically in the China operation, including customer dissatisfaction with service, price, and time required to implement changes. He assembled a strategic team to address these issues and to recommend and implement an accelerated turnaround in China. Students are challenged to design the turnaround plan.