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1.
Team projects are commonplace in software engineering education. They address a key educational objective, provide students critical experience relevant to their future careers, allow instructors to set problems of greater scale and complexity than could be tackled individually, and are a vehicle for socially constructed learning. While all student teams experience challenges, those in fully online programmes must also deal with remote working, asynchronous coordination, and computer-mediated communications all of which contribute to greater social distance between team members. We have developed a facilitation framework to aid team collaboration and have demonstrated its efficacy, in prior research, with respect to team performance and outcomes. Those studies indicated, however, that despite experiencing improved project outcomes, students working in effective software engineering teams did not experience significantly improved individual achievement. To address this deficiency we implemented theoretically grounded refinements to the collaboration model based upon peer-tutoring research. Our results indicate a modest, but statistically significant (p?=?.08), improvement in individual achievement using this refined model.  相似文献   

2.
We use an experimental course collaboration that occurred in the winter of 2012 as a case study for an approach to interdisciplinary collaboration between Theatre and Humanities courses, and we argue that the theatre methodology of “devising” can serve as a particularly rich locus for collaboration between Theatre students and other Humanities students because it allows students to cooperate in generating a creative product that draws on two different areas of expertise. In this case, English students operated as critically informed advisors for Theatre students who devised original performances using a canonical text as source material. This experimental collaboration produced many of the positive results that have been discussed in previous studies concerning interdisciplinary pedagogy, including thoughtful consideration of the nature of each discipline, transferring of tools and methodologies between disciplines, increased student enthusiasm, and faculty development. However, it did not require extensive resources or curricular restructuring and thus might operate as a useful model for instructors with reservations about or limited resources for attempting interdisciplinary collaboration.  相似文献   

3.
经济增长模式转型要求工科人才培养的转型升级.毕业设计作为工科人才走向工作岗位或继续深造前最重要的工程实践与综合素质的锻炼平台,是培养创新实践人才的关键环节.如何优化毕业设计过程,充分发挥指导教师的作用从而实现毕业设计的教学目标是本科工科人才培育的改革重点.本研究整合了教师角色的相关理论,聚焦教师角色与作用,从教师专业素...  相似文献   

4.
Students’ perceptions of engineering have been documented through studies involving interviews, surveys, and word associations that take a direct approach to asking students about various aspects of their understanding of engineering. Research on perceptions of engineering rarely focuses on how students would portray engineering to others. First-year engineering student teams proposed a museum exhibit, targeted to middle school students, to explore the question “What is engineering?” The proposals took the form of a poster. The overarching research question focuses on how these students would portray engineering to middle school students as seen through their museum exhibit proposals. A preliminary analysis was done on 357 posters to determine the overall engineering themes for the proposed museum exhibits. Forty of these posters were selected and, using open coding, more thoroughly analyzed to learn what artifacts/objects, concepts, and skills student teams associate with engineering. These posters were also analyzed to determine if there were any differences by gender composition of the student teams. Building, designing, and teamwork are skills the first-year engineering students link to engineering. Regarding artifacts, students mentioned those related to transportation and structures most often. All-male teams were more likely to focus on the idea of space and to mention teamwork and designing as engineering skills; equal-gender teams were more likely to focus on the multidisciplinary aspect of engineering. This analysis of student teams’ proposals provides baseline data, positioning instructors to develop and assess instructional interventions that stretch students’ self-exploration of engineering.  相似文献   

5.
This article reports an undergraduate software engineering project in which, over a period of 2 years, four student teams from different cohorts developed a note-taking app for four academic clients at the students’ own university. We investigated how projects involving internal clients can give students the benefits of engaging in real software development while also giving them experience of a student-staff collaboration that has its own benefits for students, academics, and the university more broadly. As the university involved is a Sino-Foreign university located in China, where most students are Chinese and most teaching staff are not, this ‘student as co-producer’ approach interacts with another feature of the project: cultural distance. Based on analysis of notes, reports, interviews, and focus groups, we recommend that students should be provided with communicative strategies for dealing with academics as clients; universities should develop policies on ownership of student-staff collaborations; and projects should include a formalised handover process. This article can serve as guidance for educators considering a ‘students as co-producers’ approach for software development projects.  相似文献   

6.
We describe a unique Research Experience for Undergraduates and Research Experience for Veterinary students summer program at the National Institute for Mathematical and Biological Synthesis on the campus of the University of Tennessee, Knoxville. The program focused on interdisciplinary research at the interface of biology and mathematics. Participants were selected to work on projects with a biology mentor and a mathematics mentor in an environment that promoted collaboration outside of the students'' respective disciplines. There were four research projects with teams of four participants and two faculty mentors. The participants consisted of a mixture of 10 undergraduates in biology- and mathematics-related disciplines, four veterinary students, and two high-school teachers. The activities included lectures on both the biological and mathematical backgrounds of the projects, tutorials for software, and sessions on ethics, graduate school, and possible career paths for individuals interested in biology and mathematics. The program was designed to give students the ability to actively participate in the scientific research process by working on a project, writing up their results in a final report, and presenting their work orally. We report on the results of our evaluation surveys of the participants.  相似文献   

7.
Engineering graduates are expected to possess various competencies categorised into hard and soft skills. The hard skills are acquired through specific coursework, but the soft skills are often treated perfunctorily. Global Engineering Teams (GET) is a programme that promotes project-oriented tasks in virtual student teams working in collaboration with industry partners. Teamwork is a major success factor for GET as students always work in groups of varying sizes. A questionnaire-based survey of the 2008 cohort of GET students was conducted to assess teamwork, communication and conflict resolution among group members. The results confirmed that deliverables are readily achieved in teams and communication was open. A challenge of using virtual teams is the availability of high-speed Internet access. The GET programme shows that it is possible to deliver engineering design and manufacturing via industry/university collaboration. The programme also facilitates multidisciplinary teamwork at an international level.  相似文献   

8.
ABSTRACT

In order to increase student commitment from the beginning of students’ university careers, the Technische Universität Darmstadt has introduced interdisciplinary study projects involving first-year students from the engineering, natural, social and history, economics and/or human sciences departments. The didactic concept includes sophisticated task design, individual responsibility and a differentiated support system. Using a self-determination theory framework, this study examined the effects of the projects based on survey findings from two projects with more than 1000 students. The results showed that the projects were successful in fulfilling students’ basic psychological needs and in promoting students’ academic engagement. Basic psychological needs were found to be significant predictors of academic engagement. These findings suggest that interdisciplinary study projects can potentially contribute to improving higher education as they fulfil students’ basic psychological needs for competence, relatedness and autonomy and enhance students’ academic engagement.  相似文献   

9.
This state-of-the-art review research undertook a survey of a variety of studies regarding wiki-based collaborative writing projects and from this body of work extracted the best practices tenets of facilitation. Wiki-based collaborative writing projects are becoming more common in second language (L2) pedagogy. Such projects have multiple aims. These include, among other benefits, L2 acquisition, P2P learning, collaboration and immersion in new technologies that will inform the social and professional lives of the students. By mining a variety of wiki-based collaborative writing projects for the specific meta and secondary facilitation practices, the researchers were able to develop a general framework that will assist instructors of university or advanced high school students who wish to engage their students in such projects. The attributes of good facilitation that the researchers have isolated are by no means exhaustive, nor are they a guarantee of successful outcomes. These attributes do, however, provide a good starting point for any teacher or instructional designer who wants to provide an environment that fosters student satisfaction, motivation and learning.  相似文献   

10.
The purpose of this paper is to give an overview of the interdisciplinary project programme implemented by the Faculty of Technology at Plymouth University teamed with three Royal Academy of Engineering Visiting Professors in Principles of Engineering Design. We examine the challenges encountered in developing such a scheme and identify the processes that were put in place to ensure the quality of the course and to support and maximize student performance. Prior to commencement of the programme the Dean and Vice Chancellor had developed clear objectives and expectations for building upon the significant achievements of the six schools comprising the Faculty of Technology. These objectives were: (a) For the Faculty: ? Provide a focus and impetus for the development of multidisciplinary design in a new portfolio of Masters-level (4 year) engineering courses. ? Enhance the teaching of design in all engineering courses. ? Strengthen a design-oriented approach to all teaching in engineering courses. ? Enhance students' enthusiasm and awareness through greater contact with senior practitioners. ? Improve the understanding of both staff and students concerning the principles of modern engineering design and manufacturing/construction in contemporary professional practice. ? Provide experience and an understanding of the value of interdisciplinary working. (b) For the students: ? Give students the opportunity to tackle problems outside their disciplines. ? Help students understand the relationships between different disciplines. ? Develop innovative and creative solutions to open-ended problems. ? Develop management skills. ? Develop personal and interpersonal skills. ? Focus on developing team-working skills. ? Develop communications and presentation skills. In addition to providing students with a significant intellectual challenge the interdisciplinary project is designed to help them gain a broader insight into problem-solving and in dealing with uncertainty--the essences of engineering. Our experience leads us to believe that both undergraduate and postgraduate engineering students would benefit from working in interdisciplinary teams whilst at university and that having done so they would leave university better fitted for careers in engineering.  相似文献   

11.
There are many reasons to assign group projects but determining the grade for each individual working in a group can be problematic. Self and peer assessments of contributions to a group project can be used to adjust individual grades. Most studies of such assessments have considered teams with three to seven members. This study documents the degree of congruence between self and peer assessments of contributions to a project assigned to teams of two people. The majority of students (88.6%) assigned equal credit to themselves and to their partner. Only 16.2% of students had their grades adjusted by the assessment process and most of those adjustments were small. These findings may alleviate concerns of instructors and students about the fairness of assigning individual grades to students working on a project in teams of two.  相似文献   

12.
为了培养农业与生物系统工程类学生的创新能力,引导学生进行自主、探究式学习,在精细农业等农业信息和自动化技术类课程教学中应用LEGO Mindstorms组件作为教具,研制智能化可编程农机作业模拟系统。多组学生在Robolab编程环境下,使用此系统构建小型智能农业机械模型。结果表明,学生对这个实验项目的效果很满意。因为它不仅为学生提供了解决问题的技巧,提高了他们编程和机械设计等相关技能,同时有益于学生间形成团队协作的良好氛围。介绍了LEGO Mindstorms在相关农业信息课程教学中的探索应用以及实验结果。  相似文献   

13.
Collaborative learning has been gaining momentum as a promising pedagogy in higher education. Research on student collaboration is increasing. However, one arena is often overlooked—faculty collaboration. In this article, a cross‐institutional faculty collaboration is presented. The context is faculty collaboration on the design of an undergraduate engineering course. Specifically, this paper examines design issues encountered in the faculty collaborations associated with developing, delivering, and redesigning a senior‐level engineering design course that was taught simultaneously at two universities. This course was taught in state‐of‐the‐art distance learning classrooms. Both within class and outside class, participating students and faculty made use of a Web‐based environment that supported a variety of synchronous and asynchronous interactions. The course itself focused on team design projects and provided instruction on the engineering design process, in various specific skills needed for the students’ projects, and on how to function effectively as part of a geographically distributed engineering design team. The participating faculty members represented different backgrounds, academic disciplines, and academic cultures. Issues related to collaborations on development, delivery, and redesign are elaborated. Based on the lessons learned, suggestions for future cross‐institutional faculty collaboration in course development are provided.  相似文献   

14.
文章针对地方高校培养应用型人才的特点,对机械工程基础类课程进行了基于创新能力培养的课程改革,使学生以创新项目为载体,解决科学问题并总结表达其过程及成果。对于机械工程基础类课程的学习,可培养学生围绕具体创新项目,在项目探索与实践的过程中,以项目组的形式展开学习和实践,培养学生发现问题与解决问题的能力,以及应用型研究能力。为了提高大学生机械工程基础学习和实践能力,需要形成基于课堂学习和基于创新项目学习的两大学习主线,结合教育改革和教学方法改革,把基于创新项目的学习贯穿于教学计划内外和本科学习的全过程。  相似文献   

15.
In this report, experiences are described which have been gained at the University of Technology, Aachen, in offering interdisciplinary, ‘real-life’ study projects (Studienarbeiten) to engineering undergraduates. The approach at this university is based on the regulation that every engineering student has to do two different study projects before starting on the Master research project (Diplomarbeit). The study projects described here are genuinely linked to the professional roles and tasks of engineers today. At the same time, they follow as much as possible the individual aims and areas of interests of the students involved.  相似文献   

16.
Over the past decade, the University of Wisconsin-Madison (UW-Madison) and Madison Area Technical College (Madison College) partnered to create an internship pathway for graduate students pursuing careers as future science, technology, engineering and math (STEM) faculty members. Since 2003, 10 doctoral students from the university completed teaching internship appointments with the technical college chemistry department. Interns benefited from a variety of teaching and educational experiences that helped lay the foundations for their future teaching careers. Following completion of their internships, many students secured employment in higher education as new instructors and enthusiastic members of the teaching profession. Intern projects also benefited veteran faculty mentors at Madison College, and the experience provided a rich forum for collaboration that generated curricular and instructional innovations in the classroom. Centered on the three pillars of teaching-as-research, learning community, and learning through diversity, the internship program created at UW-Madison and implemented at Madison College provides a model pathway for preparing future STEM faculty. This approach provides clear benefits not only for the future faculty who are trained, but also for veteran faculty mentors, for the host institution, and for the undergraduate students impacted by the educational innovations. This paper examines the key attributes of this program, with the hope that our experience may be disseminated and replicated to benefit others.  相似文献   

17.
Learning communities can strengthen early undergraduates’ learning, but planning them can be daunting for instructors. Learning communities usually rely on integrative assignments that encourage interdisciplinary analysis. This article reports on our experiences using microloans as an interdisciplinary assignment in a learning community that united algebra with world literature. Students used the microfinance website www.kiva.org to make small loans of real money to entrepreneurs in low-income countries. Four themes emerged from student reaction to the assignment: awareness of Africa, community impact, mathematical consciousness, and productive collaboration among students. Our reflections suggest that microfinance assignments may support integrative learning across many other disciplines.  相似文献   

18.
Preparing science and engineering students to work in interdisciplinary teams necessitates research on teaching and learning of interdisciplinary thinking. A multidimensional approach was taken to examine student interdisciplinary learning in a master course on food quality management. The collected 615 student experiences were analysed for the cognitive, emotional, and social learning dimensions using the learning theory of Illeris. Of these 615 experiences, the analysis showed that students reported 214, 194, and 207 times on, respectively, the emotional, the cognitive, and the social dimension. Per learning dimension, key learning experiences featuring interdisciplinary learning were identified such as ‘frustrations in selecting and matching disciplinary knowledge to complex problems’ (emotional), ‘understanding how to apply theoretical models or concepts to real-world situations’ (cognitive), and ‘socially engaging with peers to recognise similarities in perceptions and experiences’ (social). Furthermore, the results showed that students appreciated the cognitive dimension relatively more than the emotional and social dimensions.  相似文献   

19.
As part of its quality assurance systems, the University of Technology, Jamaica initiated a project aimed at exploring how action research could be used as a vehicle for enhancing the quality of the teaching/learning process. Following a series of orientation sessions and the development of a handbook for project teams, five action research projects were undertaken in the second semester of the academic year 2001-2002. The projects focused on using a student-centred approach in traditionally teacher-centred courses. At the end of the project cycle, results indicated that students became more independent learners and instructors had learned much about student-centred classroom strategies.  相似文献   

20.
We describe the development of a course to teach modeling and mathematical analysis skills to students of biology and to teach biology to students with strong backgrounds in mathematics, physics, or engineering. The two groups of students have different ways of learning material and often have strong negative feelings toward the area of knowledge that they find difficult. To give students a sense of mastery in each area, several complementary approaches are used in the course: 1) a “live” textbook that allows students to explore models and mathematical processes interactively; 2) benchmark problems providing key skills on which students make continuous progress; 3) assignment of students to teams of two throughout the semester; 4) regular one-on-one interactions with instructors throughout the semester; and 5) a term project in which students reconstruct, analyze, extend, and then write in detail about a recently published biological model. Based on student evaluations and comments, an attitude survey, and the quality of the students'' term papers, the course has significantly increased the ability and willingness of biology students to use mathematical concepts and modeling tools to understand biological systems, and it has significantly enhanced engineering students'' appreciation of biology.  相似文献   

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