Final Portfolio - SPARC Open Education Leadership Program, 2017-18

Final portfolio of work completed for the SPARC Open Education Leadership Program, 2017-18, including the Capstone Project Final Report, the Community Resource entitled “Piloting Faculty OER Grant Programs: A Practical Guide for Librarians,” and the blog Opening Up Liberal Arts Colleges (linked). “Piloting Faculty OER Grant Programs is also available separately in The Cupola

Turning engineers into reflective university teachers

Increasing attention to quality and innovation in Higher Education (HE) is enhancing the pedagogic knowledge of faculty members and thereby encouraging the academic success of their students. This aim requires, from the institution and teachers, a greater degree of involvement than was previously the case. This is certainly borne out by experience in Portuguese universities. The growing concern of engineers with issues of pedagogy and academic success marks a sea change in the traditional conceptions of teaching and learning in Higher Education. There are, of course, indications that many academics are resistant to change. Our research indicates a tradition among Portuguese and Scottish academics to incline their effort toward research with a resultant decline in interest and effort on teaching. The present paper presents a meta-analysis of research conducted at the University of Aveiro (Portugal) and the University of Strathclyde (United Kingdom) between 2000 and 2004 involving academics who taught first-year introductory Programming courses. The purpose of our study was to promote reflection and research on teaching based issues as a strategy toward improved student learning. The findings of the study raised a number of salient issues for discussion and consideration. In this paper, we present some of these issues, aiming to explore the impact that the findings may have on teachers' attitudes towards teaching and students' learning in introductory programming courses

Insights on best teaching practices for promoting students' learning

The Department of Educational Sciences and the Department of Electronic and Telecommunications at the University of Aveiro (Portugal) have been working together with the Department of Computer and Information Sciences at the University of Strathclyde (UK), with the aim of improving the teaching and learning of introductory programming courses. Both institutions belong to the European Consortium of Innovative Universities (ECIU), with a commitment to "developing and implementing new forms of teaching, training, and research; to assuring an innovative culture within their walls; to experimenting with new forms of management and administration; and to sustaining and nurturing internationally-minded staff" (ECIU). Over the past two years, data has been collected through interviews, questionnaires and class observation, to better understand the organization of the different courses and approaches to teaching and learning. Members of academic staff have been actively involved in trying to enhance the students' learning experience through reflection on teaching methods and trying new ideas to aid student success. During this process we have assimilated insights on teaching philosophies, methods and suggestions for course redesign. As an important piece of the "puzzle", students also provided useful feedback on differing aspects of teaching and course organization. The present paper presents a meta-analysis of our findings on the relevance of teaching practices for promoting students' learning. In addition, we discuss the impact that teaching philosophies and course organization may have on best teaching practices

Open Educational Content for Digital Public Libraries

If the production of digital content for teaching -- particularly free content -- is to expand substantially, there must be mechanisms to establish a link to fame and fortune that was not perceived in a pre-digital world. How that might be done is the central question this report addresses, in the context of examining the movement for open educational content. Understanding that movement requires delving into the history of what may seem, on first pass, a totally unrelated field of endeavor. The reader's patience is requested....

Comparing importance of knowledge and professional skill areas for engineering programming utilizing a two group Delphi survey

All engineering careers require some level of programming proficiency. However, beginning programming classes are challenging for many students. Difficulties have been well-documented and contribute to high drop-out rates which prevent students from pursuing engineering. While many approaches have been tried to improve the performance of students and reduce the dropout rate, continued work is needed. This research seeks to re-examine what items are critical for programming education and how those might inform what is taught in introductory programming classes (CS1). Following trends coming from accreditation and academic boards on the importance of professional skills, we desire to rank knowledge and professional skill areas in one list. While programming curricula focus almost exclusively on knowledge areas, integrating critical professional skill areas could provide students with a better high-level understanding of what engineering encompasses. Enhancing the current knowledge centric syllabi with critical professional skills should allow students to have better visibility into what an engineering job might be like at the earliest classes in the engineering degree. To define our list of important professional skills, we use a two-group, three-round Delphi survey to build consensus ranked lists of knowledge and professional skill areas from industry and academic experts. Performing a gap analysis between the expert groups shows that industry experts focus more on professional skills then their academic counterparts. We use this resulting list to recommend ways to further integrate professional skills into engineering programming curriculum

A case study of introductory programming with MOOCS

Computational thinking has become a crucial skill for the 21st Century learners in all disciplines. Research suggests that the best and fastest approach to understand the concepts of computational thinking is through developing programming skills. However, finding effective and affordable learning environments to introduce programming skills to a massive scale of students remains a challenge. Currently, the unprecedented utilization of MOOCs represent an opportunity to achieve this goal. But, existing introductory programming MOOCs have failed to provide instructionally-sound experience for learners. The purpose of this descriptive research is two-fold: (1) Identify the affordances of fifteen MOOC\u27s platforms that are best suited to design and implement basic programming skills courses based on the community of inquiry (CoI) framework, and (2) Describe and compare how CoI framework-based instructional strategies were implemented in six basic programming skills MOOCs

Teaching Introductory Programming from A to Z: Twenty-Six Tips from the Trenches

A solid foundation in computer programming is critical for students to succeed in advanced computing courses, but teaching such an introductory course is challenging. Therefore, it is important to develop better approaches in order to improve teaching effectiveness and enhance student learning. In this paper, we present 26 tips for teaching introductory programming drawn from the experiences of four well-qualified college professors. It is our hope that our peers can pick up some tips from this paper, apply them in their own classroom, improve their teaching effectiveness, and ultimately enhance student learning

A recipe for game development assignments in CS2

CS2
 classes
 suffer
 from
 a
 trend
 of
 dropping
 enrollment,
 poor
 gender
 diversity,
 the
 challenge
 of
 students
 learning
 a
 secondary
 programming
 language,
 and
 difficulties
 related
 to
 inadequate
 (or
 varied)
 preparation
 provided
 by
 CS1.
 
 Surveying
 educational
 research
 has
 indicated
 that
 using
 game
 development
 as
 the
focus
for
 assignments
 can
 mitigate
 many
 of
 the
 challenges
 of
 teaching
 CS1.

This
 paper 
has 
extracted 
many 
of 
the 
key
 beneficial
 components
 of
 game
 development
 assignments
 in
 CS1
 and
 provides
 them
 as
 a
 recipe
 for
 beneficially
 augmenting
 CS2
 with
 game 
development
 assignments.

 It
 is 
expected
 that
 all
 CS2
 courses
 can
 be
 enhanced
 by
 applying
 the
 elements
 presented
 within
 this
 recipe

Female computer science and engineering undergraduates: reflections on participation in the academic landscape

Women continue to be underrepresented in computer science and technology related fields despite their significant contributions. The lack of diversity in technology related fields is problematic as it can result in the perpetuation of negative stereotypes and closed-minded, unchecked biases. As technology tools become integral to our daily lives it is essential that a diverse group of people contribute to the sociocultural environments where we participate and live. This dissertation is a phenomenological, interview-based, study designed to investigate the lived experience of women in undergraduate computer science and engineering programs. The purpose of this study was to better understand the factors that might encourage or discourage the participation women in the major and in the field. In order to grow the number of women in technical fields it is important to first understand what attracts them to the field and what supports they find helpful or not helpful. This study illuminated some recommendations that might guide the work of practitioners in secondary schools as well as higher education. Among other things, participants appreciated being challenged by the content and assignments, feeling support from faculty and peers, feeling a connection to the culture, effective encouragement to persist, and engaging interactions. All of the participants described having gone into their field to make a positive impact on society and they also all described the importance having at least one supportive female mentor. Participants described the importance of having spaces where they felt included and appreciated their professors and peers who pushed back against the historical CS-world stereotypes. While the experience of each participant was unique, and there were some very negative experiences, all six participants reported having mostly positive experience in their undergraduate programs