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2. CALL Communities & Culture: Short Papers from EUROCALL 2016 (23rd, Limassol, Cyprus, August 24-27, 2016)
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Research-publishing.net (France), Papadima-Sophocleous, Salomi, Bradley, Linda, and Thouësny, Sylvie
- Abstract
The 23rd EUROCALL conference was held in Cyprus from the 24th to the 27th of August 2016. The theme of the conference this year was "CALL Communities and Culture." It offered a unique opportunity to hear from real-world CALL practitioners on how they practice CALL in their communities, and how the CALL culture has developed in local and global contexts. Short papers from the conference are presented in this volume: (1) The impact of EFL teachers' mediation in wiki-mediated collaborative writing activities on student-student collaboration (Maha Alghasab); (2) Towards the development of a comprehensive pedagogical framework for pronunciation training based on adaptive automatic speech recognition systems (Saandia Ali); (3) Digital literacy and sustainability--a field study in EFL teacher development (Christopher Allen and Jan Berggren); (4) Self-evaluation using iPads in EFL teaching practice (Christopher Allen, Stella K. Hadjistassou, and David Richardson); (5) Amateur online interculturalism in foreign language education (Antonie Alm); (6) Teaching Turkish in low tech contexts: opportunities and challenges (Katerina Antoniou, Evelyn Mbah, and Antigoni Parmaxi); (7) Learning Icelandic language and culture in virtual Reykjavic: starting to talk (Branislav Bédi, Birna Arnbjörnsdóttir, Hannes Högni Vilhjálmsson, Hafdís Erla Helgadóttir, Stefán Ólafsson, and Elías Björgvinsson); (8) Investigating student choices in performing higher-level comprehension tasks using TED (Francesca Bianchi and Ivana Marenzi); (9) An evaluation of text-to-speech synthesizers in the foreign language classroom: learners' perceptions (Tiago Bione, Jennica Grimshaw, and Walcir Cardoso); (10) Quantifying CALL: significance, effect size and variation (Alex Boulton; (11) The contribution of CALL to advanced-level foreign/second language instruction (Jack Burston and Kelly Arispe); (12) Using instructional technology to integrate CEFR "can do" performance objectives into an advanced-level language course (Jack Burston, Androulla Athanasiou, and Maro Neophytou-Yiokari); (13) Exploiting behaviorist and communicative action-based methodologies in CALL applications for the teaching of pronunciation in French as a foreign language (Jack Burston, Olga Georgiadou, and Monique Monville-Burston); (14) Mobile assisted language learning of less commonly taught languages: learning in an incidental and situated way through an app (Cristiana Cervini, Olga Solovova, Annukka Jakkula, and Karolina Ruta); (15) Using object-based activities and an online inquiry platform to support learners' engagement with their heritage language and culture (Koula Charitonos, Marina Charalampidi, and Eileen Scanlon); (16) Urban explorations for language learning: a gamified approach to teaching Italian in a university context (Koula Charitonos, Luca Morini, Sylvester Arnab, Tiziana Cervi-Wilson, and Billy Brick); (17) Communicate to learn, learn to communicate: a study of engineering students' communication strategies in a mobile-based learning environment (Li Cheng and Zhihong Lu); (18) Using a dialogue system based on dialogue maps for computer assisted second language learning (Sung-Kwon Choi, Oh-Woog Kwon, Young-Kil Kim, and Yunkeun Lee); (19) Students' attitudes and motivation towards technology in a Turkish language classroom (Pelekani Chryso); (20) Vlogging: a new channel for language learning and intercultural exchanges (Christelle Combe and Tatiana Codreanu); (21) Japanese university students' self-assessment and digital literacy test results (Travis Cote and Brett Milliner); (22) Digital story (re)telling using graded readers and smartphones (Kazumichi Enokida); (23) HR4EU--a web portal for e-learning of Croatian (Matea Filko, Daša Farkaš, and Diana Hriberski); (24) Synchronous tandem language learning in a MOOC context: a study on task design and learner performance (Marta Fondo Garcia and Christine Appel); (25) What students think and what they actually do in a mobile assisted language learning context: new insights for self-directed language learning in higher education (Gustavo Garcia Botero and Frederik Questier); (26) An Audio-Lexicon Spanish-Nahuatl: using technology to promote and disseminate a native Mexican language (Rafael García-Mencía, Aurelio López-López, and Angélica Muñoz Meléndez; (27) The use of interactive whiteboards: enhancing the nature of teaching young language learners (Christina Nicole Giannikas); (28) A pre-mobility eTandem project for incoming international students at the University of Padua (Lisa Griggio and Edit Rózsavölgyi); (29) Can a "shouting" digital game help learners develop oral fluency in a second language? (Jennica Grimshaw, Walcir Cardoso, and David Waddington); (30) Feedback visualization in a grammar-based e-learning system for German: a preliminary user evaluation with the COMPASS system (Karin Harbusch and Annette Hausdörfer); (31) The multimodality of lexical explanation sequences during videoconferenced pedagogical interaction (Benjamin Holt); (32) Automatic dialogue scoring for a second language learning system (Jin-Xia Huang, Kyung-Soon Lee, Oh-Woog Kwon, and Young-Kil Kim); (33) Effects of task-based videoconferencing on speaking performance and overall proficiency (Atsushi Iino, Yukiko Yabuta, and Yoichi Nakamura); (34) Tellecollaborative games for youngsters: impact on motivation (Kristi Jauregi); (35) The Exercise: an Exercise generator tool for the SOURCe project (Kryni Kakoyianni-Doa, Eleni Tziafa, and Athanasios Naskos); (36) Students' perceptions of online apprenticeship projects at a university (Hisayo Kikuchi); (37) The effects of multimodality through storytelling using various movie clips (SoHee Kim); (38) Collaboration through blogging: the development of writing and speaking skills in ESP courses (Angela Kleanthous and Walcir Cardoso); (39) Cultivating a community of learners in a distance learning postgraduate course for language professionals (Angelos Konstantinidis and Cecilia Goria); (40) Task-oriented spoken dialog system for second-language learning (Oh-Woog Kwon, Young-Kil Kim, and Yunkeun Lee); (41) Promoting multilingual communicative competence through multimodal academic learning situations (Anna Kyppö and Teija Natri); (42) Teacher professional learning: developing with the aid of technology (Marianna Kyprianou and Eleni Nikiforou); (43) Quizlet: what the students think--a qualitative data analysis (Bruce Lander); (44) "Just facebook me": a study on the integration of Facebook into a German language curriculum (Vera Leier and Una Cunningham); (45) A survey on Chinese students' online English language learning experience through synchronous web conferencing classrooms (Chenxi Li); (46) Identifying and activating receptive vocabulary by an online vocabulary survey and an online writing task (Ivy Chuhui Lin and Goh Kawai); (47) Exploring learners' perceptions of the use of digital letter games for language learning: the case of Magic Word (Mathieu Loiseau, Cristiana Cervini, Andrea Ceccherelli, Monica Masperi, Paola Salomoni, Marco Roccetti, Antonella Valva, and Francesca Bianco); (48) Game of Words: prototype of a digital game focusing on oral production (and comprehension) through asynchronous interaction (Mathieu Loiseau, Racha Hallal, Pauline Ballot, and Ada Gazidedja); (49) PETALL in action: latest developments and future directions of the EU-funded Pan-European Task Activities for Language Learning (António Lopes); (50) Exploring EFL learners' lexical application in AWE-based writing (Zhihong Lu and Zhenxiao Li); (51) Mobile-assisted language learning and language learner autonomy (Paul A. Lyddon); (52) YELL/TELL: online community platform for teacher professional development (Ivana Marenzi, Maria Bortoluzzi, and Rishita Kalyani); (53) Leveraging automatic speech recognition errors to detect challenging speech segments in TED talks (Maryam Sadat Mirzaei, Kourosh Meshgi, and Tatsuya Kawahara); (54) Investigating the affective learning in a 3D virtual learning environment: the case study of the Chatterdale mystery (Judith Molka-Danielsen, Stella Hadjistassou, and Gerhilde Messl-Egghart); (55) Are commercial "personal robots" ready for language learning? Focus on second language speech (Souheila Moussalli and Walcir Cardoso); (56) The Digichaint interactive game as a virtual learning environment for Irish (Neasa Ni Chiaráin and Ailbhe Ní Chasaide); (57) Mingling students' cognitive abilities and learning strategies to transform CALL (Efi Nisiforou and Antigoni Parmaxi); (58) Taking English outside of the classroom through social networking: reflections on a two-year project (Louise Ohashi); (59) Does the usage of an online EFL workbook conform to Benford's law? (Mikolaj Olszewski, Kacper Lodzikowski, Jan Zwolinski, Rasil Warnakulasooriya, and Adam Black); (60) Implications on pedagogy as a result of adopted CALL practices (James W. Pagel and Stephen G. Lambacher); (61) Exploring the benefits and disadvantages of introducing synchronous to asynchronous online technologies to facilitate flexibility in learning (Salomi Papadima-Sophocleous and Fernando Loizides); (62) A CALL for evolving teacher education through 3D microteaching (Giouli Pappa and Salomi Papadima-Sophocleous); (63) Physicality and language learning (Jaeuk Park, Paul Seedhouse, Rob Comber, and Jieun Kiaer); (64) Designing strategies for an efficient language MOOC (Maria Perifanou); (65) Worldwide state of language MOOCs (Maria Perifanou); (66) A Spanish-Finnish telecollaboration: extending intercultural competence via videoconferencing (Pasi Puranen and Ruby Vurdien); (67) Developing oral interaction skills with a digital information gap activity game (Avery Rueb, Walcir Cardoso, and Jennica Grimshaw); (68) Using WebQuests as idea banks for fostering autonomy in online language courses (Shirin Sadaghian and S. Susan Marandi); (69) Integrating mobile technologies into very young second language learners' curriculum (Gulnara Sadykova, Gulnara Gimaletdinova, Liliia Khalitova, and Albina Kayumova); (70) Investigating commercially available technology for language learners in higher education within the high functioning disability spectrum (Georgia Savvidou and Fernando Loizides); (71) Learning languages in 3D worlds with Machinima (Christel Schneider); (72) What are more effective in English classrooms: textbooks or podcasts? (Jaime Selwood, Joe Lauer, and Kazumichi Enokida); (73) Mind the gap: task design and technology in novice language teachers' practice (Tom F. H. Smits, Margret Oberhofer, and Jozef Colpaert); (74) Language immersion in the self-study mode e-course (Olga Sobolev); (75) Aligning out-of-class material with curriculum: tagging grammar in a mobile music application (Ross Sundberg and Walcir Cardoso); (76) Meeting the technology standards for language teachers (Cornelia Tschichold); (77) Mobile-assisted language learning community and culture in French-speaking Belgium: the teachers' perspective (Julie Van de Vyver); (78) Classification of Swedish learner essays by CEFR levels (Elena Volodina, Ildikó Pilán, and David Alfter); (79) Mobile assisted language learning and mnemonic mapping--the loci method revisited (Ikumi Waragai, Marco Raindl, Tatsuya Ohta, and Kosuke Miyasaka); (80) CALL and less commonly taught languages--still a way to go (Monica Ward); (81) Demystifying pronunciation with animation (Monica Ward); (82) The effects of utilizing corpus resources to correct collocation errors in L2 writing--Students' performance, corpus use and perceptions (Yi-ju Wu); (83) A social constructionist approach to teaching and learning vocabulary for Italian for academic purposes (Eftychia Xerou, Salomi Papadima-Sophocleous, and Antigoni Parmaxi); (84) Flip-J: development of the system for flipped jigsaw supported language learning (Masanori Yamada, Yoshiko Goda, Kojiro Hata, Hideya Matsukawa, and Seisuke Yasunami); and (85) "Check your Smile", prototype of a collaborative LSP website for technical vocabulary (Nadia Yassine-Diab, Charlotte Alazard-Guiu, Mathieu Loiseau, Laurent Sorin, and Charlotte Orliac). An author index is included. (Individual papers contain references.)
- Published
- 2016
3. In Flight with Paper Airplanes: An Exploration with Elementary Engineering
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Katchmark, Laura, McCabe, Elisabeth, Matthews, Kristen, and Koomen, Michele
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What better way to engage fifth-grade students in science and engineering practices than to use paper airplanes to encourage them to question, explore, create, and test designs! This multi-day unit draws from a fourth-grade curriculum (Pearson 2012) aligned with the "Next Generation Science Standards" (NGSS Lead States 2013) used in teacher education methods classes and taught to grade 5 students. In this article, we share an integrated unit that includes reading selections about Amelia Earhart and the forces involved in paper airplane flight, an overview of how we used paper airplanes in an experimental design process, and how we helped students develop conclusions based on the claims, evidence, and reasoning framework (CER; McNeill and Krajcik 2012).
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- 2020
4. Cheating in E-Exams and Paper Exams: The Perceptions of Engineering Students and Teachers in Norway
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Chirumamilla, Aparna, Sindre, Guttorm, and Nguyen-Duc, Anh
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A concern that has been raised with the transition from pen and paper examinations to electronic examinations is whether this will make cheating easier. This article investigates how teachers and students perceive the differences in ease of cheating during three types of written examination: paper exams, bring your own device e-exams and e-exams using university-owned devices. It also investigates perceptions about the effectiveness of some typical countermeasures towards cheating across these examination types. A mixed-method approach was used, combining questionnaires and interviews with students and teachers in the authors' own university. A total of 212 students and 162 teachers participated in the questionnaire survey, and then, a more limited number were interviewed to get a deeper understanding of the results. Six-different cheating practices were considered -- impersonation, forbidden aids, peeking, peer collaboration, outside assistance and student-staff collusion and seven different countermeasures were considered -- proctors, biometry, mingling, shuffling, random drawing, sequencing and broadcasting. Both students and teachers perceived cheating as easier with e-exams, and especially with bring your own device. They also thought some countermeasures would be easier to implement with e-exams.
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- 2020
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5. Collaborative Problem Solving at Chalkboard vs. On Paper for First-Year Calculus
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Ritz, Hadas and Schneider-Bentley, Lisa
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Collaborative learning is well-established as a method to improve student learning and retention in engineering classrooms. One problem with collaborative learning is difficulty maximizing engagement of all students during group activities. We tested a change in implementation of collaborative problem solving sessions (Workshops) in a first-year Calculus for Engineers course. Previously, students sat at tables and worked together in small groups to solve provided problems, with each student ending the class period with her or his own written solution. The innovation in this study had students solving the same problems in the same small groups, but working together on the chalkboards, with each group ending the class period with a mutually agreed upon solution. Data collection to assess the innovation included student surveys, TA feedback, and observation and video recording of Workshop sections. The data support this innovation as a way to increase student collaboration and engagement during collaborative problem solving.
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- 2018
6. Assessment in the English for Academic Study Telecollaboration (EAST) Project -- A Case Study
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Rolinska, Anna and Czura, Anna
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This case study presents and discusses the English for Academic Study Telecollaboration (EAST) project, carried out between Science, Engineering, and Technology (SET) students from different higher education institutions. In this telecollaborative project, the students work across borders and cultures on real-life SET discipline-specific scenarios and develop a number of soft skills and attributes alongside. The paper shows how the telecollaborative exchange has been set up and what changes were required to adapt the existing course, particularly its assessment procedures, to ensure the project was well integrated into the curriculum. It also attempts to evaluate the project, taking into account the differing outcomes and learning experiences of the participants from the partnering institutions. It concludes that adding the telecollaborative project to the existing course resulted in a richer educational experience for the participants and development of a number of skills but points out imbalances in the treatment of the participants from the assessment point of view and suggests how these inequalities could be addressed in the future. [For the complete volume, "Assessing Virtual Exchange in Foreign Language Courses at Tertiary Level," see ED624433.]
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- 2022
7. Engineering Graduates for UK Manufacturing: 'Further Confirmation of the Evident Minimal Impact of Possible Workforce-Planning Policy Responses to Sectoral Shortage Reports.' SKOPE Research Paper No. 125
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University of Oxford (United Kingdom), Centre on Skills, Knowledge and Organisational Performance (SKOPE) and Dixson, Matthew
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This paper examines evidence from the HESA DLHE six-month Censuses and 3½ year ('longitudinal') surveys relating to three aspects of the flows of those who have left university with Higher Education Engineering qualifications, to test the robustness of the conclusions of SKOPE Research Paper No. 122 (Dixon, 2015), which showed strong evidence that most Engineering graduates do not go on to work in the sectors of the economy that might be expected, in particular in the 'natural' Manufacturing sub-sector. Specifically, the paper examines three questions: (1) whether evidence of starting salary levels for those from particular disciplines going into particular sectors could explain the relative flows (on the assumption that higher salaries for graduate vacancies in a particular sector would attract more applications); (2) whether evidence of sector destinations three years on from the (six-month after graduation) Census data analysed in Dixon (2015) would show up significantly different levels of 'leakage'; and (3) whether those entering employment having completed Taught Masters (as opposed to First Degree) courses in particular Engineering disciplines would tend (in the light of their apparent greater interest and deeper understanding in the specific discipline) to enter the "expected" sectors more than their Bachelors colleagues. The "bottom line" answers to these questions is that -- with rather minor exceptions -- none of the relevant broader evidence from HESA DLHE data over a ten-year period significantly questions the very considerable 'leakage', away from the 'natural' Manufacturing sub-sector, that was found and presented in Dixon (2015). (1) There is "some" correlation between the "average salaries offered" (by employers in each 'destination' sector to cohorts from each Engineering discipline examined) and the "size of the flows" from each discipline into each sector, but it is limited and rarely strong. While there might be reasons why average salary differences might not be large enough to provide a sufficient incentive for Engineering graduates to choose one sector over another, evidence of considerably greater correlation would have been helpful to justify the traditional response of classical economics to employers' concerns about shortages: "offer more money"! (2) While there are sample size issues constraining the statistical precision of comparisons between the two DLHE surveys, these have been addressed, and comparisons of the "linear flows" of graduates from each discipline into the natural Manufacturing sub-sector show (a) comparatively very small differences, and (b) on balance, slightly "greater" 'leakage' three years on; and (3) More MSc's in "Automotive" and "Aerospace Engineering" have, over the ten years examined, then gone into the "Manufacture of Motor Vehicles"... and "Air and Space craft manufacture" (respectively) than BEng's from these disciplines. However, for the other disciplines compared, there is little difference, and -- in terms of entry into Manufacturing as a whole, for the most recent year in the period - the fraction of the disciplinary cohorts entering "any type of Manufacturing" is slightly "higher" for MSc's than First Degree (FD) graduates in "three" Engineering disciplines, though "lower" for MSc's than FD's in "four"! This new evidence, therefore, only serves to "strengthen" the great importance of NOT assuming linear flows of Engineering graduates into the "natural" Manufacturing sub-sectors corresponding to their discipline, in particular in policy responses to reports of shortages from such sub-sectors.
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- 2017
8. Annual Proceedings of Selected Research and Development Papers Presented at the Annual Convention of the Association for Educational Communications and Technology - Volume 1 and Selected Papers on the Practice of Educational Communications and Technology - Volume 2 (34th, Jacksonville, Florida, 2011)
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Association for Educational Communications and Technology and Simonson, Michael
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For the thirty-fourth year, the Association for Educational Communications and Technology (AECT) is sponsoring the publication of these Proceedings. Papers published in this volume were presented at the annual AECT Convention in Jacksonville, FL. A limited quantity of these Proceedings were printed and sold in both hardcopy and electronic versions. The Proceedings of AECT's Convention are published in two volumes. Volume #1 contains papers dealing primarily with research and development topics. Papers dealing with the practice of instructional technology including instruction and training issues are contained in Volume #2. This year, both volumes are included in one document. (Individual papers contain references, tables, and figures.) [For Volumes 1 and 2 of the 2010 proceedings, see ED514646 and ED514647.]
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- 2011
9. Rethinking Engineering Education on the Teaching and Research Practice of Computer Architecture
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Xu, Qingzhen, Mao, Mingzhi, Filipe, Joaquim, Editorial Board Member, Ghosh, Ashish, Editorial Board Member, Prates, Raquel Oliveira, Editorial Board Member, Zhou, Lizhu, Editorial Board Member, Gan, Jianhou, editor, Pan, Yi, editor, Zhou, Juxiang, editor, Liu, Dong, editor, Song, Xianhua, editor, and Lu, Zeguang, editor
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- 2024
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10. The Internal Drive Force Analysis of Learning for Engineering Students
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Du, Xiaoyu, Zhou, Guanying, Han, Zhijie, Du, Ying, Qiao, Baojun, Filipe, Joaquim, Editorial Board Member, Ghosh, Ashish, Editorial Board Member, Prates, Raquel Oliveira, Editorial Board Member, Zhou, Lizhu, Editorial Board Member, Gan, Jianhou, editor, Pan, Yi, editor, Zhou, Juxiang, editor, Liu, Dong, editor, Song, Xianhua, editor, and Lu, Zeguang, editor
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- 2024
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11. Analysis of Question Papers in Engineering Courses with Respect to HOTS (Higher Order Thinking Skills)
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Narayanan, Sowmya and Adithan, M.
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It is generally perceived that a substantial number of engineering faculty are still unaware of alternative educational methods, and many who are aware of them choose not to incorporate them into their approach to teaching. There are several likely reasons for this inertia, aside from the inevitable human resistance to change. The primary focus of imparting information is restricted to fulfilling the course requirements and, the upcoming term end examination. It is imperative to adopt a change from teaching to learning paradigm engaging the students in Higher Order Thinking Skills. Knowledge and technological advancements are changing the role of engineering and engineering faculty in the society. Engineering Education reforms need to focus on inductive teaching and stimulated learning. Students should be taught critical thinking skills and creative thinking skills to keep pace with the rapidly changing engineering profession. This paper reports the study done to test and explore the faculty awareness of Bloom's Taxonomy of Educational Objectives in the cognitive domain and Higher Order Thinking Skills (HOTS) and to evaluate question papers set by engineering faculty with respect to HOTS as proposed by Bloom's Taxonomy. Various active learning strategies to enhance critical thinking skills and creative thinking skills of the students are recommended for use by the faculty in their interactions with the students.
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- 2015
12. Three Languages Simulate Polygons and Perform on the Web : Python, Fortran, C, with PHP and ‘gnuplot’
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Casquilho, Miguel, Pacheco, Pedro, Filipe, Joaquim, Editorial Board Member, Ghosh, Ashish, Editorial Board Member, Prates, Raquel Oliveira, Editorial Board Member, Zhou, Lizhu, Editorial Board Member, Patel, Kanubhai K., editor, Santosh, KC, editor, and Patel, Atul, editor
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- 2024
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13. Multi-Index and Hierarchical Comprehensive Evaluation System for Training Quality of Science and Engineering Postgraduates
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Duan, Peitong, Niu, Huijun, Xiang, Jiawen, and Han, Caiqin
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It is essential to establish a multi-dimensional postgraduate quality evaluation system for student assessment and training. This study aimed to explore the construction of the multiindex and hierarchical comprehensive evaluation system for postgraduate training in science and engineering based on the Context, Input, Process, Product (CIPP) model using Analytic Hierarchy Process. It involved 756 postgraduates in physics and engineering who were randomly selected via the Internet. Data were collected from the questionnaire about postgraduates' basic information. After collection, Factor Analysis was used to verify the rationality of the design of second-level and third-level indicators, and adjust the corresponding weights. On this basis, Cluster Analysis was used to classify the training quality of the postgraduates based on their scores on academic ability, basic quality, and social ability indicators. The results revealed that the index system includes 4 first-level indicators,12 second-level indicators and 36 third-level indicators, and different weights being assigned to the indicators according to their influence on the training quality of postgraduates in science and engineering. This study also provides some reference for the quality of science and engineering postgraduate training in Chinese universities by proposing relevant measures, which could be interesting also for international audience.
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- 2022
14. Exploring Data-Driven Decision-Making in the Field: How Faculty Use Data and Other Forms of Information to Guide Instructional Decision-Making. WCER Working Paper No. 2014-3
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Wisconsin Center for Education Research, Hora, Matthew T., Bouwma-Gearhart, Jana, and Park, Hyoung Joon
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A defining characteristic of current U.S. educational policy is the use of data to inform decisions about resource allocation, teacher hiring, and curriculum and instruction. Perhaps the biggest challenge to data-driven decision making (DDDM) is that data use alone does not automatically result in improved teaching and learning. Research indicates that translating raw data into useable information and actionable knowledge for teachers requires not only adequate technical and social supports, but also an awareness of how educators in real-world settings actually use information to make decisions. Yet, little is known about DDDM in higher education, in general, and how postsecondary faculty make sense of and use data in their instructional decision-making processes, in particular. In this paper, we use naturalistic decision-making theory to generate practice-based descriptions of how 59 STEM faculty at three large public research universities used data as part of their course planning. Interview transcripts and notes taken while observing planning meetings were analyzed using an inductive approach to content analysis. In practice, respondents used different types of data and other information obtained from, for example, student assessments, end-of-semester evaluations, and conversations with colleagues. Results indicate that faculty generally collect and analyze data in informal, ad hoc scenarios ungoverned by institutional policy. Exceptions include disciplines with accreditation pressures and team-taught courses where structured (and supported) opportunities exist for faculty to collect, analyze, and reflect upon data about student learning. Thus, while numeric data are clearly viewed by this population of faculty as the most rigorous, in practice, even those that use quantitative data also use other sources of information. These results suggest an opportunity for educational leaders to design policies and professional development initiatives that facilitate a more formal collection of and reflection on data by faculty. In pursuing such technical solutions, however, policymakers and educational leaders must carefully negotiate the tension between rigor and relevance, and learn from the challenges experienced in the K-12 sector regarding DDDM.
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- 2014
15. STEM Integration in Sixth Grade: Designing and Constructing Paper Bridges
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English, Lyn D. and King, Donna
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In this article, we report on sixth-grade students' responses to a set of problem activities that required the application of mathematics, science, and engineering knowledge in designing and constructing a paper bridge that could withstand an optimal load. Increasing students' application and awareness of their disciplinary learning and how they are applying this in an integrated STEM activity remains a challenge for educators. In addressing this issue, we included a focus on knowledge reflection and knowledge scaffolding through thought-provoking student workbooks. Among the findings are students' capabilities in planning, designing, reflecting, constructing, and redesigning. Students' planning indicated that they could justify their proposed bridge type/s, which often included a combination of types, by referring to their STEM understandings. At the same time, students remained cognizant of the problem boundaries. Students' design sketches indicated an awareness of the problem constraints, an understanding of basic engineering principles, and an application of mathematics and science knowledge. Students' reflections on their actions helped them to improve their bridge constructions. Suggestions are presented for knowledge scaffolding to facilitate the flexible and innovative application of STEM learning to new problem situations.
- Published
- 2019
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16. Proceedings of International Conference on Social and Education Sciences (Chicago, Illinois, October 15-18, 2020)
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International Society for Technology, Education and Science (ISTES) Organization, Akerson, Valari, and Sahin, Ismail
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"International Conference on Social and Education Sciences" includes full papers presented at the International Conference on Social and Education Sciences (IConSES) which took place on October 15-18, 2020 in Chicago, IL, USA. The aim of the conference is to offer opportunities to share your ideas, to discuss theoretical and practical issues and to connect with the leaders in the fields of education and social sciences. The conference is organized annually by the International Society for Technology, Education, and Science (ISTES). The IConSES invites submissions which address the theory, research or applications in all disciplines of education and social sciences. The IConSES is organized for: faculty members in all disciplines of education and social sciences, graduate students, K-12 administrators, teachers, principals and all interested in education and social sciences. After peer-reviewing process, all full papers are published in the Conference Proceedings. [For the 2019 proceedings, see ED602587.]
- Published
- 2020
17. High School Students' Use of Paper-Based and Internet-Based Information Sources in the Engineering Design Process
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Pieper, Jon and Mentzer, Nathan
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Mentzer and Becker (2011) and Becker and Mentzer (2012) demonstrated that high school students engaged in engineering design problems spent more time accessing information and spent more time designing when provided with Internet access. They studied high school students engaged in an engineering design challenge. The two studies attempted to apply the same research methodology as was used in previous work by Atman to facilitate comparison between high school students and experts. The 2011 study included Internet access, but the 2012 study did not. Their work showed that with Internet access, students spent an average of 137 minutes engaged in designing a playground and students allocated 47 minutes (35%) to information access. Without Internet access, similar students from the same schools on the same design problem spent an average of 92 minutes of which, 10 minutes (10%) was dedicated to information access. With limited computer access or limited time to enable students to access a computer in some classrooms, the research questions guiding this study are: (1) What information do high school students spend time accessing during an engineering design challenge? How much information comes from paper-based resources as compared to the Internet?; and (2) How much time do they spend accessing information? What is the balance of time spent accessing information from paper-based sources as compared to the Internet? Findings and implications of this research on student learning are discussed. Recommendations for future research are also offered. (Contains 5 tables and 1 figure.)
- Published
- 2013
18. Proceedings TEEM 2022: Tenth International Conference on Technological Ecosystems for Enhancing Multiculturality: Salamanca, Spain, October 19-21, 2022. Lecture Notes in Educational Technology
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García-Peñalvo, Francisco José, García-Holgado, Alicia, García-Peñalvo, Francisco José, and García-Holgado, Alicia
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This TEEM 2022 Conference (International Conference on Technological Ecosystems for Enhancing Multiculturality) Proceedings reflects the most outstanding advances, with a multidisciplinary perspective, in the technological ecosystems that support the Knowledge Society building and development. With its learning technology-based focus using a transversal approach, TEEM is divided into thematic and highly cohesive tracks, each of which is oriented to a specific community of interest, including researchers, professionals and students. Informatics and Education are the central issues in the conference tracks, including broad-scope research areas, such as Educational Assessment and Orientation, Human-Computer Interaction, eLearning, Computers in Education, Communication Media and Education, Medicine and Education, Learning Analytics, Engineering Education, Robotics in Education, Diversity in Education, Gamification and Games for Learning.
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- 2023
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19. Engineering Design Challenges in High School STEM Courses: A Compilation of Invited Position Papers
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National Center for Engineering and Technology Education (NCETE), Householder, Daniel L., Householder, Daniel L., and National Center for Engineering and Technology Education (NCETE)
- Abstract
Since its initial funding by the National Science Foundation in 2004, the National Center for Engineering and Technology Education (NCETE) has worked to understand the infusion of engineering design experiences into the high school setting. Over the years, an increasing number of educators and professional groups have participated in the expanding initiative seeking to acquaint all students with engineering design. While there is strong support for providing students with engineering design experiences in their high school science, technology, engineering, and mathematics (STEM) courses, the lack of consensus on purposes and strategies has become increasingly apparent as the work continues. In February, 2011, NCETE sought position statements from a small number of engineering educators, cognitive scientists, instructional designers, and professional development providers who have been engaged in long-term efforts to provide students with engineering design experiences in their high school STEM courses. Each of these experienced professionals was asked to provide brief descriptions of principles or guidelines that they consider to be most important in promoting effective infusion of authentic engineering design challenges into STEM courses for all high school students. This publication contains the following papers: (1) Design Problems for Secondary Students (David H. Jonassen); (2) Infusing Engineering Design into High School STEM Courses (Morgan Hynes, Merredith Portsmore, Emily Dare, Elissa Milto, Chris Rogers, and David Hammer); (3) Integrating Engineering Design Challenges into Secondary STEM Education (Ronald L. Carr and Johannes Strobel); (4) Design Principles for High School Engineering Design Challenges: Experiences from High School Science Classrooms (Christian Schunn); (5) Engineering Design Challenges in a Science Curriculum (Arthur Eisenkraft); and (6) A Possible Pathway for High School Science in a STEM World (Cary Sneider). (Individual papers contain figures, references and appendices.)
- Published
- 2011
20. Associate Degree or Advanced Diploma? A Case Study. Occasional Paper
- Author
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National Centre for Vocational Education Research, Karmel, Tom, and Lu, Tham
- Abstract
This paper presents a case study in which the authors attempted to understand the impact, on student choice, of reforms in tertiary education in Australia, namely, a shift towards a demand-driven system and the blurring of the distinction between vocational education and training (VET) and higher education. The authors compared the advanced diploma and the associate degree in engineering and related technologies offered as a pathway to a four-year degree, using data available in October 2011 on the websites of providers and from the Victorian Government, the first jurisdiction to adopt an entitlement model and the state in which most mixed-sector tertiary institutions operate. The authors show that, while higher-level VET qualifications may come at a cheaper up-front cost, they are increasingly being seen as a poorer investment than a university course of study. In particular, the cost of delayed entry to the labour market, curriculum mismatch, and the greater ease of getting a loan for a university qualification will influence a student's decision to undertake higher-level VET qualifications. Appended are: (1) Overview of the operation of government-supported places and income-contingent loans; (2) The tuition costs a government-subsidised student has to pay to convert an advanced diploma or an associate degree into a bachelor degree in engineering, 2012; and (3) Tuition fees per year for Associate Degree in Engineering Technology at RMIT University. (Contains 1 figure and 14 tables.)
- Published
- 2012
21. Academic Disciplines and the Undergraduate Experience: Rethinking Bok's 'Underachieving Colleges' Thesis. SERU Project and Consortium Research Paper. Research & Occasional Paper Series: CSHE.6.11
- Author
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University of California, Berkeley, Center for Studies in Higher Education, Brint, Steven, and Cantwell, Allison M.
- Abstract
Using data from the 2008 University of California Undergraduate Experience Survey, we show that study time and academic conscientiousness were lower among students in humanities and social science majors than among students in science and engineering majors. Analytical and critical thinking experiences were no more evident among humanities and social sciences majors than among science and engineering majors. All three academically beneficial experiences were, however, strongly related to participation in class and interaction with instructors, and participation was more common among humanities and social sciences students than among science and engineering students. Bok's (2006) influential discussion of "underachievement" in undergraduate education focused on institutional performance. Our findings indicate that future discussions should take into account differences among disciplinary categories and majors as well. (Contains 4 tables and 13 footnotes.)
- Published
- 2011
22. Student Teams in the Engineering Classroom and Beyond: Setting up Students for Success. CRLT Occasional Paper No. 29
- Author
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University of Michigan, Center for Research on Learning and Teaching (CRLT), Finelli, Cynthia J., Bergom, Inger, and Mesa, Vilma
- Abstract
There is wide demand for engineering graduates to be capable of working well in teams. The engineering accreditation body (ABET, www.abet.org) has responded to this need by requiring engineering programs to demonstrate that their graduates have "an ability to function on multidisciplinary teams" (Haag, Froyd, Coleman, & Caso, n.d.), and many engineering instructors have integrated the use of student teams into their courses. The characteristics of effective student teams have been widely studied, and there is ample research on what makes student teams succeed. Johnson, Johnson, and Smith (2007), for example, define five traits of effective student teams, and they note that each one is critical for success. The five traits are: (1) positive interdependence; (2) individual accountability; (3) face-to-face interaction; (4) interpersonal and small-group skills; and (5) assess its performance. The purpose of this Occasional Paper is to provide instructors with a framework for ensuring that student teams possess these five traits and are set up for success. A sample peer evaluation form is appended.
- Published
- 2011
23. How Authors Did It--A Methodological Analysis of Recent Engineering Education Research Papers in the European Journal of Engineering Education
- Author
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Malmi, Lauri, Adawi, Tom, Curmi, Ronald, de Graaff, Erik, Duffy, Gavin, Kautz, Christian, Kinnunen, Päivi, and Williams, Bill
- Abstract
We investigated research processes applied in recent publications in the "European Journal of Engineering Education" (EJEE), exploring how papers link to theoretical work and how research processes have been designed and reported. We analysed all 155 papers published in EJEE in 2009, 2010 and 2013, classifying the papers using a taxonomy of research processes in engineering education research (EER) (Malmi et al. 2012). The majority of the papers presented either empirical work (59%) or were case reports (27%). Our main findings are as follows: (1) EJEE papers build moderately on a wide selection of theoretical work; (2) a great majority of papers have a clear research strategy, but data analysis methods are mostly simple descriptive statistics or simple/undocumented qualitative research methods; and (3) there are significant shortcomings in reporting research questions, methodology and limitations of studies. Our findings are consistent with and extend analyses of EER papers in other publishing venues; they help to build a clearer picture of the research currently published in EJEE and allow us to make recommendations for consideration by the editorial team of the journal. Our employed procedure also provides a framework that can be applied to monitor future global evolution of this and other EER journals.
- Published
- 2018
- Full Text
- View/download PDF
24. Restructuring Engineering Education: Why, How and When? Research & Occasional Paper Series: CSHE.12.11
- Author
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University of California, Berkeley, Center for Studies in Higher Education and King, C. Judson
- Abstract
There is strong interest in broadening engineering education, bringing in more liberal arts content as well as additional subjects such as economics, business and law, with which engineers now have to be familiar. There are also cogent arguments for balancing against what is now the almost exclusively quantitative nature of the curriculum, adding more elements that relate to the actual practice of engineering, and structuring engineering education so as to provide multiple and later entry points, which should enable more informed career choices and make engineering attractive to a more diverse range of the population. Many have also sought a change in the level of the professional engineering degree from the bachelor's to the graduate level, which would logically, and probably also necessarily, accompany these changes. However, progress towards such changes in the United States has been marginal, in large part because incentives on the micro- and meso-scales do not match those on the macro-scale. On the other hand, there is much more substantial change in other countries, driven in part by the Bologna process. For the United States to be the last to change would be counter to the goal of retaining higher-functioning engineering jobs in the U. S. What needs to happen in order for the U. S. to change is evaluated. (Contains 37 endnotes.)
- Published
- 2011
25. Teaching Engineering Design Through Paper Rockets
- Author
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Welling, Jonathan and Wright, Geoffrey A.
- Abstract
The paper rocket activity described in this article effectively teaches the engineering design process (EDP) by engaging students in a problem-based learning activity that encourages iterative design. For example, the first rockets the students build typically only fly between 30 and 100 feet. As students test and evaluate their rocket designs, they iteratively design improved rockets that will fly over 200 feet. The secret of success is simply the EDP: investigating the weaknesses of a rocket, designing and building a new prototype, evaluating its success, and collaborating and using conclusions to iteratively build additional and more successful rockets.
- Published
- 2018
26. A Collaborative Role for Industry in Assessing Student Learning. AIR 1999 Annual Forum Paper.
- Author
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McMartin, Flora
- Abstract
This paper recounts the process of integrating industry into the assessment process in engineering education developed by the Synthesis Coalition, a group of colleges and schools working together to improve engineering education through development and implementation of curriculum reforms. Originating in the Coalition's efforts to introduce mechatronics into the curriculum, the process involved use of an advisory industrial board, the Mechatronics Industry Board (MIB). This Board broadened its mission to become involved in the entire process of the outcomes based assessment program. This paper describes the two track planning process developed to capitalize on the different expertise of the faculty and the MIB: first, to identify valued student learning outcomes and, second, to validate the Synthesis Assessment Framework, a document laying out the Coalition's student learning goals, learning outcomes, and criteria for measuring these outcomes. Twenty scenarios describing situations which engineers commonly encounter were developed and analyzed for necessary skills and abilities. The project also developed four assessment tools to measure student learning including two self and peer assessment questionnaires related to teamwork and oral presentation, a design project report, and a scenario assignment for which a scoring rubric was developed by MIB and the Coalition. (Contains 14 references.) (DB)
- Published
- 1999
27. Annual Proceedings of Selected Research and Development Papers Presented at the National Convention of the Association for Educational Communications and Technology (27th, Chicago, Illinois, 2004). Volume 1
- Author
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Association for Educational Communications and Technology, Washington, DC., Simonson, Michael, and Crawford, Margaret
- Abstract
For the twenty-seventh year, the Research and Theory Division of the Association for Educational Communications and Technology (AECT) is sponsoring the publication of these Proceedings. Papers published in this volume were presented at the National AECT Convention in Chicago, Illinois. The Proceedings of AECT's Convention are published in two volumes. Volume 1 contains papers dealing primarily with research and development topics. (Individual papers contain references, figures, and tables.) [For Volume 2, see ED499962.]
- Published
- 2004
28. Engineers Should Have a College Education. Research & Occasional Paper Series: CSHE.8.06
- Author
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California Univ., Berkeley. Center for Studies in Higher Education. and King, C. Judson
- Abstract
Many societal trends and needs call for engineers to broaden their outlooks, have more flexible career options, and work closely and effectively with persons of quite different backgrounds. Yet the education and general orientation of engineers have been directed inward toward the profession, rather than outward toward the rest of society and the world. Engineering education should change to create a broader outlook and understanding in graduates and thereby engender capabilities for linkages and more likelihood of advancement into management and/or movement into other areas. The appropriate steps include moving the accredited professional engineering degree to the master's level and building upon a liberal education bachelor's degree that is analogous to pre-medical education. (Contains 14 footnotes.)
- Published
- 2006
29. Undergraduate Research Participation at the University of California, Berkeley. Research & Occasional Paper Series: CSHE.17.08
- Author
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University of California, Berkeley, Center for Studies in Higher Education and Berkes, Elizabeth
- Abstract
Although the University of California, Berkeley has increased efforts to involve undergraduates in scientific research, little data exists regarding the number of undergraduate researchers. The University of California Undergraduate Experience Survey (UCUES) presents an opportunity to investigate the extent of undergraduate research involvement at the UC Berkeley. The data (N=5,347) show that the frequency of student participation in research under the direction of a faculty mentor varies significantly based on whether students are receiving course credit, pay, or working as a volunteer. Undergraduate research participation also varies between STEM majors and social science or humanities majors (non-STEM), with slightly more STEM majors participating. The data show that women are participating in STEM research opportunities at a lower rate than men but participating in non-STEM research opportunities at a higher rate than men. The data also show that Asian, Filipino, and Pacific Islanders (AFP students) account for 50% of all undergraduate researchers in STEM fields and 35% of all non-STEM researchers. However, the data also reveal that African American, Chicano-Latino, AFP, White, American Indian, and international students are all participating at almost the exact same rate in undergraduate research (between 24% and 27% by ethnic or racial category). Further analysis regarding the relationship between undergraduate research experience and the highest parental education level reached, as well as high school grade-point average and standardized test scores (SAT I and ACT) is presented. Implications for higher education administrators, education researchers, faculty mentors, and undergraduate students are discussed. (Contains 10 tables.)
- Published
- 2008
30. Two Cultures: Undergraduate Academic Engagement. Research & Occasional Paper Series: CSHE.4.08
- Author
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Brint, Steven, Cantwell, Allison M., and Hannerman, Robert A.
- Abstract
Using data on upper-division students in the University of California system, we show that two distinct cultures of engagement exist on campus. The culture of engagement in the arts, humanities and social sciences focuses on interaction, participation, and interest in ideas. The culture of engagement in the natural sciences and engineering focuses on improvement of quantitative skills through collaborative study with an eye to rewards in the labor market. The two cultures of engagement are strongly associated with post-graduate degree plans. The findings raise questions about normative conceptions of good educational practices in so far as they are considered to be equally relevant to students in all higher education institutions and all major fields of study. (Contains 4 tables, 13 notes and 1 footnote.)
- Published
- 2008
31. Self-Directed Learning: A 2-Year, 4-Year Collaboration for Engineering Students. Working Paper Series.
- Author
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Broome Community Coll., Binghamton, NY. Inst. for Community Coll. Research., Beston, William, Fellows, Sharon, and Culver, Richard
- Abstract
This paper describes the joint collaboration of Broome Community College (BCC) (New York) and the State University of New York at Binghamton to help their engineering students become self-directed learners (SDL). Gerald Grow's model for staged self-directed learning is presented as a framework for the collaboration, with its four stages of student ability: (1) dependent; (2) interested; (3) involved; (4) self-directed. At each level, the role of the instructor complements the student's ability. To optimize the student's learning and promote development of SDL skills, a course needs to start where the student functions competently and then stretch them through activities that call on more active, independent learning. Self-directed learners, when confronted with a new topic which they need or want to learn, are capable of setting educational goals, establishing a program for learning the desired information/skills, adapting the learning program to their preferred learning styles, and evaluating their own level of achievement. At BCC, training in SDL skills is being built into second-year traditional, as well as asynchronous, courses through use of group projects. Binghamton integrates instruction in communications, computers, graphics and design, and provides a natural platform for developing SDL skills and attitudes. Joint development and the sharing of experiences has assisted both colleges in this project in building more effective programs and more self-directed students. (Contains 18 references.) (JA)
- Published
- 2001
32. The Woman Engineering Academic: An Investigation of Departmental and Institutional Environments. ASHE Annual Meeting Paper.
- Author
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Benson, Sherron D.
- Abstract
This study used grounded theory methodology to investigate the institutional and departmental climates of women engineering faculty. Seven female engineering faculty from two universities completed semi-structured interviews that were coded for common themes. All the participants indicated that they had had a natural interest or talent for science and mathematics and had been encouraged by family, teachers, or friends to pursue engineering. The participants also indicated that family considerations and the flexibility afforded by a faculty position influenced their academic career choice. The data revealed that women engineering faculty have made few strides in the academy, and that they continue to encounter barriers which make it difficult for them to survive and succeed, including hostility from male faculty, lack of support from administrators, lack of respect from colleagues, the feeling of being an outsider, and overt sexist behavior. It is concluded that until engineering departments take measures to address these barriers, women engineering faculty will continue to be bombarded by obstacles such as "gendercentrism" and the "outsider" phenomena in the form of micro- and macro-inequities. (Contains 42 references.) (MDM)
- Published
- 1998
33. Developing Creativity and Problem-Solving Skills of Engineering Students: A Comparison of Web- and Pen-and-Paper-Based Approaches
- Author
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Valentine, Andrew, Belski, Iouri, and Hamilton, Margaret
- Abstract
Problem-solving is a key engineering skill, yet is an area in which engineering graduates underperform. This paper investigates the potential of using web-based tools to teach students problem-solving techniques without the need to make use of class time. An idea generation experiment involving 90 students was designed. Students were surveyed about their study habits and reported they use electronic-based materials more than paper-based materials while studying, suggesting students may engage with web-based tools. Students then generated solutions to a problem task using either a paper-based template or an equivalent web interface. Students who used the web-based approach performed as well as students who used the paper-based approach, suggesting the technique can be successfully adopted and taught online. Web-based tools may therefore be adopted as supplementary material in a range of engineering courses as a way to increase students' options for enhancing problem-solving skills.
- Published
- 2017
- Full Text
- View/download PDF
34. Factors Influencing Master's Degree Attainment in Business, Engineering, Health and Human Sciences, and Visual and Performing Arts. AIR 1998 Annual Forum Paper.
- Author
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Xiao, Beiling
- Abstract
This study examined factors influencing master's degree attainment in various disciplines. Discrete-time survival analysis was used to examine the records of 3,189 graduate students in business, engineering, health and human sciences, and visual and performing arts at a large midwestern university for 6 years. It was found that 2,070 students had received a master's degree within 6 years. Students in business tended to receive their master's degrees later than did students in the other three areas, while students in health and human sciences received their degrees more quickly. Older graduate students took more time to receive their degrees than younger students. It was also found that first-semester grade-point average had a significant positive effect on degree attainment, while gender, Graduate Record Examination (GRE) scores, and Graduate Management Admission Test (GMAT) scores had no impact on master's degree attainment. Five data tables and four figures appended. (Contains 19 references.) (MDM)
- Published
- 1998
35. S.E.E.ing the Future: Science, Engineering and Education. Commentary from the Scientific Grassroots. A White Paper on the Issues and Need for Public Funding of Basic Science and Engineering Research.
- Author
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Dartmouth Coll., Hanover, NH. and Jemison, Mae C.
- Abstract
This document reports on the results of an ad hoc workshop called "S.E.E.ing the Future: Science Engineering and Education" Held at Dartmouth College in November of 2000 and sponsored by Dartmouth, the National Science Foundation, the Dow Chemical Company, and Science Service of Washington, DC. This transdisciplinary conference was one of a series of events that took place across the country to mark of the National Science Foundation's 50th Anniversary (NSFSO). The conference brought together leading thinkers in the sciences and arts-winners of National Medals of Science and Technology, Presidential Early Career Awards for Scientists and Engineers, leaders in industry and small business, university presidents and deans, writers, theologians and financiers--discussed the future of government funding of basic science and engineering research in the United States. Representing a diverse spectrum of those affecting and affected by science and engineering research, this grassroots group's findings and recommendations for the best uses of public monies are reported here. Among those findings are: (1) a deteriorating national infrastructure that may threaten U.S. leadership in science and technology; (2) public funding needs to balance the shift of industry research and development dollars from new research to short-term product development and profits; (3) funding agencies must expand their traditional definition of cost and benefit analyses for scientific research beyond dollars spent, discoveries made, and products developed to include the intellectual vitality of science, U.S. responsibility as a leading global citizen, and the fate of areas that are not founded; (4) in order to maintain its leadership positions in science and in the world economy, the U.S. must encourage, recruit, and retain a wide range of American young people--especially women and minorities--in science and engineering careers; (5) all Americans must be educated in the fundamentals of science; (6) the U.S. executive branch must establish a plan to promote long-term funding and evaluation of research initiatives and projects of benefit to the entire nation; and (7) the need for the federal development of a program to renovate the laboratories and teaching facilities at small and medium size non-research colleges. A list of conference participants is appended. (Contains 15 references and 39 endnotes.) (YDS)
- Published
- 2001
36. Effects of Small-Group Learning on Undergraduates in Science, Mathematics, Engineering, and Technology: A Meta-Analysis. ASHE Annual Meeting Paper.
- Author
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Wisconsin Center for Education Research, Madison., Springer, Leonard, Stanne, Mary Elizabeth, and Donovan, Samuel
- Abstract
A meta-analysis of research on college students in science, mathematics, engineering, and technology (SMET) was undertaken to clarify the effects of small-group learning at the undergraduate level. The focus was three broad categories of outcomes among SMET undergraduates: achievement, persistence, and attitudes. Research concerns included: potential sources of bias in the methodology; whether the effects of small-group learning differ for various groups of students (majors or nonmajors, first-year or other students, men or women, predominantly white or predominantly underrepresented groups); and whether the characteristics of different small-group learning procedures (time spent working in groups) are related to the outcome measures. Using 39 studies from 1980 or later, the study demonstrated that various forms of small-group learning are effective in promoting greater academic achievement, more favorable attitudes toward learning, and increased persistence. The magnitude of effects reported in this study exceeded most findings in comparable reviews of research on educational innovations and supports more widespread implementation of small-group learning in undergraduate SMET. Three figures and five data tables are appended. Also appended is a bibliography of the characteristics of various meta-analyses studies. (Contains 86 references.) (SW)
- Published
- 1997
37. Perceptions of Classroom Climate by Students in Non-Traditional Majors for Their Gender. ASHE Annual Meeting Paper.
- Author
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Serex, Catherine P.
- Abstract
This study examined the possibility that not only women but also men, face a chilly classroom climate when they are students in a major that is considered nontraditional for their gender. Male and female junior and senior students (total n=426) majoring in accounting, education, engineering, or nursing at one university responded to the College Classroom Climate Survey. Analysis of variance was used to examine the relationships between the independent variables of gender and academic discipline and the interaction of gender and academic discipline and the dependent variable of perception of classroom climate. Findings indicated that, regardless of their gender, students in these majors did not perceive the climate to be "chilly." However, there was a difference in perception of classroom climate as a function of major. Specifically, both education and nursing students perceived a "warmer" classroom climate than accounting and engineering students. The pattern was the same for both males and females since there was no interaction of gender and academic discipline. (Contains 20 references.) (Author/DB)
- Published
- 1997
38. Background Characteristics as Predictors of Academic Self-Confidence and Academic Self-Efficacy among Graduate Science and Engineering Students: An Exploration of Gender and Ethnic Differences. AIR 1996 Annual Forum Paper.
- Author
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Einarson, Marne K. and Santiago, Anna M.
- Abstract
Gender and ethnic differences in, and possible predictors of, academic self-confidence, academic self-efficacy, and career-related outcome expectations were investigated for 289 students entering graduate programs in engineering and physical sciences at a research university in the midwestern United States. Influence of student demographic characteristics and parental socioeconomic characteristics, the differences in prior academic performance and program-related work experience, expectations of faculty/student interactions, perceptions of gender and ethnic status as admissions influences, and controls for current degree level and other factors were estimated hierarchically. Women reported lower academic self-confidence than men, but gender was only marginally predictive of academic self-efficacy and did not enter into models predicting career-related outcome expectations. U.S. minority students reported higher academic self-efficacy than Anglo students, and foreign student status was associated with reduced career-related outcomes. Student perceptions of academic preparedness, status-related disadvantages, and faculty/student interactions were strong predictors of academic self-efficacy and career-related outcome expectations. Student funding concerns and research group involvement contributed to reduced career-related outcome expectations. Findings suggest that social, cognitive, and institutional variables may be important determinants of subsequent academic performance. Eight tables giving a statistical breakdown of the various factors studied and two appendices offering comparative statistics and variable definitions are included. (Contains 69 references.) (Author/CK)
- Published
- 1996
39. Reengineering a College of Engineering: The Role of an Institutional Research Office. AIR 1996 Annual Forum Paper.
- Author
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Sapp, Mary M. and Temares, M. Lewis
- Abstract
The role played by the institutional research office in the successful re-engineering of the University of Miami (Florida) college of engineering is described. The private research university's engineering school was at risk of closure due to declining enrollment and a changing job market. A committee of engineering faculty and other university administrators wrote a strategic plan using ideas from internal and external sources and site visits to other institutions. The plan outlined objectives for enrollment, external funding, overall college quality, faculty commitment and development, quality of overall student experience, fiscal solvency, and institutional image. The university's institutional research office provided five types of analyses: student and faculty demographic data; projection models; results of student surveys; focus group data; and credit hour and financial data breakdowns. In addition, the institutional research administrator assisted in interpretation of data and in preparation for a planning retreat. The services provided by the office were found useful. Recommendations included: provision of a listing of institutional research reports and customized analysis services to university deans; more use of focus groups; and identification of development of reports on key issues. (MSE)
- Published
- 1996
40. Engineering Skills Formation in Britain: Cyclical and Structural Issues. Towards a National Skills Agenda. Skills Task Force Research Paper 7.
- Author
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Mason, Geoff
- Abstract
Cyclical and structural issues in engineering skills formation in Great Britain were studied through a review of recent employment patterns, income patterns, employment projections, recent trends in education and training, and recent developments in technology and work organization. The review focused on the following issues: (1) the extent and nature of mismatches between the supply of and demand for engineering skills; (2) the extent to which engineering skill problems are cyclical as opposed to structural; and (3) the adequacy of current arrangements for engineering education and training. The following were among the main conclusions: (1) engineering skill problems are most apparent when they manifest in the form of external recruitment difficulties at the peak of each business cycle; (2) long-term trends in training levels and recruitment difficulties in the past 3 decades reflect structural rather than merely cyclical weaknesses in the British system of engineering training; (3) recent changes in markets and work organizations have significantly increased engineering employers' expectations of graduates; and (4) one way to expand modern apprenticeship (MA) numbers would be to develop preapprenticeship courses to prepare underqualified 16- and 17-year-olds for later entry to MA schemes. (Fourteen tables/figures are included. The bibliography lists 34 references.) (MN)
- Published
- 1999
41. The Retention Status of Underrepresented Minority Students: An Analysis of Survey Results from Sixty-Seven U.S. Colleges and Universities. AIR 1995 Annual Forum Paper.
- Author
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Smith, Theresa Y.
- Abstract
Retention and graduation rates of underrepresented minority students were studied during 1985-91 with first-time freshman cohorts at 67 U.S. colleges and universities. Data were also collected from 17 institutions for science, engineering, and mathematics (SEM) majors by race and gender. Research areas included: headcounts, average admission test scores, retention rates after one and two years, and graduation and continuation rates within 4, 5, and 6 years. Findings included: underrepresented minorities constituted 14 percent of 1985 entering freshman and 19 percent of 1991 freshmen; 6-year tracking of the 1985 and 1986 cohorts of 312,795 first-time freshmen indicated that 80 percent continued to the second year and 69 percent progressed to the third year of college; after the first year, retention rates were 73 percent for Blacks, 72 percent for Hispanics, and 69 percent for American Indians compared with 81 percent for the other ethnic groups; after the second year, the retention rates were about 59 percent for Blacks, 62 percent for Hispanics, and 54 percent for American Indians. Additional information is provided on the effects of gender and institutional selectivity on retention and graduation rates. (Contains 28 references.) (SW)
- Published
- 1995
42. NISE Fellows Program: Feedback from Past Fellows. Occasional Paper.
- Author
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National Inst. for Science Education, Madison, WI. and White, Paula A.
- Abstract
The National Institute for Science Education (NISE) is an organization in which scholars from different disciplinary backgrounds work collaboratively to address the important issues in Science, Mathematics, Engineering, and Technology (SMET) education. This document reports on NISE Fellows' experiences based on these questions: (1) How did you learn about the NISE Fellow opportunity? (2) Why did you want to be a NISE Fellow? (3) How has the experience affected you? (4) What is your assessment of the value of the experience? and (5) How might NISE improve the quality of the Fellow experience? Appendices include: "Call for Applications and Nominations for Fellows"; "NISE Fellows and Affiliations"; and "Bibliography of NISE Fellows' Products." (YDS)
- Published
- 1998
43. Total Quality Management on Campus: Pipe Dream or New Paradigm? AIR 1994 Annual Forum Paper.
- Author
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Freed, Jann E.
- Abstract
This study looked at how Total Quality Management (TQM) is being adopted in institutions of higher education. A questionnaire was developed seeking information on: (1) leadership of the TQM movement and timing of events; (2) the training, educating, and informing of employees; (3) specific areas using TQM and the specific statistical tools being used; and (4) benefits realized and frustrations experienced in the adoption process. About 50 percent of 414 institutions responded to the survey. Preliminary results indicated that 77 percent of respondents indicated that TQM is being adopted on their campuses, of which 85 percent had adopted TQM in 1990 or later. Within institutions, the support staff most frequently receive training (90 percent), followed by administration (85 percent), and faculty (68 percent). The areas most likely to be using TQM were top-level administration, registration, physical plant, admission, and accounting. The top ranked statistical tools used in the TQM process were flow charts, cause-and-effect diagrams, and nominal group process. In business and engineering schools a majority of respondents indicated that TQM is being taught but far fewer reported that TQM is being practiced. Improved communication and customer satisfaction were cited by 65 percent of respondents as key benefits of TQM while perceptions of TQM as a fad and time consuming were cited as major frustrations. (Contains 24 references.) (JB)
- Published
- 1994
44. Faculty Perceptions of Measures of Activity and Productivity. AIR 1993 Annual Forum Paper.
- Author
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Cooper, Pamela A. and Hensley, Oliver D.
- Abstract
A study was done of faculty perceptions of the accuracy and validity of various time-related personnel activity and productivity reporting measures, and of faculty's willingness to participate in these measures. In the first stage of the study 1,000 randomly-selected faculty from 200 institutions of higher education that have the highest levels of total separately budgeted science/engineering research and development expenditures were mailed a survey instrument entitled "Faculty Perceptions of Activity and Productivity Reporting." Faculty responses included suggestions for activity and productivity measures and those suggestions appeared in a followup survey, "Faculty Perceptions of Measures of Productivity," sent to the original cohort and an additional 10,000 science and engineering research and development faculty. The first survey received a 24 percent response rate; the second a 21 percent response rate. Results indicated that faculty think that reporting the percentage of time spent in various activities or the number of hours in the classroom is not a valid measure of their productivity. However, reliance on time-based reporting systems must prevail until institutions of higher education and faculty become accountable to their sponsors and begin to develop, implement, and make external and internal reports based on measures of faculty productivity. (Includes 13 references.) (JB)
- Published
- 1993
45. Small-Group Instruction: An Annotated Bibliography of Science, Mathematics, Engineering and Technology Resources in Higher Education, 1997. Occasional Paper.
- Author
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National Inst. for Science Education, Madison, WI., Cooper, James, and Robinson, Pamela
- Abstract
This bibliography was designed specifically for faculty members or administrators involved in science, mathematics, engineering, and/or technology (SMET) interested in teaching and learning issues. Specifically, it addresses research, theory and/or practice in small groups, and cooperative instruction focusing on SMET disciplines in higher education. Cooperative learning is more structured and teacher-centered than many other forms of small-group teaching. It tends to emphasize formal instructional procedures and focus on individual accountability in course grading. Although this document focuses on cooperative learning, a number of sources addressing other small-group procedures are included since they are of interest to the audience. This document is not an exhaustive description of small- group instruction relating to SMET or the individual disciplines which SMET encompasses but rather the intent is to give readers a snapshot of historical and contemporary work in cooperative learning that furnishes a context from which to view the field. (YDS)
- Published
- 1997
46. Subscription to Norms and Counternorms of Academic Research: The Effects of Departmental Structure and Climate. ASHE Annual Meeting Paper.
- Author
-
Anderson, Melissa S. and Louis, Karen Seashore
- Abstract
This study examined the extent to which graduate students in science and engineering fields subscribe to the norms of research behavior which have been the basis of the freedom, self-direction, and self-regulation which characterize academic research. In particular the study focused on the relationship between academic departments' climates and structures, and the extent to which graduate students subscribe to either norms or counternorms of research. The norms have been defined as universalism (separation of scientific knowledge from personal characteristics), communality (sharing of findings and techniques), disinterestedness (separation of research from personal motives) and organized skepticism (critical, public examination of scientific work). Using a random sample of 2,000 graduate students, 500 each from 4 disciplines (microbiology, chemistry, sociology and civil engineering) from 98 graduate departments, surveys were sent to all by mail and a final response rate of 74 percent was achieved. Analysis demonstrated substantial ambivalence among graduate student about the traditional norms of academic research and also revealed the influence of departmental structure and climate on subscription to the norms. Significant differences were found in the normative orientations of the native versus international students. Included are six figures and 14 references. (JB)
- Published
- 1991
47. Making Recycled Paper: An Engineering Design Challenge
- Author
-
Song, Ting and Becker, Kurt
- Abstract
Science, technology, engineering, and mathematics (STEM) educators are facing the challenge of attracting more students. The disparity between the need for engineers and the enrollment of engineering students is growing (Genalo, Bruning, & Adams, 2000), and career aspirations of high school students are inconsistent with the employment projections for engineering-related careers (Sanoff, 2001). One solution to this problem is to infuse engineering content into K-12 curriculum. The curriculum unit presented in this article introduces middle school students to basic engineering concepts, i.e., the engineering design process, through an activity of making recycled paper. Hands-on activities and classroom presentations are combined, and the process of engineering design and mathematical analysis is presented in a real-world context.
- Published
- 2013
48. 360° Tour as an Interactive Tool for Virtual Laboratories: A Proposal
- Author
-
Hernández-Rodríguez, Felipe, Guillén-Yparrea, Nicia, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, González-González, Carina S., editor, Fernández-Manjón, Baltasar, editor, Li, Frederick, editor, García-Peñalvo, Francisco José, editor, Sciarrone, Filippo, editor, Spaniol, Marc, editor, García-Holgado, Alicia, editor, Area-Moreira, Manuel, editor, Hemmje, Matthias, editor, and Hao, Tianyong, editor
- Published
- 2023
- Full Text
- View/download PDF
49. Using a MOOC to Train Teachers to Design and Deliver MOOCs
- Author
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Vaz de Carvalho, Carlos, Andone, Diana, Mihaescu, Vlad, Hakan Aydin, Cengiz, Toprak, Elif, Genc-Kumtepe, Evrim, Zubikova, Olga, Brueggemann, Tim, Intveen, Sonja, Butkiene, Rita, Gudoniene, Daina, Dambrauskas, Edgaras, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, González-González, Carina S., editor, Fernández-Manjón, Baltasar, editor, Li, Frederick, editor, García-Peñalvo, Francisco José, editor, Sciarrone, Filippo, editor, Spaniol, Marc, editor, García-Holgado, Alicia, editor, Area-Moreira, Manuel, editor, Hemmje, Matthias, editor, and Hao, Tianyong, editor
- Published
- 2023
- Full Text
- View/download PDF
50. Prospects for Integrating Reliability and Maintainability into Undergraduate Engineering Curricula. Final Technical Paper for Period June-December 1989.
- Author
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Air Force Human Resources Lab., Brooks AFB, TX., Systems Exploration, Inc., Dayton, OH., Shapiro, Harvey T., and Loose, Donald R.
- Abstract
The "RAMCAD" workshop summarized in this document reviewed the prospects for integrating reliability and maintainability into undergraduate engineering curricula. RAMCAD stands for Reliability, Availability, and Maintainability in Computer-Aided Design. The workshop was sponsored by Air Force human resources departments and attended by a cross-section of university faculty members, industrial organizations, and other Air Force organizations. The paper briefly describes the goals and organizational format for the workshop and then provides synopses of participants' presentations and panel discussion. A final section offering conclusions observes that because academic and government participants disagree as to the best approach for integrating reliability and maintainability into the engineering curriculum, and due to the complexity of the issues, none of the suggestions discussed at the workshop promise to be effective in the near term though they may have significant impact by the turn of the century. Appendixes list participants and contain the workshop agenda. (JB)
- Published
- 1990
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