Transnational engineering education requires teachers that are able to merge the unique engineering needs of their local country with best practices and techniques for fostering global awareness and preparedness in engineering students. Rapid computerization and the opening of previously closed markets helped the large multi-national corporation become a common model for engineering in the twenty-first century. Graduates must understand that social, cultural, economic, and political differences will affect and shape their careers in ways that previous generations of engineers may not have faced. Mandatory requirements help ensure that students receive opportunities for transnational study or, at the least, exposure to transnational topics. Engineering educators, however, must also be prepared. Engineering professional societies provide substantial continuing education, peer-networking, reference literature, and humanitarian opportunities to help educators stay current and prepared to talk about topics and trends in global engineering. In this paper, the IEEE and the IEEE Education Society are presented as examples of such transnational cooperation
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1. @ieec.uned.es 1 IEEE and IEEE Education Society and their Participation in Professional Activities Manuel Castro, UNED, IEEE Fellow IEEE Spain Section Chair IEEE Spanish Chapter of the Education Society Founder Education Society Vice-President mcastro@ieec.uned.es
2. Introduction Education of engineers is a priority for both: emerging and industrialized nations >>> Global Engineering Education http://en.wikipedia.org/wiki/Global_Engineering_Education IEEE 2
3. Introduction (2) From Education to Conferences and Forums >>> Global Engineering Education http://www.educon-conference.org/ IEEE 3
7. Engineering Education response to Globalization Researching pedagogical methods for using the same enabling technologies that led to globalization as tools in both on-campus virtual classrooms IEEE 7 7
9. Countries’ response to Globalization Encouraging or requiring training in global and cultural awareness IEEE 9
10. IEEE 10
11. The role of Professional Associations International professional associations can be leaders in cooperation between countries IEEE 11
12. Definition. A society is "a structured community of people bound together by similar traditions, institutions, or nationality" "an organized group of people who share an interest, aim, or profession” IEEE Engineering Societies 12
13. Engineering Societies The associative view of professionally involved people can be reproduced in any field of human behaviour including: technical work sports recreational topics and volunteer aspects of life IEEE 13
15. Professional Societies IEEE, an organization focused on electrical, computer, and electronic engineering ASME, an organization focused on mechanical engineering ACM, an organization focused on computer science and informatics IEEE 15
16. Professional Societies IFAC, an organization focused on control engineering ISES, an organization focused on solar energy engineering applications ASEE, an organization focused on engineering education applications IEEE 16
17. Professional Societies A few of these organizations retain the word "American" in their names But in general have a global view and work toward commonality around the world IEEE 17 17
18. Some are not globalized A vision more closely tied to a cultural or geographic area, sharing similar objectives Each focuses on the unique attributes of their regional members SEFI, an organization focused on engineering education applications in Europe FACU, an organization focused on university professor issues in Spain 18
20. 407,541 members 160 countries 331 Sections in 10 Geographic Regions worldwide Nearly 2,000 student branches (chapters) in 80 countries 125 years of history IEEE Today 20
21. 38 societies and 7 technical councils representing the wide range of technical interests 338 affinity groups (non-technical sub-units of one or more Sections or a Council) IEEE is a leading developer of industrial standard with a portfolio of more than 900 active standards and more than 400 standards in development IEEE Today 21
22. IEEE publishes more than 1,000 leading-edge conference proceedings every year Over 100,000 technical professionals whom attend the conferences sponsored or co-sponsored by the IEEE in 73 countries IEEE produces 30% of the world's literature in the electrical and electronics engineering and computer science fields, publishing well over 100 peer-reviewed journals The IEEE Xplore Digital Library provides access to over 2.5 million documents including research articles, standards, transactions and conference publications 140 transactions, journals and magazines published annually IEEE Today 22
28. Why Publishing with IEEE? 28 IEEE is by far the most-cited publisher in new patents, according to recent studies by 1790 Analytics LLC. IEEE journals and conference proceedings received more than 96,000 patent citations - more than 4 times the number of citations of any other publisher IEEE produces 30% of the world's literature in the electrical and electronics engineering and computer science fields, publishing well over 100 peer-reviewed journals IEEE
29. IEEE Xplore Digital Library 29 The IEEE Xplore Digital Library provides access to over 2.5 million documents including research articles, standards, transactions and conference publications More than 7 million downloads each month More than 1,000 conference proceedings titles are published each year 140 transactions, journals and magazines published annually Visit the IEEE Xplore Digital Library IEEE
30. IEEE Spectrum Magazine 30 The official IEEE magazine Has a circulation of over 380,000 engineers worldwide, making it one of the leading science and engineering magazines Covers a wide variety of technical issues and advances in computers, communications and electronics IEEE
32. IEEE Conferences 32 IEEE publishes more than 1,000 leading-edge conference proceedings every year Over 100,000 technical professionals whom attend the conferences sponsored or co-sponsored by the IEEE in 73 countries The papers are authored by innovators of today's top emerging technologies Most IEEE conferences follow a paper selection process and many have peer-review procedures IEEE
33. IEEE Standard Association 33 IEEE is a leading developer of industrial standard with a portfolio of more than 900 active standards and more than 400 standards in development The IEEE-SA cooperates with standards developing groups throughout the world in preparing standards encompassing areas of interest within the IEEE IEEE
34. IEEE 34
35. IEEE 35
36. IEEE Technical Councils IEEE 36 IEEE Biometrics Council: to advance and expand IEEE’s role in the field of biometrics technologies IEEE Council on Electronic Design Automation: Its objectives include fostering design automation of electronic circuits and systems at all levels, by means of publications, conferences/workshops and volunteer activities
37. IEEE Technical Councils 37 IEEE Sensors Council: The fields of interest are the theory, design, fabrication, manufacturing and application of devices for sensing and transducing physical, chemical, and biological phenomena IEEE Council on Superconductivity: The field of interest are to cover the science and technology of superconductors and their applications IEEE
38. IEEE Technical Councils 38 IEEE Systems Council: This Council integrates IEEE activities regarding aspects of multiple disciplines and specialty areas associated with the engineering of systems IEEE Nanotechnology Council: Thefield of interest are the theory, design, and development of nanotechnology and its scientific, engineering, and industrial applications IEEE
39. IEEE Technical Councils 39 IEEE Technology Management Council: The field of interest of the Council encompasses the management sciences and practices applicable to individuals engaged in or overseeing the management of engineering, technology, innovation, and strategy in a global environment IEEE
45. IEEE Womenin Engineering (WIE) 43 IEEE Women in Engineering (WIE) is the largest international professional organization dedicated to promoting women engineers and scientists The mission of IEEE WIE is to facilitate the recruitment of women in technical disciplines, using their diverse talents to innovate for the benefit of humanity IEEE
46. Employment Resources 44 Search job listings from almost 3,000 employers who have posted their open positions directly on the IEEE Job Site Search academic job listings from institutions worldwide IEEE
47. Employment Resources 45 Search entry-level jobs posted by employers, IEEE Student Branches & the AfterCollege job network Search internship opportunities posted by employers, IEEE Student Branches & the AfterCollege job network Search job listings from all U.S. and Canadian newspaper, niche, magazine, and TV station web sites powered by Adicio Inc. IEEE
49. The role of Education Important for engineering professional associations Most of the worldwide associations recognize the importance of education: continuing education of members community outreach and education of university students 47 IEEE
50. The role of Education Many IEEE societies and councils provide some degree of transnational continuing education 48 IEEE
51.
52. In fact, the special-interest groups of IEEE publish almost one third of the world's literature in the IEEE fields of interest sponsor more than 900 professional events around the world every year! Including internationally recognized continuing education units (CEUs) 49 IEEE
53. The role of Education These events foster interaction IEEE from different geographical regions and cultures 50
54. IEEE Student branches Student Branches provide an opportunity for student members to begin networking in their areas of interest, and future profession There are nearly 2,000 student branches in 80 countries, at various educational institutions IEEE 51
55. Attract younger students Is a critical issue for engineering technical societies throughout the world It is essential for the future of the profession to bring the best minds into engineering IEEE 52 52
56. Teacher In Service Program(TSIP) IEEE has centrally coordinated services available to assist educators and students at the pre-university levels: TISP (Teacher In Service Program) TryEngineering.org Engineering Projects in Community Service (EPICS) IEEE 53
57. Attract younger students The Teacher In-Service Program (TISP) provides a professional development workshop for IEEE volunteers to bring exciting hands-on engineering lessons into their classrooms by sharing their real-world experiences with local pre-university teachers IEEE 54
58. TryEngineering.org A career discovery product that allows students, parents, and educators to learn about careers in engineering IEEE 55
59. EPICS program Encourages and supports IEEE members working with youth on projects that help local humanitarian organizations improve the community IEEE 56
60. IEEE Islands in Second Life It is an online 3-D virtual community where IEEE members gather in a single location These members, known as “island residents,” choose virtual characters, or “avatars,” for themselves that allow them to explore the islands Residents can set up virtual meetings (complete with PowerPoint presentations and video), chat with other members, and more IEEE 57
61. IEEE Online communities It is a social and professional network for IEEE members It consists of virtual communities which gather members of same interests There are no geographical boundaries or time restrictions allowing you to participate anytime and anywhere through the Internet IEEE 58
62.
63. IEEE Education Society Vision The IEEE Education Society strives to be the global leader in engineering education Mission The IEEE Education Society is an international organization that promotes, advances, and disseminates state-of-the-art information and resources related to the Society’s field of interest and provides development opportunities for academic, industry, and government professionals 61
64. IEEE Education Society Is a medium-sized society founded as a community in 1957 It has nearly 3,500 members that are currently engineering educators or have an interest in engineering education IEEE 62 62
65.
66. The FIELD OF INTEREST is the theory and practice of education educational technology involved in the effective delivery of domain knowledge of all fields within the scope of interest of IEEE Examples: laboratory instruction, curriculum design, distance learning, Web 2.0 learning, pedagogy 64 IEEE Education Society 64
67. IEEE Education Society Nearly 80 chapters provide local activities to members The governing body of the society coordinates international services and professional development events IEEE 65 65
68. International Cooperation The society plays an important role in international cooperation as shown in its vision: “The IEEE Education Society strives to be the global leader in engineering education” EdSoc is indeed a global community IEEE 66
70. EdSoc Peer Reviewed Journals IEEE Transactions on Education [1958] Focus on Field of Interest Pioneering effort that has inspired other refereed Engineering Education Journals IEEE-RITA (Revista Iberoamericana de Tecnologías del Aprendizaje) (Latin-American Learning Technologies Journal) [2006] Focused on Latin America, Spain & Portugal Published quarterly Launched by Spanish Chapter of IEEE Education Society 68
71. IEEE Transactions on Learning Technologies [2008] Joint publication with IEEE Computer Society Computer technologies used to deliver engineering education to students IEEE Multidisciplinary Engineering Education Magazine (MEEM) [2006] Online student professional journal Published 4 times per year Forum for new engineering educators and students to discuss the challenges facing the next generation of engineering educators 69 EdSoc Peer Reviewed Journals 69
73. 40 years of history Vision: Premier forum for computing, engineering, and technology education professionals to: learn best practices and innovations enable better teaching and learning share ideas and foster community 600 Participants, 400 Peer Reviewed Papers, Works-in-progress, Workshops & Special Sessions 2011 Rapid City, SD / 2012 Seattle, Wa 2013 Oklahoma City, OK / 2014 Madrid, Spain 71 Frontiers in Education 71
74. Annual Global Engineering Education Conference The IEEE EDUCON conference will provide a forum for academic, research and industrial collaboration on global engineering education Sponsored by the IEEE Education Society International audience of 300 participants with 70% from Europe (half of them from Spain) 20% from the United States 10% from the rest of the world (EDUCON 2010) 72
75. ICECE 2009 (Argentina) Intertech 2010 (Brazil) TAEE 2008 (Tecnologías Aplicadas a la Enseñanza de la Electrónica – Technologies Applied to Electronics Teaching) (Spain) TAEE 2010 (Madrid, Spain) FINTDI 2011 (Teruel, Spain) TAEE 2012 (Vigo, Spain) 73 EdSoc as Technical Co-Sponsor 73
76. 8 prestigious awards to recognize efforts that Improve the Society Improve Engineering Education Region 8 well represented Outstanding Chapter Leadership Edwin C. Jones, Jr. Distinguished Service Distinguished Member Chapter Achievement Distinguished Lecture Program Awards and Recognition 74
77. The importance of IEEE Education Society chapters Chapters are technical units allocated to the IEEE region Spanish Chapter in IEEE Region 8 the largest IEEE Education Society chapter in the world with nearly 200 members IEEE 75
79. Awards Within the topics of the IEEE Education Society Best Spanish Major Master final work Best Spanish Ph.D. IEEE 77
80. Other activities Driving force behind the creation of the IEEE-RITA electronic journal Encourages, promotes, and supports educational research and innovative projects IEEE 78
81. IEEE EdSoc Milwaukee Chapter Organizes and sponsors an annual research and design poster competition Open to undergraduate students that have finished their engineering design project Open to graduate students documenting their masters or doctoral research work IEEE 79 79
82. IEEE Student Branches Student branches are organizational units attached to universities IEEE student branch of UNED is a model of how students can provide continuing education to each other by extending and expanding upon their classroom learning IEEE 80
85. IEEE Student Branch of UNED Projects SSETI SWARM Bionic hand Cell phone recycling for powering a robot IEEE 83
86. IEEE Student Branch of UNED Workshops Robotics Open Source SW Web Design Programming Security Networks … IEEE 84 84
87. Other activities IEEE 85 Events National Congress of Student Branches Xuventude Galicia 2009 (Robotics) Own publications Digital Journal By and for students 85
88. IEEE Student Branch of UNED Many of them are IEEE Education Society members They are creating an official Education Society Student Branch Chapter IEEE 86
89. Globalization versus Glocalization A focus on globalization has advantages because the worldwide community works to develop products with commonalities so that they can share those applications and ideas in any part of the world Challenges appears when implementing activities because of cultural, social, or political differences IEEE 87
91. Globalization vs. Glocalization Glocalization tries to avoid these challenges by including local cultural information social views low level local management plan in the design of any global product or service IEEE 89 89
92. Glocalization goal Keep focus with the worldwide people grouped in the society The different cultural and local vision can add some unique approaches that are more adjusted to the specific needs of the local group IEEE 90
93. Glocalization examples TISP - Teacher In-Service Program Training where IEEE is trying to improve the total worldwide number of young students attracted to study engineering based on a "train the trainers" model. It focuses on helping teachers in the secondary level acquire the capacities and competences to introduce engineering in the classroom IEEE 91
94. TISP General program was initiated and developed inside the IEEE headquarters Plan for the local implementation is developed at the local section site Sharing and adapting at the same time the most successful practices from other geographic areas 92 92
95. TISP application United States South Africa In expansion African countries Portugal Spain Saudi Arabia IEEE 93
96. TISP Local flavor based on their geographical area when developing examples and methods: Some places: Robots (because local industry) Others: Wi-Fi or communications systems Developing countries: infrastructure and food production IEEE 94 94
97. Other uses of TISP Continuing education for senior IEEE members To help them stay current and increase their interest in community service by introducing teachers to new engineering topics IEEE 95
98. IEEE Emerging Fields Biometrics Digital Rights Management (DRM) Display Technologies Distributed Diagnosis and Home Healthcare Earth Observations Electric Ship Electronic Health Records Electronics Recycling Hydrogen Economy and Alternative Fuels Organic Electronics Plug-In Hybrid Electric Vehicles (PHEVs) Portable Information Devices Remote Sensing RFID Smart Grids Terabit Networks Wind Power Wireless Fidelity – Wi-Fi Fingerprinting
99. Conclusions In addition to technical knowledge, today's engineering educators must provide students with key knowledge of cultural, social, and political issues needed to succeed in the modern global engineering marketplace IEEE 97 97
100. Conclusions This requires a level of continuing education for teachers International engineering professional societies plan and implement a number of continuing education products that can help educators stay current IEEE 98 98
101. Conclusions As an example, IEEE Publishes standards and best practices published To help educators ensure worldwide continuity In some countries, IEEE plays a role in curriculum design and accreditation IEEE 99 99
102. Conclusions Recruiting and retention programs developed by IEEE help educators learn effective techniques to encourage youth to become engineers So that their country and the world continues to advance IEEE 100 100
103. Conclusions Continuing education products and peer-networking events offered by IEEE and the IEEE Education Society foster interaction between educators by providing forums for discussion and collaboration IEEE 101 101
104. Our goal Break down transnational educational borders by sharing knowledge and skills IEEE Questions and Comments ? 102
105. @ieec.uned.es 103 IEEE and IEEE Education Society and their Participation in Professional Activities Manuel Castro, UNED, IEEE Fellow IEEE Spain Section Chair IEEE Spanish Chapter of the Education Society Founder Education Society Vice-President mcastro@ieec.uned.es 103
106. Paper reference ICEUTE 2010 - Co-authors – Susan Lord and Russ Meier (IEEE) >>>>>>>>> http://www.slideshare.net/mmmcastro IEEE 104
Hinweis der Redaktion
Ask the audience why a society for teacher’s should exist. Get their responses and validate them.
Ask the audience why a society for teacher’s should exist. Get their responses and validate them.
IEEE has grown to beStandards to enforce quality design practice, ensure interoperability and marketability, global Networking millions of people each year
Ask the audience why a society for teacher’s should exist. Get their responses and validate them.
Topics:Engineering Education, primarily at the university levelK-12 and Engineering TechnologyTypically held in the U.S. in October
Note that not all awards require you to be a society member. Note that the distinguished lecture program exists. Describe it and how it could be used by members.