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Full-Text Articles in Engineering

The Weather And Air Traffic Management Integration Course In The Graduate Aeronautics Program At Embry-Riddle, John Lanicci Jun 2015

The Weather And Air Traffic Management Integration Course In The Graduate Aeronautics Program At Embry-Riddle, John Lanicci

John M Lanicci

One year ago, Embry-Riddle Aeronautical University added a new Area of Concentration (AOC) in Aviation Meteorology to the Master of Science in Aeronautics (MSA) program at the Daytona Beach, Florida campus. As part of the preparation for the start of this program, an experimental graduate seminar in Weather and Air Traffic Integration was taught over the summer, which attracted graduate students with backgrounds in commercial and private aviation, applied meteorology, and engineering physics. The purpose of this course was to introduce the students to the concept of weather and air traffic integration as it currently exists and is being planned ...


Supporting Teacher Orchestration In Ubiquitous Learning Environments: A Study In Primary Education, Juan Muñoz Cristóbal, Ivan Jorrín Abellán, Juan Asensio Perez, Alejandra Martínez Monés, Luis Prieto, Yannis Dimitriadis Dec 2014

Supporting Teacher Orchestration In Ubiquitous Learning Environments: A Study In Primary Education, Juan Muñoz Cristóbal, Ivan Jorrín Abellán, Juan Asensio Perez, Alejandra Martínez Monés, Luis Prieto, Yannis Dimitriadis

Ivan M. Jorrín Abellán

During the last decades, educational contexts have transformed into complex technological and social ecologies, with mobile devices expanding the scope of education beyond the traditional classroom, creating so-called Ubiquitous Learning Environments (ULEs). However, these new technological opportunities entail an additional burden for teachers, who need to manage and coordinate the resources involved in such complex educational scenarios in a process known as “orchestration”. This paper presents the evaluation of the orchestration support provided by GLUEPS-AR, a system aimed to help teachers in the coordination of across-spaces learning situations carried out in ULEs. The evaluation, following an interpretive research perspective, relied ...


A Whole New Engineer, David Goldberg, Mark Somerville Oct 2014

A Whole New Engineer, David Goldberg, Mark Somerville

Mark Somerville

A Revolution Is Coming. It Isn’t What You Think. This book tells the improbable stories of Franklin W. Olin College of Engineering and the iFoundry incubator at the University of Illinois. That either one survived is story enough, but what they found out together changes the course of education transformation forever: How trust is key to unleashing young, courageous engineers. How engineers need to move from a narrow technical education to one that actively engages six minds. How emotion and culture–not content, curriculum & pedagogy–are the crucial elements of change. How all stakeholders can collaborate to disrupt the ...


Olin College: Re-Visioning Undergraduate Engineering Education, Lynn Stein, Mark Somerville, Jessica Townsend, Vincent Manno Jun 2014

Olin College: Re-Visioning Undergraduate Engineering Education, Lynn Stein, Mark Somerville, Jessica Townsend, Vincent Manno

Jessica Townsend

The Franklin W. Olin College of Engineering was created to address several perceived needs for engineering graduates of the future and to be an experimental laboratory for engineering education. As such, Olin College is not only dedicated to innovation within its boundaries but also to catalyzing change throughout the engineering enterprise. The curriculum aims to support life-long learning, teamwork, communication, and contextual understanding, along with rigorous quantitative and qualitative skills.


Olin College: Re-Visioning Undergraduate Engineering Education, Lynn Stein, Mark Somerville, Jessica Townsend, Vincent Manno Jun 2014

Olin College: Re-Visioning Undergraduate Engineering Education, Lynn Stein, Mark Somerville, Jessica Townsend, Vincent Manno

Vincent P. Manno

The Franklin W. Olin College of Engineering was created to address several perceived needs for engineering graduates of the future and to be an experimental laboratory for engineering education. As such, Olin College is not only dedicated to innovation within its boundaries but also to catalyzing change throughout the engineering enterprise. The curriculum aims to support life-long learning, teamwork, communication, and contextual understanding, along with rigorous quantitative and qualitative skills.


Olin College: Re-Visioning Undergraduate Engineering Education, Lynn Stein, Mark Somerville, Jessica Townsend, Vincent Manno Jun 2014

Olin College: Re-Visioning Undergraduate Engineering Education, Lynn Stein, Mark Somerville, Jessica Townsend, Vincent Manno

Lynn Andrea Stein

The Franklin W. Olin College of Engineering was created to address several perceived needs for engineering graduates of the future and to be an experimental laboratory for engineering education. As such, Olin College is not only dedicated to innovation within its boundaries but also to catalyzing change throughout the engineering enterprise. The curriculum aims to support life-long learning, teamwork, communication, and contextual understanding, along with rigorous quantitative and qualitative skills.


Olin College: Re-Visioning Undergraduate Engineering Education, Lynn Stein, Mark Somerville, Jessica Townsend, Vincent Manno Jun 2014

Olin College: Re-Visioning Undergraduate Engineering Education, Lynn Stein, Mark Somerville, Jessica Townsend, Vincent Manno

Mark Somerville

The Franklin W. Olin College of Engineering was created to address several perceived needs for engineering graduates of the future and to be an experimental laboratory for engineering education. As such, Olin College is not only dedicated to innovation within its boundaries but also to catalyzing change throughout the engineering enterprise. The curriculum aims to support life-long learning, teamwork, communication, and contextual understanding, along with rigorous quantitative and qualitative skills.


Developing A Small-Footprint Bioengineering Program, Alisha Sarang-Sieminski, Debbie Chachra Sep 2013

Developing A Small-Footprint Bioengineering Program, Alisha Sarang-Sieminski, Debbie Chachra

Alisha L. Sarang-Sieminski

The field of bioengineering is rapidly changing and expanding to include not only more traditional bioengineering applications (e.g. device-focused areas such as prosthetics, imaging) but also more recent sub-fields and technologies(e.g. more biologically-focused areas such as those enabled by tissue engineering and microfluidics). This rapid change, coupled with the intrinsically interdisciplinary nature of bioengineering, presents a unique challenge to the developers of academic programs, as they need to both select relevant content and strike a balance between depth and breadth. We, the architects of the bioengineering program at the undergraduate-only Franklin W. Olin College of Engineering, which ...


Beyond Course-Based Engineering Ethics Instruction Commentary On “Topics And Cases For Online Education In Engineering”, Debbie Chachra Jul 2012

Beyond Course-Based Engineering Ethics Instruction Commentary On “Topics And Cases For Online Education In Engineering”, Debbie Chachra

Debbie Chachra

Discusses how online forums and materials could be used to enhance face-to-face courses in engineering and science ethics.


Transferring Advanced Physics Research Tools To Education: How To Teach Simulation Tools Used In Radiation Physics Research To University Students, Susanna Guatelli, Catherine Layton, Dean Cutajar, Anatoly Rosenfeld Jan 2012

Transferring Advanced Physics Research Tools To Education: How To Teach Simulation Tools Used In Radiation Physics Research To University Students, Susanna Guatelli, Catherine Layton, Dean Cutajar, Anatoly Rosenfeld

Dean Cutajar

At the Centre of Medical Radiation Physics (CMRP), School of Engineering Physics, Faculty of Engineering, at the University of Wollongong (UOW), we are implementing a hands-on computing laboratory, commencing in autumn 2010, to teach scientific computing methods and modern, advanced research tools for radiation physics to postgraduate and undergraduate students. Engaging undergraduates and postgraduates together in work with a tool widely used in research laboratories is a unique development, and represents the articulation of the University’s commitment to the enhancement of the teaching/research nexus, and to the development of learning communities. The object of the laboratory is to ...