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Full-Text Articles in Engineering
Mechatronics Education At Kettering University: Development Of Learning- Specific Hardware And Software, Jeffrey Hargrove, Theodore J. Stokes
Mechatronics Education At Kettering University: Development Of Learning- Specific Hardware And Software, Jeffrey Hargrove, Theodore J. Stokes
Jeffrey Hargrove
A series of learning-specific electronic circuit boards and associated software has been developed to support mechatronics education in the Mechanical Engineering Department at Kettering University. The boards are designed to interface to the Toshiba TLCS-900H Microprocessor Trainer and Evaluation Board. The purpose of these boards is to provide mechanical engineering students of mechatronics with robust hardware that readily permits interfacing of sensors and actuators to microcontrollers used in mechatronic applications. Further, the boards feature signal conditioning circuits for use in conjunction with sensors, and driver circuits for operating high-current actuating devices. Supporting software has been written to permit ready use …
Development And Implementation Of Mechatronics Education At Kettering University, Jeffrey Hargrove
Development And Implementation Of Mechatronics Education At Kettering University, Jeffrey Hargrove
Jeffrey Hargrove
The Mechanical Engineering Department at Kettering University has completed development of a significant new component of education in mechatronics. The work began in the fall of 1997 as the principal part of an award for “Instrumentation and Laboratory Improvement” by the Division of Undergraduate Education of the National Science Foundation. It has culminated with the successful implementation of two undergraduate courses in mechatronics, two mechatronics laboratories and a website to support the educational endeavors of the mechatronics students. As will be described in this paper, the first course and its laboratory exercises are designed specifically to provide the students with …
Initial Results From The First National Survey Of Student Outcomes From Small Satellite Program Participation, Jeremy Straub
Initial Results From The First National Survey Of Student Outcomes From Small Satellite Program Participation, Jeremy Straub
Jeremy Straub
This paper presents initial results of the first national / international survey of student participants in CubeSat and other small spacecraft programs. It aims to make portions of the results of the survey available for immediate use by the CubeSat / small spacecraft community prior to the completion of a thorough analysis of the results and consideration of correlating and prospective causation factors for various outcomes.
Integrating Games To Teach A First Programming Course, Soumia Ichoua
Integrating Games To Teach A First Programming Course, Soumia Ichoua
Soumia Ichoua
In the past few years, there has been an increased interest in game-based learning as a powerful tool to stimulate students’ interest and promote their engagement in the learning process. In this paper, we discuss our experience in integrating gaming to teach a first programming course. The course is restructured and redesigned to allow teaching the basics of programming through games. Students actively use fundamental programming concepts learned to modify and create two dimension games using C# and XNA with .Net framework. This is an on-going work. Surveys and worksheets are developed to be used in assessing the effectiveness of …
A Whole New Engineer, David Goldberg, Mark Somerville
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 status quo.status …
Flipped Technological Training And Development Using Quality Systems Management In The Public Services Field, Dustin Bessette, Sharon Burton, Maurice Dawson
Flipped Technological Training And Development Using Quality Systems Management In The Public Services Field, Dustin Bessette, Sharon Burton, Maurice Dawson
Maurice Dawson
Training and development is ideal for businesses process improvements in many public service fields. Education, development, and training tools are not new concepts, but are ideal, crucial, and responsive in the central utilization of employee training systems for public service fields. The need for public workforce has increased and demanded accelerated technological training and development process that have positive value and achievable gains. One method to surge this problem is to flip the technological training and development tools that have been issued and over used in the past. These tools not only hold back vicious potential from employees, but employees …
Olin College: Re-Visioning Undergraduate Engineering Education, Lynn Stein, Mark Somerville, Jessica Townsend, Vincent Manno
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
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
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
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.
A Proposed Learner-Centered Mechatronics Engineering Instructional Program, Patrick N. Currier, Richard Goff, Janis Terpenny
A Proposed Learner-Centered Mechatronics Engineering Instructional Program, Patrick N. Currier, Richard Goff, Janis Terpenny
Patrick N. Currier
This paper examines the need and requirements for a mechatronics degree program. The results of a survey of the few existing programs in this field are provided. Then, using a case study example for Virginia Tech, a proposed mechatronics curriculum based on a learner-centered paradigm is described. The curriculum combines existing courses in mechanical, electrical, and computer engineering with new, hands-on courses to provide students with a chance to practice and explore the subject matter in ways consistent with the demands of both industry and accreditation. This program, if implemented, could provide a university with a unique offering to attract …
Risk Analysis & Management In Student-Centered Spacecraft Development Projects, Jeremy Straub, Ronald Fevig, James Casler, Om Yadav
Risk Analysis & Management In Student-Centered Spacecraft Development Projects, Jeremy Straub, Ronald Fevig, James Casler, Om Yadav
Jeremy Straub
Student involvement in any engineering project introduces an element of risk. This risk is particularly pronounced with small spacecraft projects, as a failure of the spacecraft on-orbit can result in a complete failure of the mission. However, student involvement in these projects is critical to allow research aims to be accomplished, in a university setting, and to train the next generation of spacecraft engineering professionals. The nature of risks posed by student involvement is discussed and a framework for assessing and mitigating these risks presented.