Synthesis of parallel algorithms for field programmable gate arrays, with applications from cryptography

EThOS - Electronic Theses Online ServiceGBUnited Kingdo

Extending STEM Education to Engineering Programs at the Undergraduate College Level

Science, technology, engineering, and mathematics (STEM) education is gaining wide attention. STEM education assimilates rigorous disciplines and requires diverse skills. Effort to promote and integrate STEM education in schools has been significant during the recent years. This paper investigates promoting students interest in STEM beyond the K-12 levels outside the US. The investigation targets the American University of Kuwait, where the educational community in general, and the students in particular, are faced with different challenges. Comprehensive proposals are suggested to extend STEM education to be part of the Engineering programs at the undergraduate level, with focus on Electrical, Computer, and Systems Engineering. Remedies for overcoming the weak background in mathematics and sciences, for many students, are explored. In addition, parallel laboratory-based educational components are applied, for selected courses, to enhance the technological aspects via providing deep hands-on experience and exposure to real-life scenarios. Incorporating STEM education in courses/labs, academic activities, extracurricular activities, capstone design projects, internships, and satisfying accreditation requirements are addressed. A thorough discussion is presented to include analysis of best practices, evaluations, examples, and case studies from the local and regional institutions

Extending STEM Education to Engineering Programs at the Undergraduate College Level

Science, technology, engineering, and mathematics (STEM) education is gaining wide attention. STEM education assimilates rigorous disciplines and requires diverse skills. Effort to promote and integrate STEM education in schools has been significant during the recent years. This paper investigates promoting students interest in STEM beyond the K-12 levels outside the US. The investigation targets the American University of Kuwait, where the educational community in general, and the students in particular, are faced with different challenges. Comprehensive proposals are suggested to extend STEM education to be part of the Engineering programs at the undergraduate level, with focus on Electrical, Computer, and Systems Engineering. Remedies for overcoming the weak background in mathematics and sciences, for many students, are explored. In addition, parallel laboratory-based educational components are applied, for selected courses, to enhance the technological aspects via providing deep hands-on experience and exposure to real-life scenarios. Incorporating STEM education in courses/labs, academic activities, extracurricular activities, capstone design projects, internships, and satisfying accreditation requirements are addressed. A thorough discussion is presented to include analysis of best practices, evaluations, examples, and case studies from the local and regional institutions