Collection

2021 Fall ASEE Middle Atlantic Section Meeting

Authors

Otily Toutsop, Morgan State University; Rachida Satio Constance Kone, Morgan State University; ketchiozo wandji; Kevin Kornegay, Morgan State University; Caroline Kinyanjui, Morgan State University; Vinton Amsley Morris; Jay Jemal; Javaun Rose, Morgan State University

Paper ID #35701A Capstone Project: Designing an IoT Threat Modeling to PreventCyber-attacksMs. Otily Toutsop, Morgan State University Otily Toutsop is a Ph.D. student with a concentration on secure embedded systems in the Electrical and Computer Engineering department at Morgan State University. She is also affiliated with the Cybersecu- rity Assurance and Policy (CAP) center. She received her bachelor’s degree in Computer Science. Her research interests focus on IoT Security, machine learning, artificial intelligence, cyber-physical system, software security, home automation systems, and networking security. Her work has

Collection

2021 Fall ASEE Middle Atlantic Section Meeting

Authors

Yu Wang, New York City College of Technology; Benito Mendoza, New York City College of Technology; Farrukh Zia, New York City College of Technology

are described and students' competencies are discussed. Finally,the conclusions of our work are summarized, and a short discussion is presented.Online hands-on embedded system project lab designA. ChallengeEngineering Technology students benefit from hands-on laboratory education and take-homeproject. As part of the requirements of the AAS in the EMT capstone hands-on project lab, studentsmust connect the electronics components and devices correctly on the breadboard. Students mustknow how to use basic instrumentation to test and monitor the embedded system, such as to usean oscilloscope, function generator, power supply, and multimeter. The students also need to knowhow to write and debug programs to control electromechanical devices, such

Collection

2021 Fall ASEE Middle Atlantic Section Meeting

Authors

Zhiyuan Yu; Jiawei Gong, Pennsylvania State University, Behrend College

Jiawei Gong yuz29@miamioh.edu jzg317@psu.edu Engineering Technology Mechanical Engineering Miami University, Middletown, OH 45011 Penn State University, Erie, PA 16510 Abstract This research presents analysis of a quick return linkage mechanism utilizing computationalsoftware Mathcad and Inventor. It is implemented as a class project to enhance MechanicalEngineering and Mechanical Engineering Technology students’ understanding of linkagemechanism in courses Dynamics and Machine Dynamics. The objectives of the project are toteach (1) kinematic and kinetic analysis of linkage mechanism (2

Collection

2021 Fall ASEE Middle Atlantic Section Meeting

Authors

Sadan Kulturel-Konak, Pennsylvania State University, Berks Campus

]. Traditional classroom teaching is often based on lecturing and examinations; therefore, theymight lack going beyond teaching students technical and discipline-specific skills.On the other hand, student competitions go beyond and offer students soft skills, which are thekey to successful experiential learning [6]. In engineering education, senior capstone projectshave become typical venues for teaching soft skills as well; however, these are often still limitedwith class-time and curriculum expectations [7]. Capstone projects, by nature, are towards theend of students’ educational careers, and therefore, students may not have time to practice thesoft skills they just have exposure. Earlier research shows that students’ ability to understandethical

Collection

2021 Fall ASEE Middle Atlantic Section Meeting

Authors

Mohammad Abu Rafe Biswas, The University of Texas at Tyler; Aws AlShalash

project and research students.Aws AlShalash American c Society for Engineering Education, 2021 Improve Technical Communication using Scaffolding Method in Mechanical Engineering CoursesAbstractOne of the most effective and well documented ways, throughout literary sources, to educate anddevelop capable and independent professionals such as engineers combines lecture sessions withstep-by-step synergistic activities (experiments and reports). Therefore, many engineeringeducators are seeking experiential learning techniques and implementations that are innovative toassist students understand, exercise, and communicate engineering concepts they

Collection

2021 Fall ASEE Middle Atlantic Section Meeting

Authors

Rafic Bachnak P.E., Pennsylvania State University, Harrisburg, The Capital College

experiments on campus, six experiments that involved analysis andsoftware simulation, and a final project with an oral presentation. Some final projects includedhardware and software while others were limited to circuit design and software simulation. Thispaper briefly describes six remotely performed exercises that used Multisim to perform circuitanalysis and simulation and help students learn the course material. While there were severalchallenges, overall students were able to perform the experiments and successfully complete afinal project.IntroductionA report by the United Nations estimated that closures of schools and other learning spaces dueto the COVID-19 pandemic impacted 94% of the world’s student population in 2020 [1]. Thisincluded a

Collection

2021 Fall ASEE Middle Atlantic Section Meeting

Authors

Kiril Alexandrov Nikolov, The University of Texas at Tyler; Mohammad Abu Rafe Biswas, The University of Texas at Tyler; Xuan Nguyen, The University of Texas at Tyler; Victor Eduardo Ortiz, The University of Texas at Tyler

the University of Texas at Tyler in the Department of Mechanical Engineering. His expertise and interests include process dynamics and control, fuel cell systems and thermal fluid engineering education. He teaches courses in system dynamics and control, process control, energy conversion, and thermal fluids laboratory at the Houston Engineering Center. He also has been advisor and mentor to several senior design project groups.Ms. Xuan Nguyen, The University of Texas at Tyler Xuan Nguyen is an undergraduate mechanical engineering student at the University of Texas at Tyler. Her interests include renewable energy, robotic, design, and automatic and HVAC systems. Also, she has a passion and interest in DIY projects