Conference Session

ET Curriculum and Programs II

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Ilya Y. Grinberg, SUNY Buffalo State

Tagged Topics

Diversity

Tagged Divisions

Engineering Technology

addition, incorporatingundergraduate research into the sequence was supported by the Office of UndergraduateResearch through an award from the “Integrating Undergraduate Research into the Curriculum”program. There is considerable overlap between ETAC ABET student outcomes and the desiredstudent learning outcomes from undergraduate research experiences. The two-course sequenceleveraged this overlap [5].The design of the sequence was aligned with the ETAC ABET student outcomes and such a linkwas intentional in the design of the sequence. The mapping of desired skills and current ETACABET student outcomes are summarized in Table 1.Table 1. Relevance Between Course Skills and ETAC ABET Student Outcomes Desired Course Skills

Conference Session

ET Curriculum and Programs II

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Yoonill Lee, Purdue University Northwest

Tagged Topics

Diversity

Tagged Divisions

Engineering Technology

for a process control course in electricalengineering technology. In general, this course provides an overview of process controlprinciples and practices. Topics include analog and digital signal conditioning, temperaturesensors, mechanical sensors, optical sensors, final control, discrete-state process control, andproportional-integral-derivative (PID) controllers. We devote more time to the study of the PIDcontroller in particular because there are so many applications in various industries. For example,power plants need a PID controller to obtain desired control performances. However, teachingmere theoretical concepts to students is often challenging because such concepts require teachingadvanced mathematics that is difficult to

Conference Session

ET Curriculum and Programs II

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Sanjeevi Chitikeshi, Old Dominion University; Shirshak K. Dhali P.E., Old Dominion University; Betsey Odell, Commonwealth Center for Advanced Manufacturing ; Vukica M. Jovanovic, Old Dominion University; Cheng Y. Lin P.E., Old Dominion University

Tagged Topics

Diversity

Tagged Divisions

Engineering Technology

curriculumhave integrated lab experiments that use equipment from well-known academic and industrialuse [16,17]. One of the main objectives of this project was to choose community colleges thathave an AS degree in a closely related curriculum to the Robotics area so that the developedcurriculum can easily be integrated. Based on these reasons, John Tylor and South Side Virginiacommunity colleges were chosen for this project [18,19].Project Approach and MethodologyA multifaceted approach was designed to develop a relevant education and workforcedevelopment program. final curriculum was developed based on inputs from industrypartnership, industry survey, and curricular survey. These activities were the most relevant sinceit informed the curricular

Conference Session

ET Curriculum and Programs II

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Suranjan Panigrahi, Purdue University, West Lafayette

Tagged Divisions

Engineering Technology

cable. The students found it easy to program theLPC 1768 board using Mbed. The hands-on exercises included the programming of the boardto execute various operations including the LED control, the use of analog/digital input andoutput, Analog-to-digital conversion, motor control, use of different communication protocol,use of the LCD display unit etc.Class Project: Class project was an integral part of this class. In one year, class projectincluded the programming of BeagleBone platform along with the interface of selected sensorwith the SAM D21 and ATMEGA 2560 board. In the 3rd year, a real-world environmentalmeasurement system using selected sensors was developed by each team. Each team consistedof 3-4 people. The project involved agile

Conference Session

ET Curriculum and Programs I

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Jikai Du, SUNY College at Buffalo

Tagged Divisions

Engineering Technology

development and management,etc. so as to develop and introduce tailored innovative teaching practices for engineeringtechnology majors. For engineering technology education, hands-on real-world problems andapproved applied learning techniques were emphasized and integrated into student learningexperiences. At the time being, engineering faculty is serving as agent for change in hisdepartment by assisting colleagues through instructional coaching method and by developing aplan sensitive to department’s needs.Master Educator Program (MEP)One of the strategic goals of the School of the Professions is to provide an excellent educationinside and outside the classroom. The Master Educator Program (MEP) is a key action step toachieve such a goal. The MEP is

Conference Session

ET Curriculum and Programs I

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Kathryn Kelley, Ohio State University; Aimee T. Ulstad, Ohio State University

Tagged Topics

Diversity

Tagged Divisions

Engineering Technology

need to be in Excel? o Very proficient; able to manipulate, analyze, summarize, and interpret large amounts of data o Use databases from which to analyze dataThe engineers at one of the manufacturing firms outlined three essential skills thatgraduates should have include: critical thinking - to be able to adapt to every changingenvironment; the ability to communicate - when to use an email versus text versus faceto face; and flexibility, as technology changes every two years.The faculty team then were engaged in a short curriculum design camp to outline goalsand outcomes of new courses that would fit an engineering technology focus, with anoverarching purpose to integrate coursework in math, physics and engineering as

Conference Session

STEM Issues in ET

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Faruk Yildiz, Sam Houston State University; David E. Thompson, Sam Houston State University

Tagged Topics

Diversity

Tagged Divisions

Engineering Technology

paper describes an effort to replicate best practices at Sam Houston State University in theimplementation of a cross-disciplinary course designed to provide students from diversedemographics with a more effective ramp into undergraduate research. The specific aim of thecourse was to provide students from diverse backgrounds with a curriculum designed to buildcommunity, introduce students to research faculty, and to counteract a perceived lack of researchreadiness. The student learning goals for the course included providing opportunities for studentsto: study key historical examples of excellent research; interact with faculty researchers whoperform projects across the STEM disciplines; and to explore the similarities and differencesbetween

Conference Session

ET Pedagogy III

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Sonia Travaglini, Stanford University; Sheri Sheppard, Stanford University; Helen L. Chen, Stanford University

Tagged Topics

Diversity

Tagged Divisions

Engineering Technology

– Creating a community of practice of SEEFs, instructors,administrators, student employees and other teaching-focused roles is a key part of creatinglasting organizational change through the SEEF program, due to the limited terms of the SEEFroles. Linking SEEFs into existing communities focused on teaching within an organization,such as within Stanford University’s CTL organization, also helps connect and create lastingarchives and resources for teaching and learning.Supporting long-term impact – SEEFs creating impact, including integrating active learning intothe undergraduate curriculums in their respective discipline, is dependent on both the continuedpresence of a SEEF role and the support from faculty and administrators to support

Conference Session

ET Curriculum and Programs I

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Christine Michelle Delahanty, Bucks County Community College ; Vladimir Genis, Drexel University; Susan Herring, Bucks County Community College; Tracy A. Timby, Bucks County Community College

Tagged Topics

Diversity

Tagged Divisions

Engineering Technology

. Our community college willcollaborate with our Industry Advisory Board (IAB), CWD, and educational partners to (a) integrate an innovativeteaching model for technician education that includes a formalized shadowing and internship program and connectsstudents to opportunities in business and entrepreneurship. (b) require students to take a manufacturing laboratorycourse to introduce hands-on industry-related experiences; (c) include certifications that award digital badges, creditfor military training, and industry experience in our engineering technology program. It is our intention that this modelfor an enhanced educational experience designed to increase workforce readiness of students will become a blueprintfor other programs and

Conference Session

ET Curriculum and Programs II

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

John L. Irwin, Michigan Technological University; David Michael Labyak, Michigan Technological University

Tagged Topics

Diversity

Tagged Divisions

Engineering Technology

is especially true for an engineering technologycurriculum that requires graduates to be familiar with the modern tools used in industry,but is common in engineering curriculum as well. The unique topics examined in thispaper are the methods used to teach FEA to develop skills for accurate analysis andreporting of results in a format required by industry professionals.Common modeling errors are discussed in this paper, such as element selection whichcan greatly affect the outcome of the analysis. Too often, a new analyst will apply meshesto the model without understanding why proper element selection is important. With FEsoftware being easier to use, more and more people will use default elements withoutunderstanding how the elements behave

Conference Session

ET Curriculum and Programs I

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Mohammad Moin Uddin P.E., East Tennessee State University; Keith V. Johnson, East Tennessee State University

Tagged Topics

Diversity

Tagged Divisions

Engineering Technology

, curriculum, student experience, faculty,learning resources and administrative support. A two-day long site visit was conducted by apanel of two external and two internal peer reviewers. This paper presents planning, preparationand lessons learned from this recent academic review of the program. Some of the highlightedlessons learned are plan early, develop and implement a continuous improvement plan, securefaculty and administrative support to drive success in a graduate program.IntroductionAccreditation is an integral part of most undergraduate Engineering Technology (ET) programsin the USA. Accreditation bodies like ABET ensure that a program meets the quality standardsthat produce graduates prepared to enter a global workforce (ABET, 2019

Conference Session

ET Curriculum and Programs I

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Pallavi Ramakanth Kowligi, Florida State University; Priyanka Prajapati, Florida State University; Faye R. Jones, Florida State University; Marcia A. Mardis, Florida A&M University/Florida State University

Tagged Topics

Diversity

Tagged Divisions

Engineering Technology

perspectives. Curriculum planning committees could also benefit fromknowing the extent to which there is topical and rigor alignment in order to develop future AMstudents for entry level or other positions.5.4.2. Implications for Policymakers. Assumptions should not be made that educational policiesreflect the exact specifications of written documents. Syllabi, for example, are often reflective ofstate frameworks, which may not align with employer needs. Additionally, an assessmentcomponent should be included in program reviews every 5 years, or as often as needed, to ensurethat program curricula are progressing in breadth and depth, as required by policy.5.4.3. Implications for Industry. Industry must be very specific about the types of

Conference Session

ET Pedagogy II

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Carmen Cioc, University of Toledo; John B. Napp, University of Toledo; Sorin Cioc, University of Toledo; Noela A. Haughton

Tagged Topics

Diversity

Tagged Divisions

Engineering Technology

: Pilot ImplementationAbstractThis paper describes the authors’ efforts to apply project-based learning (PBL) to a senior levelmechanical engineering technology (MET) course at the University of Toledo. The work is aclose collaboration between the engineering and education faculty and the engineering librarianwith the goal of increasing the students’ information literacy and developing their METdisciplinary competency. Students were required to work in teams on a design project whichrequired library research to identify relevant engineering codes and standards, such as theASHRAE standards and codes required to design an HVAC duct system. This project goals alignwith the new ABET criterion 3 (student outcomes 1-5) and criterion 5 (curriculum

Conference Session

STEM Issues in ET II

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Anne M. Lucietto, Purdue Polytechnic Institute; Meher Rusi Taleyarkhan, Purdue University at West Lafayette (PPI); Therese M. Azevedo, Sonoma State University; Natalie Hobson, Sonoma State University

Tagged Topics

Diversity

Tagged Divisions

Engineering Technology

student earning her Master’s in Engineering Technology degree from Purdue University, West Lafayette Indiana. She received her Bachelor of Science degree from Purdue University and majored in Mechanical Engineering Technology. During her undergraduate she was an un- dergraduate research assistant studying renewable energy with an emphasis on solar energy for residential and utility use. Current research as a Master’s student is in curriculum development for engineering tech- nology programs, notably at Purdue University. Her thesis is on conducting an engineering and financial analysis for a local wastewater plant facility.Therese M. Azevedo Therese Azevedo is a third year student at Sonoma State University pursuing a

Conference Session

STEM Issues in ET II

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Jimmy Ching-ming Chen, Wayne State University; Gene Yeau-Jian Liao, Wayne State University; Roger C. Lo, California State University, Long Beach; Praveen Shankar, California State University, Long Beach

Tagged Divisions

Engineering Technology

knowledge, methods,and expertise from different disciplines and forming novel frameworks to catalyze scientificdiscovery and innovation; not just multidisciplinary (including more than one discipline), butinterdisciplinary (integrating disciplines) and further transdisciplinary (grand synthesis ofdisciplines). Mechatronics matches this new trend of convergence engineering for deepintegration across disciplines and is also inspired by its active means of addressing a specificchallenge or opportunity for societal needs. On the other hand, the growing mechatronicsdemands high quality workforces with multidiscipline knowledge and training in the industries.This paper is to report the preparation process of an NSF funded project addressing andpromoting

Conference Session

STEM Issues in ET II

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Vukica M. Jovanovic, Old Dominion University; Otilia Popescu, Old Dominion University; Murat Kuzlu, Old Dominion University; Mujde Erten-Unal, Old Dominion University; Balša Terzić , Old Dominion University; George McLeod, Old Dominion University; Tysha Batts, Virginia Space Grant Consortium; Cynthia Tomovic, Old Dominion University

Tagged Topics

Diversity

Tagged Divisions

Engineering Technology

tobuild circuits on breadboards. From here, hands-on activities alternated with very short talks aimedat introducing students to new components or types of projects. First, simple loops with an LED ora motor were built in order to understand the closed loop setting and how to power a circuit. Afterthat, the integrated development environment (IDE) was introduced and students learned how theycan install the IDE on the computers, how to locate examples, and how to download them ontotheir boards [10]. For this part of the workshop, a Sparkfun Inventor kit was used [11].The kit comes with a variety of components, besides the Arduino board, and a full set of predefinedexperiments, which are available for downloading on the company’s website. It turns

Conference Session

Capstone/ET Projects I: Electrical and Computer Focus

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Murat Kuzlu, Old Dominion University; Otilia Popescu, Old Dominion University

Tagged Divisions

Engineering Technology

development, as wellas a network simulator to provide students with a technology development environment fornetwork design, troubleshooting, and protocol modeling in a simulated environment. Followingthese considerations, this paper presents the way the Data Network Communications course wasupdated as part of an overall curriculum revision in an Electrical Engineering Technologyprogram. The paper discusses the course topics, the course objectives, and the software toolsintroduced to support the hands-on activities in the class, including the Wireshark software tool,for network troubleshooting, profiling network traffic and analyzing packets. The paper alsopresents the way the course was received by students, as well as lessons learned after the

Conference Session

Focus on ETAC Accreditation

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Chandra Bhushan Asthana P.E., Elizabeth City State University; Kuldeep S. Rawat, Elizabeth City State University; Akbar M. Eslami, Elizabeth City State University

Tagged Divisions

Engineering Technology

-space to another can be accomplished in infinitely many ways. These features allow asystem to be controlled. If a system needs to track an input, its output is measured and used asfeedback to construct an error function. By the application of the controller, this error is reducedas close to zero as possible. The manner, in which the error is brought to near zero, dictates theresponse of the system. Some of the methods used in control system design aim at minimizingintegral square, L2 norm, H∞ norm, etc. of the error [1]. One of the most common types ofcontrollers is a Proportional-Derivative-Integral (PID) controller. This approach of controlsystem design can be applied to any dynamic system.The teaching-learning system that is composed of a

Conference Session

Capstone/ET Projects I: Electrical and Computer Focus

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Jay R. Porter, Texas A&M University; Anthony T. Cahill, Texas A&M University; Ricardo Eusebi, Texas A&M University

Tagged Divisions

Engineering Technology

proficiency andensuring that each student was placed in the most appropriate first course in mathematics. Itshould be noted that immediately after this change, a measurable improvement in the firstengineering calculus course success rate was noted. Second, the freshman engineering courseswere restructured to integrate with the first-year science curriculum. Originally structured astwo 2-hour courses that focused on engineering design and Matlab, the freshmen engineeringcourse sequence was changed to three 2-hour courses that now align with the first engineeringcalculus course and the two engineering physics courses, mechanics and electromagnetics. Tomove these courses from a four-hour to a six-hour sequence, the laboratory hours from thephysics

Conference Session

Capstone/ET Projects II - General

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Austin B. Asgill P.E., Kennesaw State University

Tagged Divisions

Engineering Technology

thefollowing: 1. Apply engineering design principles to formulate a problem statement, analyze requirements and produce a system-level block diagram. 2. Develop a prototype of an electrical/electronic and/or software system to meet given specifications. 3. Integrate knowledge from across the core Electrical Engineering Technology curriculum. 4. Work effectively and productively in a team environment. 5. Effectively communicate technical ideas and concepts.The required course deliverables are as follows: 1. Problem Statement (Definition) 2. Benchmark Studies 3. Requirements Specification 4. System Block Diagram 5. System Specification and Design/Analysis 6. Prototype Fabrication 7. Testing/Debugging Plan

Conference Session

Focus on ETAC Accreditation

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Barbara L. Christe, State University of New York; Scott C. Dunning, University of Maine

Tagged Divisions

Engineering Technology

parents play a crucial role in thesuccess of a program, their input into curricular components, contemporary equipment needs, oremerging topics in the discipline is unlikely to categorized as a constituent for accreditationpurposes.Linking courses and student outcomesThe knowledge, skills, and behaviors that students should possess at the time of graduation aregeneralized as student outcomes. Accrediting bodies feature expected student outcomes, bothgeneralized, such as critical thinking, and discipline-specific such as knowledge of computeraided drafting. Mapping the student outcomes to particular courses can be an effective way toensure all accreditation student outcomes are included in the curriculum. As part of the planningfor a self-study

Conference Session

A Technology Potpourri I

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Vassilios Tzouanas, University of Houston, Downtown; Lisa Deane Morano, University of Houston, Downtown; Hung Pham; Anish Khatiwada, University of Houston, Downtown; Jonathan Lopez

Tagged Divisions

Engineering Technology

also included multiple USDA-NIFA funded programs that have led to the creation of new curriculum and experiential learning opportunities through the CUAS. She teaches multiple courses in environmental biology and sustainability and she organizes an experiential learning program where students work in teams to build solar-powered technology that addresses a need in urban agriculture.Hung PhamMr. Anish Khatiwada, University of Houston-downtown Anish Khatiwada graduated with Suma Cum Laude honors from the University of Houston - Downtown with a Bachelor’s in science in the year of 2015. Anish majored in Control and Instrumentation Engi- neering Technology and has a minor in Mathematics. Anish was a member of the

Conference Session

Capstone/ET Projects II - General

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Avimanyu Sahoo, Oklahoma State University; Aaron Alexander, Oklahoma State University; Jeeyeon Hahn, Oklahoma State University

Tagged Topics

Diversity

Tagged Divisions

Engineering Technology

-semester project course,(3) approaches of ET students in handling cutting-edge technology, (4) the competition rules andscoring, and (5) student feedback and discussion. This paper will serve as a teaching aid for theinstructors currently teaching or planning to teach senior design courses in the near future. Mostspecifically, the paper will help the new junior faculty members in planning the course andadapting grading and reporting procedures. In the next section, a brief overview of the coursestructure, objectives, outcomes with project requirements and team selection are presented.2. Course Structure, Objectives, and Learning OutcomesIn order to offer an interdisciplinary project experience to ET students at OSU, EET and METprogram integrated

Conference Session

New Directions for ET

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Anne M. Lucietto, Purdue University; Shelly Tan, Purdue University; Liza Ann Russell, Purdue University; Mary E. Johnson Ph.D., Purdue University

Tagged Topics

Diversity

Tagged Divisions

Engineering Technology

for manystudents. Especially as experiential learning becomes increasingly prevalent in curriculum designand further emphasized as an important educational tool, engineering technology is beginning togain traction as both a career path and a field of study, particularly among those seeking to spendless time in the classroom. For instance, in 2014, there were over 34,000 students who graduatedwith 2-year engineering technology degrees, versus 4,409 students who graduated with 2-yearengineering degrees, even though the number of graduates with 4-year engineering degreesremained substantially higher than those with 4-year engineering technology degrees [1].As this growth continues, it is increasingly evident that more research needs to be done

Conference Session

A Technology Potpourri I

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Elaine M. Cooney, Indiana University Purdue University, Indianapolis; Elizabeth Freije, Indiana University Purdue University, Indianapolis; Mengyuan (Alice) Zhao, Indiana University Purdue University, Indianapolis

Tagged Divisions

Engineering Technology

reflections.References[1] "Ivy Tech Community College of Indiana," 8 January 2020. [Online]. Available: https://en.wikipedia.org/wiki/Ivy_Tech_Community_College_of_Indiana.[2] Indiana Commission for Higher Education, "Credit Transfer," 2020. [Online]. Available: https://www.in.gov/che/3138.htm.[3] K. A. Parkes, K. S. Dredger and D. HIcks, "ePortfolio as a measure of reflective practice," International Journal of ePortfolio, vol. 3, no. 2, pp. 99-115, 2013.[4] C. Danielson and L. Abrutyn, "An introduction to using portfolios in the classroom," in Association for Supervision and Curriculum Development, Alexandra, VA, 1997.[5] Association of American Colleges and Universities, "ePortfolios," [Online]. Available: https://www.aacu.org/eportfolios

Conference Session

Focus on ETAC Accreditation

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Aimee T. Ulstad, Ohio State University; Kathryn Kelley, Ohio State University

Tagged Topics

Diversity

Tagged Divisions

Engineering Technology

Paper ID #28782Landscape of Engineering Technology Programs as seen from ASEEAimee T Ulstad P.E., The Ohio State University Aimee Ulstad, P.E is an Associate Professor of Practice in the Integrated Systems Engineering Department at The Ohio State University. Prior to joining the faculty at Ohio State, Aimee was an industry professional in various field in engineering for over 30 years. Aimee received her degrees in Mechanical Engineering and Masters in Business Administration from Ohio State. She began her career as a packaging equipment engineer at Procter and Gamble, then moved to Anheuser-Busch where she worked for

Conference Session

Capstone/ET Projects III - Mechanical and Manufacturing Focus

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Immanuel Edinbarough P.E., University of Texas Rio Grande Valley; Aditya Akundi, University of Texas Rio Grande Valley

Tagged Topics

Diversity

Tagged Divisions

Engineering Technology

field, the Department of Manufacturing and Industrial Engineering provides asetting for technology development and applied research in the Engineering Technology (ENGT)program. According to the program description, engineering technology education emphasizesprimarily on the applied aspects of science and product improvement, industrial practices, andengineering operational functions. A capstone two-semester senior project course is a part of theengineering technology curriculum. This course provides the students an opportunity to addressand experience the critical problems faced in the day-to-day life of an engineer in an advancedmanufacturing industry. One such problem is to find a quick replacement for the damagedcritical part that limits the

Conference Session

ET Pedagogy II

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Vigyan Jackson Chandra, Eastern Kentucky University

Tagged Divisions

Engineering Technology

, networking, communication systems, along with digital, analog, and machine-control electronics. He is the recipient of the 2013 Golden Apple Award for Teaching Excellence at Eastern and has been nominated multiple times for the Critical Thinking Teacher of the Year Award. His professional interests include implementing active teaching and learning strategies, metacognition, integrating open-source software/hardware with online control, and deploying electrical and telecom technologies in community-based organizations. He is always seeking opportunities for collaborating on teaching, scholarly, and service projects, especially those aimed at improving students’ critical/creative and communication skills

Conference Session

Capstone/ET Projects II - General

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Wei Vian, Purdue University, West Lafayette; Nancy L. Denton P.E., Purdue University, West Lafayette

Tagged Divisions

Engineering Technology

designed and weldedthe model bridges they tested. Basic welding knowledge and techniques were introducedand practiced in the freshman-level materials and processes course. Affording studentsthe opportunity to draw on relatively disparate learning from previous courses was thethird implicit instructional goal for the designed beam deflection project. As the studentsprogress toward their senior capstone integrative experience, this small-scale multi-disciplinary project contributes to establishing the learning scaffolding needed to preparethem for the capstone’s broad-based integration of knowledge.[5, 6] This is a greatopportunity to connect the previous course learning and hands-on experience to recentstudy in an applied method.For the designed

Conference Session

A Technology Potpourri I

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Reg Pecen, Sam Houston State University; Faruk Yildiz, Sam Houston State University; Megan Gibson

Tagged Topics

Diversity

Tagged Divisions

Engineering Technology

section of the Brain Box is the Raspberry Pi microcomputer [8] as shown in Figure 2 (a). Itcontains the program that will run the entire system. The Raspberry Pi is a Raspberry Pi 3 B+ and has aCPU of 1.4 GHz and a Quad core ARM Cortex-A53 [9]. 2 Figure 2. (a) Raspberry Pi 3 B+ microcomputer [8-9] and (b) Arduino Uno microprocessor [10]The Raspberry Pi 3 B+ unit has 1GB of SRAM and an integrated dual-band Wi-Fi, with 2.4GHz and5GHz options. It also has an ethernet port that will support up to 300Mbps and has Bluetooth capabilities[8-9]. It supports a micro-SD storage, and has a 40-pin GPIO header to allow additional connections. Italso has