Collection

2024 CIEC

Authors

Sabah Abro; Ken Cook

Society for Engineering Education ETD 5352.0 Mapping BSMMET Program Student Outcomes to ETAC Student OutcomesAs mentioned in the abstract, our program has adopted eleven student outcomes that were designedto satisfy ETAC student outcomes, ASME criteria, and SME criteria. The reason for that is thatboth professional organizations serve as evaluators in the ETAC accreditation process, since thetitle of the program includes both mechanical and manufacturing.In this paper we are concentrating mainly on the ETAC five student outcomes, which read 1. an ability to apply knowledge, techniques, skills and modern tools of mathematics, science, engineering

Collection

2024 CIEC

Authors

Jungwon Ahn

for Industry and Education Collaboration Copyright ©2024, American Society for Engineering Education ETD 515Researchers have explored the potential for distinctive and innovate teaching pedagogies influid-thermo related courses within engineering technology programs. A study by Ayala andPopescu [1] showed the benefits of a flipped classroom format in fluid mechanics classes forengineering technology students. Additionally, Martin [2] implemented active learning principlesinto an engineering technology fluid mechanics course, resulting in higher exam scores andstudent benefits. Choudhury and Rodriguez [3] demonstrated a reformed

Collection

2024 CIEC

Authors

Aleksandr Sergeyev; Scott Kuhl; Bester Mangisoni; Gurveetsingh Ajmani; Mark Kinney; Michael Masters; Kellon Petzak

provides a convenient form of knowledgetransfer to people who cannot be full- or even part-time students at community colleges oruniversities. This factor impacts industry representatives, displaced workers, and low-incomelearners. Usually, online education consists of online lectures and tutorials designed so users cancomprehend the studied subject. The missing piece of online education is the lack of hands-onactivities. To address this issue, Michigan Tech's Mechatronics program [1] and West ShoreCommunity College [2] collaborate on researching, developing, and implementing a state-of-the-art teleoperated robotic workcell (TRW) to enable enhanced remote training for industrial robots.The system is designed to provide training opportunities to

Collection

2024 CIEC

Authors

Rabah Aoufi

ETD 455 Processing Big Data Using Ignition Rabah Aoufi Texas A&M University, College StationAcquiring experience with real-world tools for students is certainly becoming a gauge foremployers to hire graduates who’ve had that experience. In the automation landscape, 70% oforganizations have at least piloted automation technologies, and 80% are looking to use toolssuch as automation and AI to improve productivity [1]. On the academic side, universities aresprouting programs to cultivate technical skills for the advanced manufacturing workforce. So

Collection

2024 CIEC

Authors

N. Athula Kulatunga; Daniel Sampaio

installations has been changing over the past twenty years,mainly due to the efforts of the Environmental Protection Agency (EPA) to reduce emissionscaused by fossil fuels. In recent years, several ports in the USA have adopted strategic plans toreduce emissions by installing electric outlets for hoteling vessels, starting from cruise lines andmoving to cargo vessels [1]. It is estimated about 25% of cruise ships’ emissions in Puget Soundcan be eliminated with shore power. However, the pier and the vessel must have shore powertechnologies to benefit from this initiative. The load can be somewhat predictable due to thepredetermined arrival and departure times of cruses and cargo vessels. The electrical energy forthe shore power comes from regional

Collection

2024 CIEC

Authors

Eli Westbay; Isaiah Storey; Francis Nkrumah, Jr.; Mert Bal; Reza Abrishambaf

. Thispaper presents the design methodology used for developing the GOFR as well as the preliminaryresults of the initial implementation. The paper also discusses the experiences and lessonslearned during development and testing stages.1. IntroductionAutomated guided vehicles (AGVs) are deployed in several different application domains andthe range of vehicle types has increased alongside customers’ needs. Primary applications are inmanufacturing, warehousing, automotive, chemical, paper-print, food, and healthcare industry.The variety of applications specify the general system requirements, such as size, load-capacity,load mechanism, navigation constraints, the number of deployed vehicles, and type of theenvironment. In the following, we discuss the

Collection

2024 CIEC

Authors

Ghazal Barari; Brian Sanders

effects of selected treatments. Selected treatments in this case are virtuallaboratories applied in an undergraduate fluid mechanics course. Usage data is gathered to assessstudent engagement. A qualitative review is performed to assess student learning outcomesrelated to the learning activity. Finally, data from a student survey is gathered to assess theirperceived value from the virtual laboratory treatment. This enables an assessment of the effectfrom the selected treatment on the resulting skill and knowledge demonstrated.1. IntroductionThe measurement of student engagement in educational activities has gained increasing attentionin educational research and practice [1]. Effective student engagement is associated withimproved learning

Collection

2024 CIEC

Authors

Marilyn Barger; Richard Gilbert; Sidney Martin

ETD 345 What Cybersecurity Skills Do 2-Year (AS) Engineering Technicians Need? Marilyn Barger, Richard Gilbert, Florida Advanced Technological Education Center; Sidney Martin, St. Petersburg CollegeAbstractAlmost every list, definition, or property descriptor of “Industry 4.0” technologies expectationincludes cybersecurity, which can be defined as a state of protection against unauthorized,malicious or criminal use of electronic data, as well as the measures taken to achieve this “safe”state [1]. However, cybersecurity as a discipline area covers a broad range of “skills” requiringdifferent training, experience, and

Collection

2024 CIEC

Authors

Jason Bruns

empoweringemployees [1]. These versatile methods extend across industries, emphasizing customer value,process efficiency, and employee empowerment, thus maximizing organizational operations.In this time of employee shortages and rising costs, Lean serves as a powerful solution,alleviating growth constraints by streamlining processes and potentially reducing the need forexcessive automation. Quality Magazine reports that embracing Lean manufacturing systems andconcepts can significantly improve productivity, reduce work-in-process by up to 90%, increasespace utilization by 50%, improve quality by 85%, and cut lead times by up to 90% [2]. Proceedings of the 2024 Conference for Industry and Education Collaboration Copyright

Collection

2024 CIEC

Authors

Serdar Celik

students. Some ofthe skills that benefit from debate sessions include oral communication, timing, decision-making, handling pressure, logical thinking, and taking strategic actions.There are numerous studies in literature focusing on debates in education for a widespectrum of disciplines including engineering. Kennedy [1] investigated the impact ofclassroom debates on students. They were asked to rate their knowledge on the selectedtopics and to identify their stance before and after multiple debates in the class. It wasobserved that between 31% to 58% of the students changed their opinion on the selectedtopics after watching the debates. After the completion of all debates, students wereasked if they would consider instrumenting debates as an

Collection

2024 CIEC

Authors

Behin Elahi

when they areexposed to VR and AR environments compared to traditional learning methods.1. IntroductionIn the realm of education and learning process, the integration of technology has become apivotal force in reshaping pedagogical approaches and enhancing learning experiences. Amongthese technologies, Augmented reality (AR) and Virtual reality (VR) have emerged as tools tocreate immersive environment for learning. The interactive features inherent in AR and VRtechnologies can enable users to visualize and manipulate intricate systems in a simulatedenvironment.AR and VR are both immersive technologies, but they differ in their approaches to bring togetherdigital and physical experience. AR is defined as an interactive experience where digital

Collection

2024 CIEC

Authors

Ahmad Fayed; Mohamed Zeidan; Ephraim Massawe; Mehmet Bahadir

the topics.The IT program offers 4 bachelor of science degrees in 4 concentrations and 4 associate degrees,the ET program offers 5 bachelor of science degrees in 5 concentrations, and the OSHE programoffers 1 bachelor of science and 1 associate degrees. The ET and OSHE programs are accreditedby the ABET and the IT program is accredited by the Association of Technology, Management,and Applied Engineering (ATMAE). Although all programs meet the accreditation requirements,the limitation of the credit hours for the degrees offered does not allow learning or practicingmany of the industrial standards relevant to the curriculum taught in these three academicprograms. In addition to ABET and ATMAE requirements, curriculum in each program meetsthe

Collection

2024 CIEC

Authors

Saeed Foroudastan

all onboard systems to ensure all vessels meet safety standards. Theteams then compete on the water in multiple Slalom, Sprint, and Endurance heats. The resultsfrom these heats, the grades received for the technical report, and the interdisciplinarypromotional video determine the overall winner. The competition is sponsored by prolificorganizations such as UPS Battery Center, American Society of Mechanical Engineers (ASME)Solar Energy Division, and American Power Boat Association (APBA) [1].The challenge requires students to build a solar-powered watercraft to compete in the qualifying,slalom, sprint, and finally endurance events. Each team is also responsible for constructing atechnical report, which highlights innovative design aspects that

Collection

2024 CIEC

Authors

Rob Gies; Resit Unal; Clarles Keating

developan educational strategy for workforce development. The concept came to fruition over the nexttwo years in the form of a certification program in Engineering Systems and IndustrialEngineering for NNS working professionals. This paper examines three primary aspects of thecertification program, including (1) the unique approach taken to collaboratively develop andtailor the program to the core competencies targeted for NNS workforce development, (2) thedesign and structure of the resulting certification program to accommodate the needs of aprofessional workforce and support student success in the classroom, and (3) the initial results ofthe program to date. The paper concludes with a set of implications for collaborative industry-university

Collection

2024 CIEC

Authors

Elizabeth Gross; Diane Peters

ETD 535 Buried Bones: The Treasures of Implicit Knowledge and the Graduate Engineering Student Experience Elizabeth Gross, Sam Houston State University, and Diane L. Peters, Kettering UniversityAbstractReturner graduate engineering students—those students who have spent five or more years inindustry before returning to the classroom—have constructed identity through their practice thatinvolves not only the path to expertise, but also a worldview that incorporates lessons learned inthe practice of engineering [1]. Our research shows that their view of their graduate

Collection

2024 CIEC

Authors

Md. Ali Haider; Hosssain Ahmed; Mahesh Pallikonda

aprofound impact on the well-being of individuals and the prosperity of nations. These twinconcepts, which are closely intertwined, encompass the liberty to make economic choices,pursue careers of one's choosing, and create opportunities for growth and innovation.Empowering economic and occupational freedom is not merely an ideal but a pragmaticapproach to fostering economic prosperity, reducing poverty, and promoting individual well-being [1], [2]. The field of engineering technology education is currently undergoing significantchanges and facing certain limitations that affect the opportunities available to graduates. One ofthe primary constraints is the relatively short duration of many programs, which typically offer Proceedings

Collection

2024 CIEC

Authors

Md. Ali Haider; Jody Alberd

prominent and strategically significant innovation [1].At the heart of IoT lies the idea of ubiquity, where sensors are seamlessly integrated into diverseobjects, fostering connections that bridge the chasm between the physical realm and the digitaldomain. Anticipating the importance of an IoT future where billions of objects and devices areinterconnected through machine-to-machine (M2M) communication, effectively extending theboundaries of the current internet infrastructure, this conceptual framework was developed toembrace the benefits of IoT in engineering technology course [2–6].The integration of IoT applications into engineering curricula offers numerous benefits. Firstly, itequips students with the skills and knowledge to leverage IoT

Collection

2024 CIEC

Authors

Maximus Huang; Maurizio Manzo

significant surge in travel, with a 5.6% increase, totaling 13.2billion additional vehicle miles compared to the same month in the previous year. Thissubstantial growth is discernible in the seasonally adjusted vehicle miles traveled, which reached272.5 billion miles, representing a 4.5% change over January 2022 and a notable 3.1% changecompared to December 2022 [1]. According to the Federal Highway Administration (FHWA),Americans’ average daily vehicle miles of travel is 5.35 billion miles as of 2021 [2], while inTexas, the average daily vehicle miles traveled contributed to 772.7 million miles, with a grandannual total of 282.2 billion miles [3]. With the significant surge in travel and the continuouslyincreasing vehicle miles traveled in the USA

Collection

2024 CIEC

Authors

James Kribs; Jackson Brown; Angelique Shackleford; Darius Mcklin

havemissed necessary formative information for Industry 4.0 topics, or even awareness of whatconstitutes Industry 4.0 technologies. Many engineering and engineering technology programsare focusing on how to implement Industry 4.0 technology training into the existing programs,especially with the restrictions of having to keep existing or preparatory materials in theircurriculum.In a previous discussion of educational requirements for Industry 4.0, Das et al. highlightedmultiple new requirements for Industry 4.0 education including the addition of flexibility inlearning and more interdisciplinary learning [1]. Yang et al. further discussed that students didnot have confidence in their preparation in Industry 4.0 topics, specifically highlighting

Collection

2024 CIEC

Authors

James Kribs

havemissed necessary formative information for Industry 4.0 topics, or even awareness of whatconstitutes Industry 4.0 technologies. Many engineering and engineering technology programsare focusing on how to implement Industry 4.0 technology training into the existing programs,especially with the restrictions of having to keep existing or preparatory materials in theircurriculum.In a previous discussion of educational requirements for Industry 4.0, Das et al. highlightedmultiple new requirements for Industry 4.0 education including the addition of flexibility inlearning and more interdisciplinary learning [1]. Yang et al. further discussed that students didnot have confidence in their preparation in Industry 4.0 topics, specifically highlighting

Collection

2024 CIEC

Authors

MADDUMAGE KARUNARATNE

to inexpensive LED light bulbs, contains programmable embedded devices forthe customization and convenience of the consumer. Some of them even provide interfacing capabilityto smartphones via custom developed software apps. Such customizations provide ample careeropportunities to electrical and computer engineers confident in their computer programming skills.This adds further reasons to make these students confident in computer programming. The latestartificial intelligence driven tools, such as ChatGPT [1] requires users to provide interactive promptsto achieve their desired end results. Those prompts will evolve into pseudo code and those who havelearned the programming of those prompts in any coding language will have the opportunity to

Collection

2024 CIEC

Authors

MADDUMAGE KARUNARATNE; Christopher Gabany

years. However,students need to know past incidents of ethical violations that lead to major repercussions which Proceedings of the 2024 Conference for Industry and Education Collaboration Copyright ©2024, American Society for Engineering Education ETD 505could have been avoided by following sound ethical practices. ABET [1] in the accreditationcriteria emphasizes ethics in a broad form that include engineering ethics and professionalresponsibilities, consideration of an engineer’s work in global contexts (economic, environment,health, safety, welfare, and social factors). Society needs to train engineers and

Collection

2024 CIEC

Authors

David Labyak; Scott Wagner

calls for a revision of manufacturing related curriculum [1], [2]. Because themanufacturing industry is changing rapidly, this makes Industry 4.0 courses important in shapingthe future of advanced manufacturing [3]. The Four Pillars of Manufacturing Knowledge,defined by the Society of Manufacturing Engineers [4], serves as an excellent tool used as aguide for the Industry 4.0 course. The four pillars are aligned with ABET AccreditationStandards for Manufacturing Engineering [5], and the SME Body of Knowledge [6].In the Industry 4.0 Concepts course, students examine Industry 4.0 as it relates to manufacturing.Industrial collaborations help influence this course design. Four main learning objectives areused in the course design: 1) Illustrate

Collection

2024 CIEC

Authors

Nathan Luetke; Orlando Ayala

collection of additional information,consideration of external constraints, and thoughtful reflection on the solution process. Theseskills are recognized as crucial for future engineers in their daily professional lives. However,there are concerns from employers and researchers that undergraduate students may not beadequately prepared to address such problems upon graduation [1‒3]. To make things worse,courses in thermofluids require a robust understanding of mathematics and extensively utilizephysics to explain physical systems. Heat transfer, in particular, introduces complex subjects thatmay appear even more difficult for students studying engineering technology.There have been some attempts at addressing the students’ problem-solving abilities

Collection

2024 CIEC

Authors

Maurizio Manzo

as differentialequations are not taught. For example, fluid mechanics courses in mechanical engineeringtechnology programs are often centered on problems related to fluid power and hydraulicsystems (e.g., valves, sprinkler systems, and heat exchangers) rather than using Navier-Stokesequations to solve for velocity and pressure fields.Computational fluid dynamics (CFD) is used for simulating the flow by solving for thegoverning equations in the form of the Navier-Stokes, thermal energy, and species, with theappropriate equation of state [1], [2].Some mechanical engineering departments have introduced CFD into their undergraduateprograms, recognizing its importance, starting for the formulation of the Navier-Stokes equations[3], [4]. However

Collection

2024 CIEC

Authors

Sidney Martin; Marilyn Barger; Catherine Davis

ETD 345 Industry Advisory Board View on Industry 4.0 Cybersecurity and Other Topics Sidney Martin, St. Petersburg College; Marilyn Barger, FLATE; Catherine M. Davis, St. Petersburg CollegeAbstractThe purpose of this investigation is to have industry members (members 88, responses n=36) inWest Central Florida answer the following questions about participating on the engineeringtechnology advisory board: 1. Employer expectations of the cybersecurity skills needed for engineering technology graduates. 2. Determine the hiring needs of the local engineering technology

Collection

2024 CIEC

Authors

Afi Anuar; Vukica Jovanovic; Natnan Luetke; Hamid Eisazadeh; Isaac Flory IV; Mileta Tomovic; Anthony Dean

Affairs. The paper delves into the intricate process of creating the MFET curriculum,ensuring that it aligns with the requirements and needs of all partnering organizations, but morespecifically industrial constituents who are going to hire manufacturing engineering technologygraduates.1. IntroductionManufacturing has experienced a resurgence following a significant decline in employmentnumbers between 1997 and 2007. During this period, it transitioned from constituting 12% ofstatewide employment and over 13% of total wages in 1997 to 7.8% and 8.2%, respectively, inthe Commonwealth of Virginia by 2007. This transformation took place concurrently with theshift in the economy from a manufacturing-based model to a service-oriented one [1]. However

Collection

2024 CIEC

Authors

Carmen Cioc; Noela Haughton; Sorin Cioc

students to understand and master scientific principles, complex equations, anddesigning intricate systems. This requires the consistent examination of the effectiveness ofvarious aspects of the instructional experience, especially in undergraduate classrooms [1], [2].The work of these authors emphasized the benefits of collaborative learning and problem-basedlearning as core elements in promoting student engagement.In recent years, supporting skills, such as entrepreneurial thinking, ethics, communication, andcollaboration have increasingly been recognized as critical 21st century engineering skills that Proceedings of the 2024 Conference for Industry and Education Collaboration Copyright ©2024, American

Collection

2024 CIEC

Authors

Teddy Ivanitzki; Ashok Agrawal

; Engineering (S&E) doctorates from underserved groups and opening the doors forcreating new start-ups by participating Fellows.Since 2019, ASEE has attracted 90 high-quality postdocs into the IPERF program. Of these 90postdocs, over 70% were from groups historically underrepresented in STEM (Table 1 below).The SBIR/STTR program companies received help from these highly talented postdoctoralresearch Fellows to accelerate their business enterprise; at the same time, historicallyunderrepresented groups such as women, African Americans, Hispanic Americans, NativeAmericans, and Hawaiian/Pacific Islanders received valuable experience in small businessinnovative research.ASEE has experienced tremendous success in broadening its reach to attract

Collection

2024 CIEC

Authors

Maged Mikhail; Peter Zafiro

desired [1]. Pneumatic linear actuators use pressurized air or gas. Theirbasic design has been for many years and is usually powered in modern times by an electriccompressor. They are used in applications typically requiring 100 PSI or less, or when highspeeds are needed ranging from a couple of inches per second to over 60 inches of travel persecond [2].Recently, in the late twentieth century, a new type of actuator called an electromagnetic linearactuator was invented. LinMot motors are electromagnetic direct drives in tubular form. Thelinear movement is generated entirely electrically and wear-free without the use of mechanicalgears, spindles, or belts. The electromagnetic actuator element and cross-section are shown inFigure 1. These