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Displaying all 10 results
Collection
2010 ASEE Zone 1 Conference
Authors
Jeng-Nan Juang; R. Radharamanan
Low Cost Soil Moisture Monitoring System: A Capstone Design Project Jeng-Nan Juang and R. Radharamanan School of Engineering, Mercer University, Macon, GA 31207 junag_jn@mercer.edu; radharaman_r@mercer.edu Session: 6AbstractEnvironmental monitoring is a significant driver for wireless sensor communication. Itspotential to provide dynamic real-time data about monitored variable will enable tomeasure properties that have not previously been observable. A low cost consumerversion soil moisture monitoring system was built using a gypsum block to take moisturereadings, a peripheral interface controller (PIC) with a built-in transmitter as sensing unit,and
Collection
2010 ASEE Zone 1 Conference
Authors
Hudson V. Jackson P.E.; Kassim M. Tarhini P.E.; Corinna Marie Fleischmann P.E.; Nathan Rumsey; Sharon Zelmanowitz P.E.
Selection and Execution of Civil Engineering Capstone Design Projects at the United States Coast Guard Academy Hudson Jackson, Kassim Tarhini, Corinna Fleischmann, Nathan Rumsey, Sharon Zelmanowitz United States Coast Guard Academy, New London, CT Session: Teaching project based courses and design courses, including senior design courseAbstractCivil engineering students at the United States Coast Guard Academy (USCGA) must completea capstone project as a graduation requirement. The main objective is to enable students toexperience real life engineering problem solving, design, team work, project execution andmanagement. To satisfy program and accreditation requirements, the projects must have
Collection
2010 ASEE Zone 1 Conference
Authors
GLENN E. VALLEE; RICHARD P. BENIOT
TRANSLATING DENTAL PERFORMANCE INTO ENGINEERING SCIENCE WITHIN A SENIOR CAPSTONE DESIGN PROJECT by Dr. GLENN E. VALLEE, Ph.D., P.E. ASSOCIATE PROFESSOR MECHANICAL ENGINEERING WESTERN NEW ENGLAND COLLEGE SPRINGFIELD MASSACHUSSETS and Dr. RICHARD P. BENIOT, DMD DIRECTOR OF DENTAL SERVICESUNIVERSITY OF CONNECTICUT HEALTH CENTER FARMINGTON, CONNECTICUT Session 1C Mechanical Engineering ABSTRACTA capstone senior design project in mechanical engineering at Western New England Collegewas developed to provide a student the opportunity to work with dental professionals todetermine the causes of porcelain
Collection
2010 ASEE Zone 1 Conference
Authors
Ismail I. Orabi
Capstone Mechanical Engineering Design Experience - An Industry Based Partnership Ismail I. Orabi, Ph.D. Professor of Mechanical Engineering Tagliatela College of Engineering University of New Haven West Haven, CT 06516AbstractThe objective of this paper is to present our findings and experiences in how to use industrialprojects successfully, especially in terms of guidelines for selecting projects and managing themthroughout the course. This paper will convey the impact of the changes to student learning andoverall experience of the faculty involved using
Collection
2010 ASEE Zone 1 Conference
Authors
Junichi Kanai; Jeff P. Morris; Mark Anderson
, and information search, in their projects. Ourgoal was to introduce skills and the extended features of these tools in various courses to makestudents more productive. These skills were originally introduced in capstone design courses.Some skills are now introduced in a sophomore level engineering design course and a freshmancourse. This paper introduces the issues and our approaches.1. IntroductionThe current generation of college students, who were born in 1990’s, grew up with personalcomputers, the Internet, and other digital “gadgets”. They use text messages, IM (instantmessage), e-mail, and cell phones to communicate with their peers every day. They also sharetheir lives by posting messages and uploading digital photos to social
Collection
2010 ASEE Zone 1 Conference
Authors
Brian Savilonis
emphasized design through its program outcomes, but criterion 3 also includesteamwork, communication skills, ethics and professionalism, and an understanding of theimpact of engineering in a broad global and societal context. Various project modes havedeveloped in response to these criteria. Berg and Nasr [1] suggest a capstone coursewhich has a strong environmental component to help meet “those difficult ABETprogram educational outcomes.” Nicholas et al [2] suggest community service projects tostrengthen student understanding of societal needs. Hoffman [3] has used rehabilitationand disability needs to bridge design to society. In the thermal fluids area, Janna andHockstone [4] reviewed traditional design assessment with some link to economics
Collection
2010 ASEE Zone 1 Conference
Authors
Salah Badjou
written form. Emphasis is placed on research, innovation, project management, decision- making, prototyping, design for manufacturing, design for testability, environmental and ethical issues in design, depth and breadth of analysis, quality of hardware, documentation, and communications. Prerequisites: Junior Status; ELMC160 Electromechanical Design I; MECH302 Mechanics of Materials; ELEC244 Digital Systems; ELEC443 Analog Circuit Design. Students are subsequently required to take 2 semesters of capstone design course (8 credithours), ELMC 831 and ELMC 881, in their 5th year. Therefore, the design projects provide afocus and integrator of other, more traditional, courses. This approach has been very
Collection
2010 ASEE Zone 1 Conference
Authors
Andrew C. Foley; Eben H. Phillips
Science etc) the nature of the courses becomes more‘demonstrative’. Culmination of the sequences is the two semester Capstone coursewhere students undertake their own unique projects, creating specifications, generatingalternatives and developing chosen solutions. Foley (2007) discusses the design processused at the Academy in more detail. This paper however discusses a particular methodology of ‘rapid fire’ theory tohardware realization in a unique sophomore design course. The outcomes were ambitiousand initially a little open ended, but once correctly indentified were seen to have beenachieved. DESIGN PROGRESSION Sophomore Junior Introduction to Mechanical
Collection
2010 ASEE Zone 1 Conference
Authors
John W. Duggan P.E.
both on and off-site. Such opportunities include use of soil as gradingmaterial, re-use of stone aggregate as a raw material for concrete and re-use of crushed concretematerial as sub-base material for roadways and parking lots. Recycling and re-use rather thanoff-site disposal of these materials saves on transportation expenses and tipping charges.Reducing the need to bring virgin soil and stone on-site protects natural resources, lowerstransportation costs and reduces air emissions. These practices may also provide creditopportunities for projects seeking LEED certification. Despite the growth in recycling and re-use of on-site soil materials, the topic is rarely addressed in any detail in standard sustainableconstruction texts. This paper
Collection
2010 ASEE Zone 1 Conference
Authors
Rathika Rajaravivarma
acquire data using differenttypes of sensors in the instrumentation and data acquisition course, softwareengineering technology to translate the code in C and Java, and the feedbackcontrol systems course could interface with MATLAB toolbox to demonstratedifferent feedback instances. Last, but not least, LEGO can also be takenadvantage of in the capstone course with extended project implementation andworked in conjunction with additional external circuits and embedded systems.Pr oblem Solving and Logical ThinkingThe structure of logic and problem solving course was modified to includeworking with LEGO mindstorms NXT for implementing problem solvingactivities and team building exercises. Before diving into hands-on activities withLEGO mindstorms