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Course Criteria
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3.00 Credits
This course provides an in-depth treatment of the methods and techniques used for the implementation of automated device control, both digital and analog. The student will achieve a mastery of both open and closed loop control methods and algorithms including sequencing control, and potential/integral/derivative control. The student will gain hands-on experience with sensor technology, computer-based data acquisition and control, and programmable logic controllers. Prerequisite: 75 Credits
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3.00 Credits
This course introduces students to methods, techniques, and algorithms necessary for the creation of software intended to run in a distributed computing environment. Both client/server applications and distributed processing techniques are discussed. As part of the course requirements, students design and develop a running system incorporating the key characteristics of distributed systems. Prerequisite: ENGR3410
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3.00 Credits
This course provides an introduction to biomaterials, both synthetic and natural, that are implanted in the human body or employed in a medical device for the purposes of promoting improved human health. The course covers the synthesis, characterization, properties and applications of clinically significant biomaterials and discusses regulatory issues (legal, safety, reliability, biocompatibility, and ethics) concerning the use of biomaterials. Prerequisites: ENGR1610, ENGR2180, and ENGR3510 or Concurrent
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3.00 - 4.00 Credits
This course details the conception, modeling, analysis, design, manufacturing and assembly of Biomedical devices and systems. Students select, formulate, and solve a design problem and manufacture a prototype, as appropriate. Applications include, but are not limited to, diagnostic instrumentation, prostheses, and cardiovascular devices against the background of ethical considerations, FDA regulations, and product-liability issues. Prerequisites: ENGR2180 and ENGR3510
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3.00 Credits
The study of engineering measurement and analysis methods as used in inspection and quality control. Topics include measurement system analysis, standards, traceability, gage R & R, and statistical process control. Prerequisite: ENGR2080
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3.00 Credits
This course provides an overview of the simulation of manufacturing and industrial systems using discrete event simulation software. It is designed to expose students to the use of computer simulation for industrial systems design and operational analysis and optimization by using industry-accepted Arena simulation software. Prerequisite: 75 Credits
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3.00 Credits
This course will cover the applications of the principles of robotics and automation to design, develop, specify, implement and optimize work cells for various industrial applications such as materials handling, manufacturing operations, assembly and inspection. Integration of robots with other robots and automation devices, machine vision and sensors. Theory and application of ANSI/RIA Robot safety guidelines in work cells and robotic applications. Prerequisite: 75 Credits
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2.00 Credits
Significant part of manufacturing engineers work in industry is the new technologies that are becoming increasingly vital to manufacturing competitiveness. This course will cover the use of the Stereo lithography technology in rapid prototyping of envisioned products and reverse engineering for industrial applications. Lecture 2 credits- Required lab (ENGR4805) 1 credit
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3.00 Credits
Industrial manufacturing-engineering work encompasses new technologies that are becoming increasingly vital to manufacturing competitiveness. This course covers the use of the stereolithography technology in rapid prototyping of envisioned products and reverse engineering for industrial applications.
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1.00 Credits
This is the laboratory course to accompany the lecture course ENGR4800. It supports the theory and provides applications of the theory through lab and field experiments, case studies and appropriate problems in rapid prototyping of products and reverse engineering applications in industry. Team projects using stereolithography equipment, class reports and presentations will be included. 1 credit Must be taken at same time as ENGR4800
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