Engineering Management, Systems and Technology Program Student Outcomes

Students will use a strong foundation in the skills and modern tools of math and science in their application of design methods to solve open-ended mechanical problems. Current and relevant design software used for component and system level designs will be used. Students will be
introduced to a breadth of knowledge, skills, tools and techniques within the disciplines of mechanical design, solid mechanics, thermo/fluids, manufacturing processes, electronics and instrumentation. Students will apply these to define a problem based on customer needs. Optimal solutions will be realized against customer constraints using decision matrix analysis. Additionally, students will develop a solution by working through the iterative process of design, analysis and prototyping in project work.

Students will use design techniques and analysis methods to design industry relevant components
and systems. Components will include a variety of examples from mechanical, fluid-powered and electrical categories. These component designs will be assembled and analyzed as a mechanical system. Modern design techniques will be taught using vendor information. Failure analysis methods will be taught through the use of PFMEA and DFMEA. Manufacturing process techniques will be analyzed by the students to produce components and systems.

Students will be able to effectively communicate technical designs using both written reports and oral presentations. Effective selection of communication modality (i.e. formal vs. informal, written vs. oral vs. visual) will be discussed. These reports and presentations will use design and simulation software to graphically document the design and analysis processes according to industry standards. Within the design and analysis process students will be able to select and use technical literature such as specification sheets and white papers from appropriate technical sources as necessary.

Students will conduct measurements utilizing standard metrology techniques and equipment and analyze the results. Students will conduct standard material tests and analyze the results. Students also utilize electronic equipment (such as digital multimeters, function generators, mixed-mode oscilloscopes and computers) for analysis. In all of these areas students are asked to analyze the results using statistical analysis techniques.

Students will be able to effectively move through the different stages of team development, demonstrating leadership skills as they work to achieve project goals. The students will work collaboratively in diverse teams towards a common goal. They will work in specific roles including a team leader, and will provide peer assessments of team performance.

Students will be able to use a variety of modern software tools for simulation, design and prototyping as well as for developing software programs. Students will be able to use modern tools of mathematics and science in solving electronic and computer engineering design and analysis problems, designing electrical circuits and electronic devices and in analyzing mechanical phenomena. Students will integrate these tools with fundamental analog and digital circuit design, software programming and electronic analysis techniques as necessary within the open-ended design of software systems, analog and digital systems, microprocessor systems, communication systems and instrumentation and control systems.

Students will be able to define a problem statement from customer needs and develop optimal
solutions, realized against customer constraints and ethical bounds by working through the design, analysis and prototyping process. Students will be able to develop solutions that may include software systems, analog and digital systems, microprocessor systems, communications systems and/or instrumentation and control systems.

Students will be able to effectively communicate technical designs using formal written reports and oral presentations that document the design and analysis process according to known standards. Additionally, students will be able to accurately capture their laboratory procedures, findings and analysis using log books. Within the design and analysis process students will be able to select and use technical literature such as datasheets and/or white papers from appropriate technical sources to support and advance their technical knowledge.

Students will be able to utilize common electronic and computer engineering test equipment during experimentation exercises. This equipment includes, but is not limited to, multimeters, function generators, mixed-mode oscilloscopes, data acquisition systems, and communication test equipment. Students will be able to design and setup an experiment using manual and automated test equipment. Finally, students will be able to analyze test data using mathematical methods such as Fourier transforms and statistical analysis to validate the design under test and to quantify and improve the effectiveness of the test environment.

Students will be able to effectively move through the different stages of team development, demonstrating leadership skills as they work to achieve project goals. The students will work collaboratively in diverse teams towards a common goal. They will work in specific roles including a team leader, and will provide peer assessments of team performance.