Teaching

courses taught.

Hon 301: Large Language Models: Understanding, Ethics, and Impact

Students develop an understanding of large language model system design, including architectural paradigms, deployment configurations, data flow, computational efficiency, and resource allocation for model deployment and scaling.

  • Instruction: Hybrid
  • Target audience: Beginners
  • Term: Fall 2025

ISE 423/523: Intro Statistical Quality Control

This course introduces statistical theory and techniques for controlling the quality of manufacturing products, with coverage of Six Sigma methodology.

  • Identify the appropriate control chart for a particular situation.
  • Interpret control chart signals.
  • Explain how and why a control chart works.
  • Conduct a basic process capability analysis.
  • Use and interpret process capability measures.
  • Conduct a basic gage R&R study.

  • Select the appropriate acceptance-sampling plan for a given situation.

  • Instruction: Hybrid
  • Prerequisites: ISE 391 Probability & Engineering Statistics II
  • Target audience: Intermediate
  • Term: Spring 2025

ISE 430/530: Manufacturing Systems and Facilities Design

Students study modern manufacturing systems design with an emphasis on facility location and plant layout, including classical and just-in-time systems, process flow, productivity, and space allocation.

  • Specify primary and related activities in a facility and define their interrelationships.
  • Determine space requirements for different activities and equipment.
  • Develop and evaluate layout plans using algorithmic and quantitative methods.
  • Determine material handling needs and equipment requirements.

  • Integrate and analyze all components of facilities design.

  • Instruction: Hybrid
  • Prerequisites: ISE324 Work Design; MAE378 Materials & MFG Process
  • Target audience: Intermediate
  • Terms:
    • Fall 2024
    • Fall 2025

ENGR 2120: Engineering Statics

Students study two- and three-dimensional force systems, equilibrium in rigid structures, centroids, friction, and area moments of inertia, building analytical skills for engineering problem solving.

  • Instruction: Lecture
  • Prerequisites: MATH 2500 or ENGG 2145; ENGR 1120 or ENVE 1110 or ENVE 1020 or CSEE 2210 or ELEE 1030; ENGR 1140 or CSCI 1301-1301L or ELEE 2040
  • Target audience: Beginners
  • Term: Fall 2022

ENGR 3140: Thermodynamics

Engineering-focused study of energy, energy transformations, and thermodynamic system analysis with applications across traditional and biological engineering systems.

  • Instruction: Lecture
  • Prerequisites: MATH 2260 or MATH 2260E; PHYS 1251 or PHYS 1211-1211L; CHEM 1211 and CHEM 1211L
  • Target audience: Intermediate
  • Terms:
    • Spring 2023
    • Fall 2023
    • Spring 2024