May 06, 2024  
2023-2024 Undergraduate Catalog 
    
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2023-2024 Undergraduate Catalog [ARCHIVED CATALOG]

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DFAB 106 - Introduction to 3D Scanning

Number of Credits: 3
Examine the relationship between 3D scanning data and the fabricated physical form. Apply a variety of processes and methods for translating real world objects into digital data. Explore the implications of scanning technology in contemporary digital fabrication practice. Investigate complex scanning techniques based on parametric designs for reverse engineering; translate digital data into physical forms using 3D printing. Emphasis will be placed on considerations of scale and the ways scanned data can be manipulated through digital fabrication techniques. (Fall Term Only) Two hours lecture each week. Two hours laboratory each week. Three Credits. Three billable hours.

Pre-requisite(s): eligibility for ENGL 101  , plus exemption/completion of MAT 095  
Course Topics:
  • What is 3D Scanning
  • Introduction to Photogrammetry
  • Free 3D scanning applications
  • Overview of 3D Scanning technology 
  • 3D Scanning and fine art applications
  • Laser scanning and architecture
  • Introduction to Creaform 3D Scanners and VX Elements
  • Introduction to TinkerCAD
  • Introduction to Mesh Mixer
  • Introduction to Mesh Lab 
  • Introduction to Sketchup Make
  • Legacy Effects and 3D Scanning
  • Cleaning scan data
  • 3D Printing and relationship to 3D scanning
  • Modeling in VX Elements

Course Objectives: Upon successful completion of this course, students will be able to:
 

  1. Produce 3D scans of objects to guarantee data accuracy, regardless of the environment, part type, and complexity of geometry (PG1, PG5).
  2. Utilize various application-specific 3D scanning operations (PG1, PG3, PG5).
  3. Employ technological principles associated with data capturing technology (PG1, PG5).
  4. Apply various acquisition techniques in order to perform reliable scans (PG1, PG5).
  5. Complete optimized results using VXelements software (PG1, PG5).
  6. Analyze digitized data using post-processing software (PG1, PG5).
  7. Extract CAD entities such as curves, sketches, and geometric entities (PG1, PG5).
  8. Modify data using edit polygons, build surfaces, and structure assemblies utliizing digitized data (PG1, PG5).
  9. Implement 3D scanned data operations in a variety of real-world applications (PG1, PG2, PG3, PG5).
  10. Develop various workflows for solving a variety of design parameters (PG1, PG4, PG5).


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