Advances in 3D Measurement, CAD and Reverse Engineering: A review
Session
Mechatronics, System Engineering and Robotics
Description
This paper presents a comprehensive review of the latest techniques and applications in reverse engineering, with a focus on 3D measurement technologies and computer-aided design (CAD). These methodologies have transformed industries such as automotive, aerospace, and medical technology by enabling the rapid digitization of complex geometries for quality control, design improvement, and competitive analysis. Key advancements include the use of point cloud data, optical triangulation, and non-destructive testing to improve product accuracy and reduce time to market. Additionally, the integration of reverse engineering into CAD and manufacturing workflows is discussed, with a focus on improving efficiency, minimizing costs, and enhancing design precision. This work highlights the impact of reverse engineering technologies in modern manufacturing and their potential for future industrial innovation.
Keywords:
Reverse Engin
Proceedings Editor
Edmond Hajrizi
ISBN
978-9951-982-15-3
Location
UBT Kampus, Lipjan
Start Date
25-10-2024 9:00 AM
End Date
27-10-2024 6:00 PM
DOI
10.33107/ubt-ic.2024.206
Recommended Citation
Shabani, Betim and Dukovski, Vladimir, "Advances in 3D Measurement, CAD and Reverse Engineering: A review" (2024). UBT International Conference. 5.
https://knowledgecenter.ubt-uni.net/conference/2024UBTIC/MSER/5
Advances in 3D Measurement, CAD and Reverse Engineering: A review
UBT Kampus, Lipjan
This paper presents a comprehensive review of the latest techniques and applications in reverse engineering, with a focus on 3D measurement technologies and computer-aided design (CAD). These methodologies have transformed industries such as automotive, aerospace, and medical technology by enabling the rapid digitization of complex geometries for quality control, design improvement, and competitive analysis. Key advancements include the use of point cloud data, optical triangulation, and non-destructive testing to improve product accuracy and reduce time to market. Additionally, the integration of reverse engineering into CAD and manufacturing workflows is discussed, with a focus on improving efficiency, minimizing costs, and enhancing design precision. This work highlights the impact of reverse engineering technologies in modern manufacturing and their potential for future industrial innovation.