3D Body Scanning is an application of various technologies such as Structured-light 3D Scanner, 3D depth sensing, stereoscopic vision and others for ergonomic and anthropometric investigation of the human form as a point-cloud. The technology and practice within research has found 3D Body scanning measurement extraction methodologies to be comparable to traditional anthropometric measurement techniques.
Maps, Directions, and Place Reviews
Applications
While the technology is still developing in its application, the technology has successfully been applied in the areas of:
- Adapted performance sportswear
- Garment design (e.g. underwear)
- 3D morphometric evaluation
- Ergonomic body measurement
- Apparel design (e.g. helmets)
- Body shape classification
- Comparison of changes in body positions
However, despite the potential for the technology to have a great impact in Made to Measure and Mass Customisation of items with ergonomic properties, 3D Body Scanning has yet to reach an Early Adopter or Early Majority stage of innovation diffusion. This in part due to the lack of ergonomic theory relating to how to identify key landmarks on the body morphology.
A key limitation of 3D Body Scanning has been the upfront cost of the equipment, and skills by which to collect data and apply it to scientific and technical fields. However, with the advent of open source data, human data outputs from scanners have started to become accessible to reduce this limitation to the technology.
3d Human Body Video
Key Manufacturers
Currently, the key manufacturers of the technology are:
- VirtualTailor
- TC2
- SizeStream
Scanning Protocol
Although the process has been established for a considerable amount of time with international conferences held annually for industry and academics (e.g. the International Conference and Exhibition on 3D Body Scanning Technologies), the protocol and process of how to scan individuals is yet to be universally formalised. However, Gill, Hayes, and Parker have proposed a standardised protocol of body scanning based on research and practice that demonstrates how non-standardised protocol and posture significantly influences body measurements; including the hip.
Source of the article : Wikipedia
EmoticonEmoticon