Designing a Subsystem for Creating a Three-dimensional Model of an Orthopedic Insole Based on Data from a Laser 3D Scanning of the Patient's Feet

The article discusses the use of artificial intelligence methods for the design of orthopedic structures intended for the therapy and treatment of various pathologies of the human skeleton. The development of a software package for creating a three-dimensional model of an orthopedic insole based on...

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Bibliographic Details
Published in2020 International Conference on Engineering Management of Communication and Technology (EMCTECH) pp. 1 - 6
Main Authors Voronov, V. I., Dovgolevskiy, P. A.
Format Conference Proceeding
LanguageEnglish
Published IEEE 20.10.2020
Subjects
artificial intelligence methods
data acquisition
data preprocessing
dimensionality reduction
GAN
Generative adversarial networks
generative adversarial neural network
Generators
laser 3D scanning
Measurement by laser beam
medical computing
modified generative adversarial network
neural nets
neural network modeling
optical scanners
orthopedic insole
orthopedic insoles
orthopedic structures
orthopedics
orthotics
Pix2Pix
software architecture
software module-data loader
software package
Software packages
Solid modeling
solid modelling
specialized 3D scanner
Three-dimensional displays
three-dimensional model
Training
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DOI10.1109/EMCTECH49634.2020.9261530

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Summary:The article discusses the use of artificial intelligence methods for the design of orthopedic structures intended for the therapy and treatment of various pathologies of the human skeleton. The development of a software package for creating a three-dimensional model of an orthopedic insole based on an image of a patient's foot obtained using a specialized 3D scanner is described. The model was built using a modified generative adversarial network (GAN) Pix2Pix. This type of networks is used for the first time to obtain medically significant results in the field of orthopedics. The problems associated with obtaining a dataset suitable for neural network modeling are considered. Methods are described that make it possible to bring this set to a form suitable for training and further use in neural network modeling. A software module-data loader has been designed and implemented, which allows converting a three-dimensional model into a numpy array of a depth map with subsequent use as a training set. For the preprocessing of the original images, the authors used a wide range of methods, including dimensionality reduction, noise suppression (Gaussian filter). The results of neural network modeling of an orthopedic insole are presented. The presence of a three-dimensional model of the insole will allow it to be made on an industrial milling machine or printed on a printer using specialized medical material.
DOI:10.1109/EMCTECH49634.2020.9261530