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3D shape image classification method of isovariant 3D convolutional network based on partial differential operator

A technology of convolutional network and classification method, which is applied in the field of 3D shape classification, can solve the problems that discrete groups cannot be included, cannot be used to deal with discrete groups, and commonly used groups and group representations cannot be covered in one unity, achieving low 3D Shape classification error rate, effect of improving parameter utilization

Pending Publication Date: 2021-06-18
PEKING UNIV
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Problems solved by technology

However, this method can only be used to deal with the irreducible representation of the continuous group SO(3), and cannot be used to deal with the discrete group
Some contemporaneous or subsequent works, such as Tensor FieldNetwork (TFN) and LieConv, can only deal with the continuous group SO(3), and cannot include the discrete group
[0006] To sum up, the current equivariant 3D models can only deal with specific 3D rotation groups and their corresponding group representations, but cannot cover all commonly used groups and group representations under a unified framework

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  • 3D shape image classification method of isovariant 3D convolutional network based on partial differential operator
  • 3D shape image classification method of isovariant 3D convolutional network based on partial differential operator
  • 3D shape image classification method of isovariant 3D convolutional network based on partial differential operator

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Embodiment Construction

[0054] Below in conjunction with accompanying drawing, further describe the present invention through embodiment, but do not limit the scope of the present invention in any way.

[0055] The present invention provides a 3D shape classification method based on the partial differential operator-based equivariant 3D convolutional network model PDO-e3DCNN. The partial differential operator is used to design an equivariant 3D convolutional network model for efficient 3D shape classification. Visual analysis such as classification and recognition.

[0056] image 3 Shown is the specific implementation of the present invention to realize the method flow of 3D shape classification based on the equivariant 3D convolution network model of partial differential operator, including the following steps:

[0057] Step 1: Divide 3D shapes into training samples and test samples. All data sets in this example are rotated SHREC'17 data sets, which consist of 51,162 3D shapes, of which 35,764 ar...

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Abstract

The invention discloses a 3D shape image classification method of an isovariant 3D convolutional network model based on a partial differential operator, and the method comprises the steps of: carrying out the parametric modeling of a convolution kernel by employing the partial differential operator, solving a 3D rotating group and the feature domain of each convolution layer, obtaining an isovariant convolution kernel, and building an isovariant 3D convolutional network model PDO-e3DCNN, wherein the input of the PDO-e3DCNN is a 3D shape, and the output of the PDO-e3DCNN is prediction classification of the 3D shape, and the PDO-e3DCNN is used for 3D shape classification and identification visual analysis. According to the method, picture data with direction features can be effectively processed, and a lower 3D shape image classification error rate can be achieved on a data set by using fewer parameters.

Description

technical field [0001] The invention belongs to the technical fields of pattern recognition, machine learning and artificial intelligence, and relates to a 3D shape classification method, in particular to a 3D shape image classification method based on an equivariant 3D convolution network model of a partial differential operator. Background technique [0002] Over the past few years, convolutional neural network (CNN) models have become the dominant machine learning method for image recognition tasks. Compared with the fully connected network, a significant advantage of using CNN to process images is that they are translationally equivariant: the feature map obtained by first translating the image and then passing through several convolutional layers is the same as first passing the original image through the convolutional layer and then Translating gives the same result. In other words, each layer maintains translational symmetry, i.e. equivariance. Likewise, equivarianc...

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G06K9/62G06N3/04G06N3/08
CPCG06N3/084G06N3/045G06F18/241
Inventor 林宙辰沈铮阳
Owner PEKING UNIV
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