Comparison of Neural Networks with Feature Extraction Methods for Depth Map Classification

Abstract: In this paper, a comparison between feature extraction methods (Radon Cosine Method, Canny Contour Method, Fourier Transform, SIFT descriptor, and Hough Lines Method) and Convolutional Neural Networks (proposed CNN and pre-trained AlexNet) is presented. For the evaluation of these methods, depth maps were used. The tested data were obtained by Microsoft Kinect camera (IR depth sensor). The feature vectors were classified by the Support Vector Machine (SVM). The confusion matrix for the evaluation of experim… Show more

“…The architectures of the radial basis function (RBF) neural network are feasibly the most frequently used ANNs [28][29][30][31][32][33][34]. The RBF neural network typically involves three layers: the input layer, the hidden layer and the output layer.…”

“…The inbounding vectors are mapped by the radial basis functions in each hidden node. The output layer produces a vector by linear combination of the outputs of the hidden nodes to yield the final output [30,33,34]. The construction of an n inputs and m outputs RBF neural network can be explained by the following equation:…”

Accurate Prediction of Concentration Changes in Ozone as an Air Pollutant by Multiple Linear Regression and Artificial Neural Networks

“…The architectures of the radial basis function (RBF) neural network are feasibly the most frequently used ANNs [28][29][30][31][32][33][34]. The RBF neural network typically involves three layers: the input layer, the hidden layer and the output layer.…”

“…The inbounding vectors are mapped by the radial basis functions in each hidden node. The output layer produces a vector by linear combination of the outputs of the hidden nodes to yield the final output [30,33,34]. The construction of an n inputs and m outputs RBF neural network can be explained by the following equation:…”

Accurate Prediction of Concentration Changes in Ozone as an Air Pollutant by Multiple Linear Regression and Artificial Neural Networks

WeLDCFNet: Convolutional Neural Network based on Wedgelet Filters and Learnt Deep Correlation Features for depth maps features extraction