Deep One-Class Classification

Self-Attention Generative Adversarial Networks

Self-Attention Generative Adversarial Networks Figure 1. The proposed SAGAN generates images by leveraging complementary features in distant portions of the image rather than local regions of fixed shape to generate consistent objects/scenarios. In each row, the first image shows five representative query locations with color coded dots.

  Network, Self, Attention, Adversarial, Generative, Self attention generative adversarial networks

Generative Adversarial Text to Image Synthesis

deep convolutional decoder networks to generate realistic images.Dosovitskiy et al.(2015) trained a deconvolutional network (several layers of convolution and upsampling) to generate 3D chair renderings conditioned on a set of graph-ics codes indicating shape, position and lighting.Yang et al. (2015) added an encoder network as well as actions ...

  Image, Texts, Decoder, Synthesis, Deep, Encoder, Convolutional, Text to image synthesis, Deep convolutional decoder

Noise-contrastive estimation: A new estimation principle ...

ated noise y. The estimation principle thus relies on noise with which the data is contrasted, so that we will refer to the new method as “noise-contrastive estima-tion”. In Section 2, we formally define noise-contrastive es-timation, establish fundamental statistical properties, and make the connection to supervised learning ex-plicit.

  Into, Noise, Estimation, Contrastive, Noise contrastive estimation, Noise contrastive estima tion, Estima, Timation

Deep Gaussian Processes

representational power of a Gaussian process in the same role is significantly greater than that of an RBM. For the GP the corresponding likelihood is over a continuous vari-able, but it is a nonlinear function of the inputs, p(yjx) = N yjf(x);˙2; where N j ;˙2 is a Gaussian density with mean and variance ˙2. In this case the likelihood is ...

  Process, Gaussian, Gaussian process

TPOT: A Tree-based Pipeline Optimization Tool for ...

JMLR: Workshop and Conference Proceedings 64:66{74, 2016 ICML 2016 AutoML Workshop TPOT: A Tree-based Pipeline Optimization Tool for Automating Machine …

  Automating, Machine, Tool, Pipeline, Optimization, Pipeline optimization tool for automating machine

Ensembles for Time Series Forecasting

Ensembles for Time Series Forecasting set of real world time series. Our results clearly indicate that this is a promising research direction. In Section2we provide a brief description of the tasks being tackled in this paper.

  Series, Time, Time series, Forecasting, Beslenme, Ensembles for time series forecasting

Show, Attend and Tell: Neural Image CaptionGeneration …

Show, Attend and Tell: Neural Image Caption Generation with Visual Attention Kelvin Xu? KELVIN.XU@UMONTREAL.CA Jimmy Lei Bay JIMMY@PSI.UTORONTO.CA Ryan Kirosy RKIROS@CS.TORONTO.EDU Kyunghyun Cho?

  Image, Attention, Neural, Tell, And tell, Neural image captiongeneration, Captiongeneration

Wasserstein Generative Adversarial Networks

Wasserstein Generative Adversarial Networks Figure 1: These plots show ˆ(P ;P 0) as a function of when ˆis the EM distance (left plot) or the JS divergence (right plot).The EM plot is continuous and provides a usable gradient everywhere.

  Network, Adversarial, Generative, Wasserstein generative adversarial networks, Wasserstein

On the di culty of training recurrent neural networks

On the di culty of training recurrent neural networks @Et+1 @xt+1 Et Et+1 Et 1 xt 1 xt +1 ut +11 u tu @Et @xt @Et1 @xt1 @ xt +2 @xt +1 @x +1 x @xt1 @xt1 @xt2 Figure 2. Unrolling recurrent neural networks in time by creating a copy of the model for each time step.

Gender Shades: Intersectional Accuracy Disparities in ...

117 million Americans are included in law en-forcement face recognition networks. A year-long research investigation across 100 police de-partments revealed that African-American indi-viduals are more likely to be stopped by law enforcement and be subjected to face recogni-tion searches than individuals of other ethnici-ties (Garvie et al.,2016).

  Enforcement, Gender, Shades, Stopped, Forcement, Stopped by law enforcement, Law en forcement, Gender shades

PointNet++: Deep Hierarchical Feature Learning on Point ...

PointNet++: Deep Hierarchical Feature Learning on Point Sets in a Metric Space Charles R. Qi Li Yi Hao Su Leonidas J. Guibas Stanford University Abstract Few prior works study deep learning on point sets. PointNet [20] is a pioneer in this direction. However, by design PointNet does not capture local structures induced by

  Feature, Learning, Deep, Hierarchical, Deep learning, Pointnet, Deep hierarchical feature learning

PointNet++: Deep Hierarchical Feature Learning on Point ...

We will introduce a hierarchical feature learning framework in the next section to resolve the limitation. 3.2 Hierarchical Point Set Feature Learning While PointNet uses a single max pooling operation to aggregate the whole point set, our new architecture builds a hierarchical grouping of points and progressively abstract larger and larger local

  Feature, Learning, Deep, Hierarchical, Pointnet, Deep hierarchical feature learning, Hierarchical feature learning, Feature learning

Machine Learning with Python - Tutorialspoint

Machine Learning with Python – Data Feature Selection ... Clustering Algorithms – Hierarchical Clustering ... Machine Learning and Deep Learning to get the key information from data to perform several real-world tasks and solve problems. We can call it …

  Feature, Python, With, Machine, Learning, Deep, Tutorialspoint, Hierarchical, Deep learning, Machine learning with python

schawla@qf.org.qa arXiv:1901.03407v2 [cs.LG] 23 Jan 2019

Deep learning is a subset of machine learning that achieves good performance and flexibility by learning to represent ... tomatic feature learning capability eliminates the need of developing manual features by domain experts, ... DAD techniques have been to …

  Feature, Learning, Deep, Deep learning, Feature learning

Deep Learning of Binary Hash Codes for Fast Image …

Deep Learning of Binary Hash Codes for Fast Image Retrieval Kevin Liny, Huei-Fang Yangy, ... specific feature representation and a set of hash-like func-tion. The third retrieves images similar to the query one via the proposed hierarchical deep search. We use the pre-Target domain dataset Module1: Supervised Pre-Training on ImageNet

  Feature, Code, Image, Learning, Deep, Fast, Hierarchical, Binary, Retrieval, Hash, Deep learning of binary hash codes for fast image, Deep learning of binary hash codes for fast image retrieval, Hierarchical deep

Stacked Convolutional Auto-Encoders for Hierarchical ...

Stacked Convolutional Auto-Encoders for Hierarchical Feature Extraction 53 spatial locality in their latent higher-level feature representations. While the common fully connected deep architectures do not scale well to realistic-sized high-dimensional images in terms of computational complexity, CNNs do, since

  Feature, Deep, Hierarchical, Convolutional, Hierarchical features

Deep Learning and Its Applications to Signal and ...

deep learning—a new area of machine learning research—has emerged [7], impacting a wide range of signal and information processing work within the traditional and the new, widened scopes. Various workshops, such as the 2009 ICML Workshop on Learning Feature Hierarchies; the 2008 NIPS Deep Learning Workshop: Foundations and

  Feature, Learning, Deep, Deep learning, Feature learning

VoxelNet: End-to-End Learning for Point Cloud Based 3D ...

Feature-n Element-wise Maxpool Voxel-wise Feature 1 4 2 3 1 … t Fully Connected Neural Net Figure 2. VoxelNet architecture. The feature learning network takes a raw point cloud as input, partitions the space into voxels, and transforms points within each voxel to a vector representation characterizing the shape information. The space is ...

  Feature, Learning, Feature learning