art-programmer

art-programmer's Stars

• BVLC/caffe

  Caffe: a fast open framework for deep learning.

  Language:C++34.1k2.1k4.8k18.7k

• soumith/ganhacks

  starter from "How to Train a GAN?" at NIPS2016

  11.5k346691.7k

• dbolya/yolact

  A simple, fully convolutional model for real-time instance segmentation.

  Language:Python5k1057921.3k

• NVlabs/planercnn

  PlaneRCNN detects and reconstructs piece-wise planar surfaces from a single RGB image

  Language:Python5592370124

• yossigandelsman/DoubleDIP

  Official implementation of the paper "Double-DIP: Unsupervised Image Decomposition via Coupled Deep-Image-Priors"

  Language:Python514222095

• art-programmer/FloorplanTransformation

  Raster-to-Vector: Revisiting Floorplan Transformation

  Language:Lua5072941171

• art-programmer/PlaneNet

  PlaneNet: Piece-wise Planar Reconstruction from a Single RGB Image

  Language:Python403193784

• art-programmer/FloorNet

  Language:Python210132455

• art-programmer/MASC

  Language:Python587116

• zhchenseven/Computational_Physics_Thermal_Equilibrium

  Thermal equilibrium states are ubiquitous in nature. Following the classical thermal dynamics, we can describe such states using the elliptical type of Laplace equation. Due to the advent of tremendous power of computers, we can, instead of the analytical solutions of the old-school style, alternatively using numerical methods to study the thermal dynamic systems in equilibrium. Here, I present our work using the finite difference numerical schemes to iteratively evolve the solutions to an arbitrarily given precision requirement. The code provides the object-oriented codes to solve the problem, visualize the results, and make animations of the iterative processes.

  Language:C++51

• zhchenseven/Computational_Physics_Traffic_Equation

  Traffic phenomena occur every single day and is closely related to everyone. Physically, sudden changes for traffic problems (e.g., red ligh or green light turns on) can be described by the traffic equations. Here, we present our work to use the finite volume numerical approaches to simulate the traffic problems. The code is written using an object-oriented numerical framework in C++. We also attach the code to process, visualiza the data, and make animations using python packages.

  Language:C++3001

• zhchenseven/Computational_Physics_Wave_propagation

  Wave propagation phenomena are widely present in the physical world, manifesting as various forms, acoustic wave, electromagnetic wave, quantum mechanical wave, and etc. In general, the wave phenomena can be described by hyperbolic differential equations. Here, we employ various finite difference schemes to simulate the propagating processes. The code is written using an object-oriented numerical framework in C++. We also attach the code to process, visualiza the data, and make animations using python packages.

  Language:C++22

• zhaoyang-lv/DeeperInverseCompositionalAlgorithm

  Taking a Deeper Look at the Inverse Compositional Algorithm (CVPR 2019, Oral)

  Language:Python1000