Tracing Versus Freehand for Evaluating Computer-Generated Drawings (SIGGRAPH 2021)

Last update: Dec 09, 2022

Overview

Tracing Versus Freehand for Evaluating Computer-Generated Drawings (SIGGRAPH 2021)

Zeyu Wang, Sherry Qiu, Nicole Feng, Holly Rushmeier, Leonard McMillan, Julie Dorsey

Drawing Dataset

The dataset consists of 1,498 tracings and freehand drawings by 110 participants for 100 image prompts. Our drawings are registered to the prompts and include vector-based timestamped strokes collected via stylus input.

Please right click the links below and "Save link as..." if it doesn't download automatically.

Image prompts.

All rendered tracings and freehand drawings in SVG and PNG.

Raw JSON data: tracings, freehand drawings, registered freehand drawings.

JSON data format:

{
  // each prompt
  "image": {
    // each drawing
    "participant": [
      // each stroke
      {
        "path": string (Unix timestamp, x, y coordinates at each vertex separated by comma)
        "pressure": string (pressure value at each vertex separated by comma)
        "color": string (hex code, e.g., "#000000")
        "width": integer (stroke width on a 800x800 canvas)
        "opacity": float (alpha value from 0 to 1)
      }
      ...
    ]
    ...
  }
  ...
}

Analysis Code

More to come, stay tuned!

Citation

The dataset and code are released for academic research use only under CC BY-NC-SA 4.0.

If you use the dataset or code for your research, please cite this paper:

@article{Wang:2021:Tracing,
  author = {Wang, Zeyu and Qiu, Sherry and Feng, Nicole and Rushmeier,  Holly and McMillan, Leonard and Dorsey, Julie},
  title = {Tracing Versus Freehand for Evaluating Computer-Generated Drawings},
  year = {2021},
  issue_date = {August 2021},
  publisher = {Association for Computing Machinery},
  address = {New York, NY, USA},
  volume = {40},
  number = {4},
  issn = {0730-0301},
  url = {https://doi.org/10.1145/3450626.3459819},
  doi = {10.1145/3450626.3459819},
  journal = {ACM Trans. Graph.},
  month = aug,
  numpages = {12},
  keywords = {sketch dataset, drawing process, stroke analysis}
}

Tracing Versus Freehand for Evaluating Computer-Generated Drawings (SIGGRAPH 2021)

Related tags

Overview

Tracing Versus Freehand for Evaluating Computer-Generated Drawings (SIGGRAPH 2021)

Drawing Dataset

Analysis Code

Citation

Owner

Zach Zeyu Wang

Does Oversizing Improve Prosumer Profitability in a Flexibility Market? - A Sensitivity Analysis using PV-battery System

MicroNet: Improving Image Recognition with Extremely Low FLOPs (ICCV 2021)

A PyTorch implementation of a Factorization Machine module in cython.

PyTorch implementation for the paper Pseudo Numerical Methods for Diffusion Models on Manifolds

This repository contains the source codes for the paper AtlasNet V2 - Learning Elementary Structures.

Pytorch implementation of our paper under review -- 1xN Pattern for Pruning Convolutional Neural Networks

(NeurIPS 2020) Wasserstein Distances for Stereo Disparity Estimation

The PyTorch implementation of Directed Graph Contrastive Learning (DiGCL), NeurIPS-2021

A demonstration of using a live Tensorflow session to create an interactive face-GAN explorer.

Multi-resolution SeqMatch based long-term Place Recognition

PoolFormer: MetaFormer is Actually What You Need for Vision

Multi-modal Text Recognition Networks: Interactive Enhancements between Visual and Semantic Features

LAVT: Language-Aware Vision Transformer for Referring Image Segmentation

Perception-aware multi-sensor fusion for 3D LiDAR semantic segmentation (ICCV 2021)

Implementation of Analyzing and Improving the Image Quality of StyleGAN (StyleGAN 2) in PyTorch

Kaggle | 9th place single model solution for TGS Salt Identification Challenge

Language Used: Python . Made in Jupyter(Anaconda) notebook.

pytorchのスライス代入操作をonnxに変換する際にScatterNDならないようにするサンプル

This code is a near-infrared spectrum modeling method based on PCA and pls

An Ensemble of CNN (Python 3.5.1 Tensorflow 1.3 numpy 1.13)