This is an adaptation of https://github.com/zlzeng/DeepFloorplan for Google Colab (Python 3.5)
OPEN HERE:
!git clone https://github.com/rickkk856/DeepFloorplan
!pip3 install -r /content/DeepFloorplan/requirements.txtAnd download the pre-trained tf.records files
Predict rooms from pre-trained models
%run demo.py --im_path="/content/DeepFloorplan/demo/45719584.jpg"Post process predictions for better quality results
%run /content/DeepFloorplan/postprocess.py --result_dir="/content/DeepFloorplan/demo/"By Zhiliang ZENG, Xianzhi LI, Ying Kin Yu, and Chi-Wing Fu
[2019/08/28: updated train/test/score code & dataset]
[2019/07/29: updated demo code & pretrained model]
This repository contains the code & annotation data for our ICCV 2019 paper: 'Deep Floor Plan Recognition Using a Multi-Task Network with Room-Boundary-Guided Attention'. In this paper, we present a new method for recognizing floor plan elements by exploring the spatial relationship between floor plan elements, model a hierarchy of floor plan elements, and design a multi-task network to learn to recognize room-boundary and room-type elements in floor plans.
- Please install OpenCV
- Please install Python 2.7
- Please install tensorflow-gpu
Our code has been tested by using tensorflow-gpu==1.10.1 & OpenCV==3.1.0. We used Nvidia Titan Xp GPU with CUDA 9.0 installed.
- [numpy]
- [scipy]
- [Pillow]
- [matplotlib]
We share all our annotations and train-test split file here. Or download the annotation using the link in file "dataset/download_links.txt". The additional round plan is included in the annotations.
Our annotations are saved as png format. The name with suffixes "_wall.png", "_close.png" and "_room.png" are denoted "wall", "door & window" and "room types" label, respectively. We used these labels to train our multi-task network.
The name with suffixes "_close_wall.png" is the combination of "wall", "door & window" label. We don't use this label in our paper, but maybe useful for other tasks.
The name with suffixes "_multi.png" is the combination of all the labels. We used this kind of label to retrain the general segmentation network.
We also provide our training data on R3D dataset in "tfrecord" format, which can improve the loading speed during training.
To create the "tfrecord" training set, please refer to the example code in "utils/create_tfrecord.py"
All the raw floor plan image please refer to the following two links:
- R2V: https://github.com/art-programmer/FloorplanTransformation.git
- R3D: http://www.cs.toronto.edu/~fidler/projects/rent3D.html
To use our demo code, please first download the pretrained model, find the link in "pretrained/download_links.txt" file, unzip and put it into "pretrained" folder, then run
python demo.py --im_path=./demo/45719584.jpg To train the network, simply run
python main.py --pharse=TrainRun the following command to generate network outputs, all results are saved as png format.
python main.py --pharse=TestTo compute the evaluation metrics, please first inference the results, then simply run
python scores.py --dataset=R3DTo use our post-processing method, please first inference the results, then simply run
python postprocess.pyor
python postprocess.py --result_dir=./[result_folder_path]If you find our work useful in your research, please consider citing:
@InProceedings{zlzeng2019deepfloor,
author = {Zhiliang ZENG, Xianzhi LI, Ying Kin Yu, and Chi-Wing Fu},
title = {Deep Floor Plan Recognition using a Multi-task Network with Room-boundary-Guided Attention},
booktitle = {IEEE International Conference on Computer Vision (ICCV)},
year = {2019}
}