This package handles downloading, cleaning, analyzing street view imagery in a one-stop and zen manner.
Project description
ZenSVI
This package is a one-stop solution for downloading, cleaning, analyzing street view imagery. Detailed documentation can be found here.
Installation of zensvi
$ pip install zensvi
Installation of pytorch and torchvision
Since zensvi uses pytorch and torchvision, you may need to install them separately. Please refer to the official website for installation instructions.
Usage
Downloading Street View Imagery
Mapillary
For downloading images from Mapillary, utilize the MLYDownloader. Ensure you have a Mapillary client ID:
from zensvi.download import MLYDownloader
mly_api_key = "YOUR_OWN_MLY_API_KEY" # Please register your own Mapillary API key
downloader = MLYDownloader(mly_api_key=mly_api_key)
# with lat and lon:
downloader.download_svi("path/to/output_directory", lat=1.290270, lon=103.851959)
# with a csv file with lat and lon:
downloader.download_svi("path/to/output_directory", input_csv_file="path/to/csv_file.csv")
# with a shapefile:
downloader.download_svi("path/to/output_directory", input_shp_file="path/to/shapefile.shp")
# with a place name that works on OpenStreetMap:
downloader.download_svi("path/to/output_directory", input_place_name="Singapore")
Running Segmentation
To perform image segmentation, use the Segmenter:
from zensvi.cv import Segmenter
segmenter = Segmenter(dataset="cityscapes", # or "mapillary"
task="semantic" # or "panoptic"
)
segmenter.segment("path/to/input_directory",
dir_image_output = "path/to/image_output_directory",
dir_summary_output = "path/to/segmentation_summary_output"
)
Running Places365
To perform scene classification, use the ClassifierPlaces365:
# initialize the classifier
classifier = ClassifierPlaces365(
device="cpu", # device to use (either "cpu" or "gpu")
)
# set arguments
classifier = ClassifierPlaces365()
classifier.classify(
"path/to/input_directory",
dir_image_output="path/to/image_output_directory",
dir_summary_output="path/to/classification_summary_output"
)
Running Low-Level Feature Extraction
To extract low-level features, use the get_low_level_features:
from zensvi.cv import get_low_level_features
get_low_level_features(
"path/to/input_directory",
dir_image_output="path/to/image_output_directory",
dir_summary_output="path/to/low_level_feature_summary_output"
)
Transforming Images
Transform images from panoramic to perspective or fisheye views using the ImageTransformer:
from zensvi.transform import ImageTransformer
dir_input = "path/to/input"
dir_output = "path/to/output"
image_transformer = ImageTransformer(
dir_input="path/to/input",
dir_output="path/to/output"
)
image_transformer.transform_images(
style_list="perspective equidistant_fisheye orthographic_fisheye stereographic_fisheye equisolid_fisheye", # list of projection styles in the form of a string separated by a space
FOV=90, # field of view
theta=120, # angle of view (horizontal)
phi=0, # angle of view (vertical)
aspects=(9, 16), # aspect ratio
show_size=100, # size of the image to show (i.e. scale factor)
)
Visualizing Results
To visualize the results, use the plot_map and plot_image functions:
from zensvi.visualization import plot_map, plot_image
# Plotting a map
plot_map(
"path/to/pid_file.csv", # path to the file containing latitudes and longitudes
variable_name="vegetation",
plot_type="point" # this can be either "point", "line", or "hexagon"
)
# Plotting images in a grid
plot_image(
"path/to/image_directory",
4, # number of rows
5 # number of columns
)
Contributing
Interested in contributing? Check out the contributing guidelines. Please note that this project is released with a Code of Conduct. By contributing to this project, you agree to abide by its terms.
License
zensvi was created by Koichi Ito. It is licensed under the terms of the CC BY-SA 4.0.
Please cite the following paper if you use zensvi in a scientific publication:
(place holder for the paper citation)
@article{ito2024zensvi,
title={ZenSVI: One-Stop Python Package for Integrated Analysis of Street View Imagery},
author={Ito, Koichi, XXX, XXX, XXX, ...},
journal={XXX},
volume={XXX},
pages={XXX},
year={2024}
}
Credits
zensvi was created with cookiecutter and the py-pkgs-cookiecutter template.
Release history Release notifications | RSS feed
Download files
Download the file for your platform. If you're not sure which to choose, learn more about installing packages.
Source Distribution
Built Distribution
File details
Details for the file zensvi-0.12.3.tar.gz.
File metadata
- Download URL: zensvi-0.12.3.tar.gz
- Upload date:
- Size: 43.0 MB
- Tags: Source
- Uploaded using Trusted Publishing? No
- Uploaded via: poetry/1.8.3 CPython/3.10.14 Linux/6.8.0-40-generic
File hashes
| Algorithm | Hash digest | |
|---|---|---|
| SHA256 | edc31b3571e08b3b680b8404a2f6377287d89a0ac4c4742a9eb87e9113d719b5 |
|
| MD5 | ef2e384295b477877f1304fab715cc34 |
|
| BLAKE2b-256 | 15a32c15b5f96993d5e5fdc17ed59635667b800dcf0d1a4c569c7fc99703b077 |
File details
Details for the file zensvi-0.12.3-py3-none-any.whl.
File metadata
- Download URL: zensvi-0.12.3-py3-none-any.whl
- Upload date:
- Size: 43.2 MB
- Tags: Python 3
- Uploaded using Trusted Publishing? No
- Uploaded via: poetry/1.8.3 CPython/3.10.14 Linux/6.8.0-40-generic
File hashes
| Algorithm | Hash digest | |
|---|---|---|
| SHA256 | e1645ed886854318a469287407d16d839bc3fa6eb86aa8c6681e105c9165eaf1 |
|
| MD5 | bc942e248637d25fbe00e968ce95f56a |
|
| BLAKE2b-256 | ee7c6666d10367b16b1851eddc6488fe1660804195e02dc8383cd28f73aa61c2 |
