Skip to main content

AK_VIDEO_ANALYZER that analyses videos on which to automatically detect apples, estimate their size and predict yield at the plot or per hectare scale using the appropriate simulated algorithms.

Project description

AKFruitYield: AK_VIDEO_ANALYSER - Azure Kinect Video Analyser

AKFruitYield is a modular software that allows orchard data from RGB-D Azure Kinect cameras to be processed for fruit size and fruit yield estimation. Specifically, two modules have been developed: i) AK_SIMULATOR that makes it possible to apply different sizing algorithms and allometric yield prediction models to manually labeled color and depth tree images; and ii) AK_VIDEO_ANALYSER that analyses videos on which to automatically detect apples, estimate their size and predict yield at the plot or per hectare scale using the appropriate simulated algorithms. Both modules have easy-to-use graphical interfaces and provide reports that can subsequently be used by other analysis tools.

AK_VIDEO_ANALYSER is part of the AKFruitData and AKFruitYield family (Fig 1.), a suite that offers field acquisition tools focused on the Azure Kinect DK sensor. Table 1-2 shows the links to the other developed tools.

SOFTWARE_FAMILY
Fig. 1. a) Proposed stages of data acquisition and extraction for AKFruitData and AKFruitYield. Dashed green lines correspond to processes related to acquisition, red lines to processes related to data creation and training, and black lines to processes for performance estimation. b) Interoperability between the data acquisition (AK_ACQS; AK_SM_RECORDER), data creation (AK_FRAEX), algorithm simulation (AK_SIMULATOR) and video analysis (AK_VIDEO_ANALYSER) modules. The processes proposed in Figure 1 are expanded and represented by the developed software.
Package Description
AK_ACQS Azure Kinect Acquisition System (https://github.com/GRAP-UdL-AT/ak_acquisition_system) AK_ACQS is a software solution for data acquisition in fruit orchards using a sensor system boarded on a terrestrial vehicle. It allows the coordination of computers and sensors through the sending of remote commands via a GUI. At the same time, it adds an abstraction layer on library stack of each sensor, facilitating its integration. This software solution is supported by a local area network (LAN), which connects computers and sensors from different manufacturers ( cameras of different technologies, GNSS receiver) for in-field fruit yield testing.
AK_SM_RECORDER - Azure Kinect Standalone Mode (https://github.com/GRAP-UdL-AT/ak_sm_recorder) A simple GUI recorder based on Python to manage Azure Kinect camera devices in a standalone mode. https://pypi.org/project/ak-sm-recorder/
AK_FRAEX - Azure Kinect Frame Extractor (https://github.com/GRAP-UdL-AT/ak_frame_extractor) AK_FRAEX is a desktop tool created for post-processing tasks after field acquisition. It enables the extraction of information from videos recorded in MKV format with the Azure Kinect camera. Through a GUI, the user can configure initial parameters to extract frames and automatically create the necessary metadata for a set of images. (https://pypi.org/project/ak-frame-extractor/)
Table 1. Modules developed under the AKFruitData family
Package Description
AK_SIMULATOR - Azure Kinect Size Estimation & Weight Prediction Simulator (https://github.com/GRAP-UdL-AT/ak_simulator/) Python based GUI tool for fruit size estimation and weight prediction.
AK_VIDEO_ANALYSER - Azure Kinect Video Analyser (https://github.com/GRAP-UdL-AT/ak_video_analyser/) Python based GUI tool for fruit size estimation and weight prediction from videos.
Table 2. Modules developed under the AKFruitYield family

AK_VIDEO_ANALYSER description

AK_VIDEO_ANALYSER is a Python based GUI tool for fruit size estimation and weight prediction from videos recorded with the Azure Kinect DK sensor camera in Matroska format (Fig 2.). It receives as input a set of videos to analyse and gives as result reports in CSV datasheet format with measures and weight predictions of each detected fruit. Videos were recorded as is explained by Miranda et al., 2022 and examples available at AK_FRAEX - Azure Kinect Frame Extractor demo videos. Table 1 shows the links to the other developed tools. This is the Github repository of ak_video_analyser, an installable version can be found published on Pypi.org at the following link https://pypi.org/project/ak-video-analyser/

SOFTWARE_PRESENTATION
Fig. 2. AK_VIDEO_ANALYSER module user interface. a) Main GUI. b) Output screen showing detected fruits and report of results in real time.

Contents

  1. Pre-requisites.
  2. Functionalities.
  3. Install and run.
  4. Files and folder description.
  5. Development tools, environment, build executables.

1. Pre-requisites

2. Functionalities

The functionalities of the software are briefly described. Supplementary material can be found in USER's Manual .

  • Analyse video allows the user to configure video analysis parameters. Examples are the number of frames to analyze, filters to apply, or detection, sizing and weight prediction models to be implemented. Results are displayed on screen and conveniently organized in a CSV file.

  • Preview video helps to configure detection zone dimensions and distance filters on color images.

  • Export frames provides the user with a set of analyzed images and the information obtained. It is a useful functionality to observe how algorithms are applied on the frames.

  • Reset settings allows the user default values in the GUI to be reset.

  • Run in command line allows video analysis using the command line without the need for a GUI screen. Useful functionality in carrying out scriptable processes.

3. Install and run (TO COMPLETE)

3.1 PIP quick install package (TO COMPLETE)

The fastest way to run ak-video-analyser is to install using the pip command. Create your virtual Python environment.

python3 -m venv ./ak-video-analyser-venv

# On Windows systems .\venv\Scripts\activate
source ./ak-video-analyser-venv/bin/activate

# On Windows systems python.exe -m pip install --upgrade pip

pip install --upgrade pip

pip install ak-video-analyser
python -m ak_video_analyser

Executing from command line

python -m ak_video_analyser.ak_video_analyser_cmd

3.2 Install and run virtual environments using scripts provided

Installing and running using virtual environments is a second alternative.

Enter to the folder "ak-video-analyser/"

Create virtual environment(only first time)

./creating_env_ak_video_analyser.sh

With the environment created, install the libraries using the files for each operating system:

  • requirements_windows_10.txt
  • requirements_ubuntu_20.04_cpu.txt
  • requirements_ubuntu_20.04_gpu.txt

For example:

pip install -r requirements_windows_10.txt

Run script for GUI.

python ./src/ak-video-analyser_main.py

Run scriptable command-line interface

python ./src/ak-video-analyser_cmd.py

An example of command-line processing could be:

python ./src/ak-video-analyser_cmd.py --video-path /home/user/recorded_video/static_recording/20210927_115932_k_r2_e_000_150_138.mkv --start-sec 0 --frames 1 --filter-bar VERTICAL --filter-px 300 --depth-min 500 --depth-max 3800 --roi-sel MASK --model-sel MASK_RCNN_CUSTOMIZED --threshold 0.8 --size-sel EF --depth-sel AVG --weight-sel D1D2_LM_MET_03

4.3 Files and folder description

Folder description:

Folders Description
docs/ Documentation
src/ Source code
AK_FRAEX - Azure Kinect Frame Extractor demo videos Videos were recorded as is explained by Miranda et al., 2022 and examples available at AK_FRAEX - Azure Kinect Frame Extractor demo videos.
. .

Python environment files:

Files Description OS
activate_env.bat Activate environments in Windows WIN
ak_video_analyser_start.bat Executing main script WIN
creating_env_ak_frame_extractor.sh Automatically creates Python environments Linux
ak_video_analyser_start.sh Executing main script Linux

Main files:

Files Description OS
/src/ak_video_analyser/__main__.py Main function used in package compilation Supported by Python
ak_video_analyser_main.py Main function with GUI Supported by Python
ak_video_analyser_cmd.py Main function command-line oriented Supported by Python

Pypi.org PIP packages files:

Files Description OS
build_pip.bat Build PIP package to distribution WIN
/src/ak_video_analyser/__main__.py Main function used in package compilation Supported by Python
setup.cfg Package configuration PIP Supported by Python
pyproject.toml Package description PIP Supported by Python

5. Development tools, environment, build executables

Some development tools are needed with this package, if you need to reproduce the package compilation process, the tools are listed below:

5.1 Notes for developers

You can use the __main__.py for execute as first time in src/ak_video_analyser/__main__.py Configure the path of the project, if you use Pycharm, put your folder root like this: ak_video_analyser

5.2 Creating virtual environment Windows / Linux

python3 -m venv ak_video_analyser_venv
source ./ak_video_analyser_venv/bin/activate
pip install --upgrade pip
pip install -r requirements_windows.txt or pip install -r requirements_linux.txt

** If there are some problems in Windows, follow this **

pip install pyk4a --no-use-pep517 --global-option=build_ext --global-option="-IC:\Program Files\Azure Kinect SDK v1.4.1\sdk\include" --global-option="-LC:\Program Files\Azure Kinect SDK v1.4.1\sdk\windows-desktop\amd64\release\lib"

5.3 Building PIP package

We are working to offer Pypi support for this package. At this time this software can be built by scripts automatically.

5.3.1 Build packages

py -m pip install --upgrade build
build_pip.bat

5.3.2 Download PIP package

pip install package.whl

5.3.3 Run ak-video-analyser

python -m ak_video_analyser.py

After the execution of the script, a new folder will be generated inside the project "/dist". You can copy ** ak_size_estimation_f/** or a compressed file "ak_frame_Extractor_f.zip" to distribute.

5.6 Package distribution format

At this time, the current supported format for the distribution is Python packages.

Package type Package Url Description
PIP .whl .whl PIP packages are stored in build/

Authorship

This project is contributed by GRAP-UdL-AT. Please contact authors to report bugs juancarlos.miranda@udl.cat

Citation

If you find this code useful, please consider citing:

@article{MIRANDA2022101231,
title = {AKFruitYield: Modular simulation and video analysis software for Azure Kinect cameras for fruit size and fruit yield estimation in apple orchards},
journal = {SoftwareX},
volume = {XX},
pages = {000000},
year = {2023},
issn = {0000-0000},
doi = {},
url = {},
author = {Juan Carlos Miranda and Jaume Arnó and Jordi Gené-Mola and Spyros Fountas and Eduard Gregorio},
keywords = {RGB-D camera, apple fruit sizing, yield prediction, detection and simulation algorithms, allometry},
abstract = {.}
}

Acknowledgements

This work was partly funded by the Department of Research and Universities of the Generalitat de Catalunya (grants 2017 SGR 646) and by the Spanish Ministry of Science and Innovation/AEI/10.13039/501100011033/ERDF (grant RTI2018-094222-B-I00 PAgFRUIT project and PID2021-126648OB-I00 PAgPROTECT project. The Secretariat of Universities and Research of the Department of Business and Knowledge of the Generalitat de Catalunya and European Social Fund (ESF) are also thanked for financing Juan Carlos Miranda’s pre-doctoral fellowship (2020 FI_B 00586). The work of Jordi Gené-Mola was supported by the Spanish Ministry of Universities through a Margarita Salas postdoctoral grant funded by the European Union - NextGenerationEU. The authors would also like to thank the Institut de Recerca i Tecnologia Agroalimentàries (IRTA) for allowing the use of their experimental fields, and in particular Dr. Luís Asín and Dr. Jaume Lordán who have contributed to the success of this work.

PAgFRUIT Research Project Universitat de Lleida Generalitat de Catalunya Ministerio de Ciencia, Innovación y Universidades Fons Social Europeu (FSE) AGAUR

Project details


Download files

Download the file for your platform. If you're not sure which to choose, learn more about installing packages.

Source Distribution

ak_video_analyser-0.0.2.tar.gz (6.3 MB view details)

Uploaded Source

Built Distribution

ak_video_analyser-0.0.2-py3-none-any.whl (6.3 MB view details)

Uploaded Python 3

File details

Details for the file ak_video_analyser-0.0.2.tar.gz.

File metadata

  • Download URL: ak_video_analyser-0.0.2.tar.gz
  • Upload date:
  • Size: 6.3 MB
  • Tags: Source
  • Uploaded using Trusted Publishing? No
  • Uploaded via: twine/4.0.2 CPython/3.8.10

File hashes

Hashes for ak_video_analyser-0.0.2.tar.gz
Algorithm Hash digest
SHA256 08dac39dba09687f537b666dba91555fed9f39cae74e3310264424e84ada260b
MD5 42daa7c6c6160cffb658a051013f6787
BLAKE2b-256 2ec94d9476be761a6858a39ad8042c13981a739f49f8351fa4635788c2eec5d6

See more details on using hashes here.

File details

Details for the file ak_video_analyser-0.0.2-py3-none-any.whl.

File metadata

File hashes

Hashes for ak_video_analyser-0.0.2-py3-none-any.whl
Algorithm Hash digest
SHA256 bdcb9b9f0307d66512e07ed6767bcfd9e118c91c9e6f9f3719688cb548236ff9
MD5 1cf56018aa62643a43ef5594fb331c61
BLAKE2b-256 641714e3f46815cf38a58513affcbcdef0c51c9ad0cfe574a100b011035bfe7c

See more details on using hashes here.

Supported by

AWS AWS Cloud computing and Security Sponsor Datadog Datadog Monitoring Fastly Fastly CDN Google Google Download Analytics Microsoft Microsoft PSF Sponsor Pingdom Pingdom Monitoring Sentry Sentry Error logging StatusPage StatusPage Status page