title |
---|
Overview |
The the era of big data in the earth sciences is here and learning how to effectively use oceanographic remote-sensing data, both in the cloud and on your computer, is a core skill for modern fisheries science and management. Learning how to access cloud-based data, visualize these data, use these data in models, and use the tools of modern reproducible and collaborative science is the main goal of this course. Through the course, participants will gain experience with assessing remote-sensing data in the cloud, R and RStudio, and collaborating with Git and GitHub. Python users: Python is also very heavily used in big data geosciences. The course tutorials will focus on R, however you are welcome to use Python during the course if you are more comfortable with that.
In depth understanding of machine learning for species (macrofauna) distribution modelling (SDM) is needed by many young ecosystem researchers. SDMs are an important class of models used to understand species association with the environment. SDMs are widely used to understand how species distributions are changing with ocean climate change and are also used to estimate abundance over large ocean regions from fisheries survey data. This course is devised to familiarize the young professionals in the Indian Ocean-rim (IOR) countries with the latest developments in this field.
This course does not aim to teach ecology and habitat to the oceanographers/modellers/machine learning experts, rather it aims to teach machine learning and coding (and its relevance to fisheries) to fishery professionals.
- Learn how to discover and use oceanographic remote-sensing data for species distribution modeling and other fisheries applications
- Familiarize participants with using remote-sensing data in R within models. Note participants who are more familiar with Python are welcome to use Python also.
- Introduce the participants to machine learning models used in species distribution modelling.
- Obtain hands-on experience in using species distribution modelling and machine-learning with remote-sensing data.
- Work on a group project using species distribution modelling to estimate habitat associations or obtain a stock estimate using a species distribution model.
Note, there are many ways that participants can study aspects of species distribution using remote-sensing data. During the hackweek portion of the course, participants will jointly develop project to work on and in order to learn by diving into a specific project. Species location data will not be specifically required in order to engage in the projects.
A hackweek is a participant-driven workshop that blends data science education, community building, and project work over a short period of time (one to two weeks). The events are highly immersive and allow participants to work directly with data science professionals to co-shape projects and educational outcomes. Hackweeks help individuals and teams engage more effectively in open and reproducible science. - eScience Institute, University of Washington, Seattle USA
The hackweek model has become a vital tool in the data science community, fostering idea exchange through modern data analysis workflow training. Unlike traditional academic events, hackweeks offer intensive, interactive learning, including tutorials on cutting-edge methods, peer-based learning, and collaborative on-site projects. Unlike hackathons, which emphasize software development, hackweeks prioritize education and open-ended projects, benefiting fields needing both expertise and efficient computational workflows for idea exchange and discovery. The hackweek model is now widely used in many fields: Astrohackweek, Neurohackweek, Geohackweek, OceanHackWeek, ICESat-2 Hackweek, SnowEx Hackweek, NASA Cloud Hackathon. The ITCOocean Hack2week is modeled off the University of Washington eScience Hackweek model.
- During the first week of the ITCOocean hack2week, participants will work on learning how to access, visualize and manipulate remote-sensing data in R. Participants will develop familiarity with the R language, with RStudio, and with Git and GitHub for collaboration.
- During the second week, participants will begin focusing on species distribution modeling and will work on a team project.
- The course is an open science event: all tutorials and examples are developed openly and will be publicly available during and following the course. Participants will strengthen their practice of open science, using open source code and collaborating on their projects with course peers.
In the two to three weeks leading up to the course, participants are encouraged to review background resources that will facilitate a more effective experience.
The 2023 ITCOocean Hackweek is a safe learning space and all participants are required to abide by our Code of Conduct.