A large number of applications that only a few years ago would have been considered impossible to be performed without any sort of human interaction are now autonomously executed by increasingly more powerful machines and sophisticated algorithms. Fed by an enormous quantity of available data, machine learning algorithms can learn, without being explicitly programmed, to solve complex tasks such as speech, face, and object recognition or to play and even defeat the best human players at the ancient game of Go.
Machine-learning is becoming an essential skill in many data-intensive scientific fields, including Earth Sciences related disciplines.
In many fields of Geosciences datasets are growing in size and variety at an exceptionally fast rate, highlighting the need for new data processing and assimilation techniques that are able to exploit the information deriving from this data explosion. Machine-learning techniques have the potential to push forward the state of the art of data analysis procedures used in different fields of the Geosciences. In this context, we propose a summer school that focuses on the use of Machine Learning techniques to geophysical, geological and environmental data.
The school will cover topics listed below. Each topic will be accompanied by specific practical sessions, focused on the solution of general geophysical and geological problems.
Overview of the course and general machine learning concepts
- - Regression (Linear and Non-linear regression techniques)
- - Classification (Logistic Regression, K-NearestNeighbors and Support Vector Machines)
- Clustering (k-means, Hierarchical Clustering, DB-Scan)
- Data Reduction (PCA and ICA)
- Basics on Artificial Neural Networks (Activation function, Back-propagation, Training and Optimization)
- Convolutional Neural Networks for image recognition
- Recurrent Neural Networks for Time Series Analysis
Dr. Francesco Grigoli
Graduate Students, Early-Stage Researchers, Professionals
This summer school aim to provide an overview of the main machine learning methods and their application to geophysical, geological and environmental data, keeping a more practical flavour.
After the course the student will be able to use basic machine learning techniques applied to geosciences. The student will learn to identify which ML method is more suitable than others for the analysis of a particular datasets and to evaluate the performance of the used models. After the course the student will also have an overview of the main Machine Learning libraries (in particular SciKit-Learn, Tensorflow and Keras)
EUR 500: Tuition fees
For further information, please click the "LINK TO ORIGINAL" button below.