Join us for the third installment of the Machine Learning for Physical Science and Engineering Seminar Series. This is a great introduction for the true beginner looking for a place to start applying machine learning to your specific data.
"Machine Learning: A Beginner's Guide" presented by Dr. Matthew Argall, UNH
This seminar will present a high-level overview of machine learning (ML). It attempts to answer three big questions for beginners: What is it? What
models are out there? and How can I get started? To answer the first question, I start with a definition of ML and cover some early milestones that helped lead to the state of ML today. For the second question, I discuss the different branches of ML, including supervised and unsupervised learning, and present a flow chart that associates ML models with each branch of ML and provides a path between your dataset and applicable models. For the third question, I cover common tools in Python and R, then provide a conceptual overview of common ML models and pair them with examples from the literature in my field, space physics.
Please join us in DeMeritt Hall, Room 251, 1:00-2:00 pm.
Here are some great videos from last year's Deep Learning for Science School at Berkeley Lab, mentioned in the previous post. (Thanks Amy and Victor)
This looks like a great opportunity to immerse yourself in deep learning.
Hosted by Computing Sciences at Berkeley Lab, the school brings together researchers and engineers for lectures and tutorials on state-of-the-art deep learning methods and best practices for running deep learning on high performance computing systems. The sessions will cover both theory and practice, with emphasis on the latter. Attendees will gain an understanding of: what deep learning is, what type of problems it is good for, and how to choose, build and train (and deploy) at scale deep learning models for scientific applications. The school will also provide ample opportunities for attendees to connect with fellow scientists with a shared interest for discussions on how the latest advances in learning algorithms can be used for their science.
Join us for the second tutorial in the series, "Nonlinear regression using Bayesian inference" presented by Mr. John Donaghy, Department of Physics, UNH.
Abstract: This seminar will cover the gaussian process. A gaussian process is tool capable of extracting nonlinear patterns from data using Bayesian inference. We will begin by presenting the short comings of last weeks linear regression as motivation and proceed with an overview of the gaussian process ending with a brief hands on tutorial using scikit-learn.
DeMeritt Hall Room 251, 1:10-2:00 pm
You can find all files related to the seminars at chapmanlab.github.io/ML/. We will try to post any files needed for a seminar beforehand, and will post lectures and any other relevant files there afterward.
This series of tutorials, workshops, and lectures is aimed at exposing UNH scientists to the fundamental concepts and capabilities of modern machine learning techniques. The goal is to show all UNH scientists how machine learning may enhance their research. The schedule is evolving, but will start with very general introductions for an audience that is assumed to know nothing about machine learning.
The first lecture will take place on Wed, Feb. 5 2020 at 1 pm in DeMeritt Hall Rm 251
In preparation for the first lecture, attendees are encouraged to set up a working python environment on their laptop that can be used during the tutorials. To Do so follow these steps:
Stay tuned here for updates. If you have questions or suggestions for topics that you'd like to see covered, please contact firstname.lastname@example.org