Beyond AI: The importance of physics-based simulations in next generation food design webinar on-demand, sponsored by Schrödinger
Beyond AI: The importance of physics-based simulations in next generation food design webinar on-demand, sponsored by Schrödinger
On-Demand Web Events Food Sciences
0.50 CH
Credits:
0.50 CH
Watch this informative webinar and learn how to leverage data from physics-based simulations and machine learning to accelerate food R&D, brought to you by Schrödinger.
  • List Price: Free
Meeting Details :

With the rise in utility and access to artificial intelligence (AI) solutions in everyday life, the food industry is searching for practical use cases to leverage its power. While some claim AI will render traditional research and development in the food industry obsolete, the paradigm shift has yet to come to fruition. In order for a digital transformation of such scale to occur, data will become the key driver.

In food science, data collection is often sparse, or is collected at the macroscopic scale with little insight to the underlying physical and chemical driving forces. Unlike AI (also called machine learning), pysics-based simulation is able to generate data based on realistic computational models of food products, processing, and packaging materials. The data generated is interpretable, allowing researchers and engineers to make informed decisions before embarking on costly experimental testing. By leveraging data generated from physics-based simulations at the molecular level combined with existing experimental data where available, machine learning models can then be generated overcoming the data sparsity issue often encountered. More importantly, physics-based simulations can help researchers develop models that are both interpretable and testable. In this talk, we will explore how physics-based simulations are used in food research and the synergy that can be achieved when they are combined with machine learning models.

Key Learning Objectives:
- Learn how to leverage data from physics-based simulations and machine learning to accelerate food R&D
- Hear practical examples and case studies that impact food product development
- Explore key areas in your R&D where physics-based simulation and machine learning can provide value

Speaker:

Dr. Jeffrey Sanders
Product Manager Consumer Packaged Goods
Schrödinger

Jeff Sanders received his B.S. in applied physics from Worcester Polytechnic Institute and then his Ph.D. in biophysics and molecular pharmacology from Thomas Jefferson Medical College. Since joining Schrödinger in 2013, he has served several roles and is currently the product manager and scientific lead for the consumer packaged goods applications group. Additionally, he is a managing board member of the Food Engineering, Expansion, and Development (FEED) institute and holds an adjunct position in the department of food science at University of Massachusetts, Amherst.  

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