We offer unique short-course solutions for Engineers, Scientists, and Researchers that work with:
Dr. Ted Diehl leads all seminars live, offering his 30+ years of nonlinear structural mechanics experience applied to solving important industrial and research problems. Training services can be delivered virtually via the web or in-person on-site. We can also create a custom training solution for your organization’s specific needs.
Using a structural mechanics framework, learn to confidently apply DSP tools to your noisy data.
Includes these 4 modules from the Noisy Data Training Series.
This three day in-person course, presented in Buffalo NY, will teach about successful shock measurement. It will provide in-depth lectures, hands on demonstrations and Q&A.
This training seminar teaches how to use energy quantities (external work, internal energy, frictional dissipation, inelastic energy, artificial energy, etc.) and derivatives of such energy quantities to significantly enhance your analysis methods.
This hyper-focused quick-start training is designed to get you up and running quickly with Kornucopia so you can tackle your noisy, messy data with efficiency and confidence.
All sessions taught live by Dr. Ted Diehl. Attendees are encouraged to ask questions through-out the training to gain a deeper understanding of the topics presented.
Your DSP course taught techniques that helped me create a standardized approach for processing noisy Explicit Dynamics simulations. This has improved my analysis and helped me deliver more useful FEA results on recent projects - your course is the best I have taken in a long time.
— Michael J. Iacchei, Mechanical Engineer - U.S. Army, AMSAA
Ted Diehl is a fantastic instructor with lots of practical use case examples. I highly recommend his classes to anyone postprocessing Explicit FEA simulation results!
— Lori Bonynge, SIMULIA User Advocacy Director at Dassault Systems
Bodie Technology provides engineers with excellent software, training, and consulting resources to help analyze complex nonlinear mechanics problems, especially those involving problematic or noisy datasets.
— Steve Levine, Chief Strategy Officer, SIMULIA