10:13

The Law of Total Probability

13:11

Conditional Probabilities

16:32

The Binomial Distribution and the Multinomial Distribution

13:30

Quality Control, Non-Destructive Inspection, and the Multinomial Distribution

16:18

Mode Sensitivity for Fluid Flows via Lagrangian Coherent Structures

20:21

The Birthday Problem in Probability: P(A) = 1 - P(not A)

24:13

Set Theory in Probability: Sample Spaces and Events

17:50

Counting Probabilities with Combinatorics and the Factorial

20:05

Gentle Introduction to Probability: Counting Coin Flips and Dice

29:43

Probability and Statistics: Overview

16:11

Python Symbolic Regression (PySR) [Physics Informed Machine Learning]

13:43

Neural Implicit Flow (NIF) [Physics Informed Machine Learning]

17:46

Fourier Neural Operator (FNO) [Physics Informed Machine Learning]

17:17

Deep Operator Networks (DeepONet) [Physics Informed Machine Learning]

19:24

Hamiltonian Neural Networks (HNN) [Physics Informed Machine Learning]

19:49

Lagrangian Neural Network (LNN) [Physics Informed Machine Learning]

13:01

Neural Network Control in Collimator 2.0 & New Educational Videos!!!

17:26

Residual Networks (ResNet) [Physics Informed Machine Learning]

24:37

Neural ODEs (NODEs) [Physics Informed Machine Learning]

34:32

Physics Informed Neural Networks (PINNs) [Physics Informed Machine Learning]

21:28

SINDy-RL: Interpretable and Efficient Model-Based Reinforcement Learning

19:01

AI/ML+Physics: Preview of Upcoming Modules and Bootcamps [Physics Informed Machine Learning]

24:01

AI/ML+Physics: Recap and Summary [Physics Informed Machine Learning]

20:26

Using sparse trajectory data to find Lagrangian Coherent Structures (LCS) in fluid flows

32:35

AI/ML+Physics Part 5: Employing an Optimization Algorithm [Physics Informed Machine Learning]

12:22

The Future of Model Based Engineering: Collimator 2.0

23:12

AI/ML+Physics Part 4: Crafting a Loss Function [Physics Informed Machine Learning]

36:30

AI/ML+Physics Part 3: Designing an Architecture [Physics Informed Machine Learning]

36:11

AI/ML+Physics Part 2: Curating Training Data [Physics Informed Machine Learning]

43:27

AI/ML+Physics Part 1: Choosing what to model [Physics Informed Machine Learning]

47:27

Physics Informed Machine Learning: High Level Overview of AI and ML in Science and Engineering

16:10

Can we make commercial aircraft faster? Mitigating transonic buffet with porous trailing edges

19:14

A Neural Network Primer

11:46

Supervised & Unsupervised Machine Learning

13:48

A Machine Learning Primer: How to Build an ML Model

25:23

Arousal as a universal embedding for spatiotemporal brain dynamics

28:02

New Advances in Artificial Intelligence and Machine Learning

14:51

Nonlinear parametric models of viscoelastic fluid flows with SINDy

14:16

[5/8] Control for Societal-Scale Challenges: Road Map 2030 [Technology, Validation, and Transition]

10:19

[8/8] Control for Societal-Scale Challenges: Road Map 2030 [Recommendations]

11:39

[2/8] Control for Societal-Scale Challenges: Road Map 2030 [Societal Drivers]

09:16

[1/8] Control for Societal-Scale Challenges: Road Map 2030 [Introduction]

11:20

[6/8] Control for Societal-Scale Challenges: Road Map 2030 [Education]

10:46

[3/8] Control for Societal-Scale Challenges: Road Map 2030 [Technological Trends]

08:08

[7/8] Control for Societal-Scale Challenges: Road Map 2030 [Ethics, Fairness, & Regulatory Issues]

11:37

[4/8] Control for Societal-Scale Challenges: Road Map 2030 [Emerging Methodologies]

02:38

🤯🤯🤯 Integrating GPT-4 into Collimator.ai for Symbolic Modeling and Control** 🔥🔥🔥

10:36

New Book!!! Data-Driven Science and Engineering: Machine Learning, Dynamical Systems, and Control

50:33

Complex Analysis L13: Bromwich Integrals and the Inverse Laplace Transform

21:34

Complex Analysis L12: Examples of Complex Integrals

13:42

Complex Analysis L11: Examples of Cauchy-Integral Formula

16:43

Complex Analysis L10: Cauchy Integral Formula

24:51

Complex Analysis L09: Complex Residues

41:29

Complex Analysis L08: Integrals in the Complex Plane

41:15

Complex Analysis L07: Analytic Functions Solve Laplace's Equation

43:49

Complex Analysis L06: Analytic Functions and Cauchy-Riemann Conditions

35:17

Complex Analysis L05: Roots of Unity and Rational Powers of z

28:01

Complex Analysis L04: The Complex Logarithm, Log(z)

25:20

Complex Analysis L03: Functions of a complex variable, f(z)

16:03

Complex Analysis L02: Euler's formula, one of the most important formulas in all of mathematics