CS 4/5789: Introduction to Reinforcement Learning

Lecture 14

Prof. Sarah Dean

MW 2:45-4pm
110 Hollister Hall

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Agenda

 

0. Announcements & Recap

1. Derivative-Free Optimization

2. Simple Random Search

3. PG with Trajectories

4. PG with Q & A functions

Announcements

 

HW2 released tonight, due 3/28
Suggestion: start written portion before prelim

 

5789 Paper Review Assignment (weekly pace suggested)

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Prelim Tuesday 3/22 at 7:30-9pm in Phillips 101

 

Closed-book, definition/equation sheet for reference will be provided

 

Focus: mainly Unit 1 (known models) but many lectures in Unit 2 revisit important key concepts

Study Materials: Lecture Notes 1-15, HW0&1

 

Lecture on Monday 3/21 will be a review

Prelim Exam

Recap

  • Gradient Ascent
    \(\theta_{t+1} = \theta_t + \alpha \nabla J(\theta_t)\)
  • Stochastic Gradient Ascent
    \(\theta_{t+1} = \theta_t + \alpha g_t\) where \(\mathbb E[g_t] = \nabla J(\theta_t)\)
  • SGD with sampling in risk minimization: \(\displaystyle \min_\theta \underbrace{\mathbb E[\ell(f_\theta(x),y)]}_{ \mathcal R(\theta) }\)
    \(g_t = \nabla \ell(f_\theta(x_i),y_i) \) where \(x_i,y_i\) sampled i.i.d., \(\mathbb E[g_t ] = \nabla \mathcal R(\theta)\)
  • No gradients without models :(
    Not knowing transition \(P(s,a)\) is like not knowing the (whole) loss function!