State-of-the-art Research of Deep Reinforcement-learning

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What you'll learn

Get state-of-the-art knowledge of deep reinforcement-learning research
Be able to start deep reinforcement-learning research
Be able to get engineering job on deep reinforcement-learning
Be able to get research job on deep reinforcement-learning

Description

Hello I am Nitsan Soffair, a Deep RL researcher at BGU.

In my State-of-the-art Research of Deep Reinforcement-learning course you will get the newest state-of-the-art Deep …

Rating 0 out of 5 (0 ratings in Udemy)

What you'll learn

Get state-of-the-art knowledge of deep reinforcement-learning research
Be able to start deep reinforcement-learning research
Be able to get engineering job on deep reinforcement-learning
Be able to get research job on deep reinforcement-learning

Description

Hello I am Nitsan Soffair, a Deep RL researcher at BGU.

In my State-of-the-art Research of Deep Reinforcement-learning course you will get the newest state-of-the-art Deep reinforcement-learning research knowledge.

You will do the following

Get state-of-the-art research knowledge regarding
1. OpenAI research
2. DeepMind research
3. Google research
4. Microsoft research
Validate your knowledge by answering short quizzes of each lecture.
Be able to complete the course by ~2 hours.

Topics

Advanced exploration methods
Chatbot based Deep RL
Evaluation strategies
Advanced RL metrics
Navigating robot get human language instructions
Merging on-policy and off-policy gradient estimation
Hierarchical RL
More advanced topics

Syllabus

OpenAI research
1. Emergent Tool Use from Multi-Agent Interaction
2. Learning Dexterity
3. Emergent Complexity via Multi-Agent Competition
4. Competitive Self-Play Better Exploration with Parameter Noise
5. Proximal Policy Optimization
6. Evolution Strategies as a Scalable Alternative to Reinforcement Learning
DeepMind research
1. Recurrent Experience Reply in distributed Reinforcement-learning
2. Maximum a Posteriori Policy Optimization
3. NeuPL: Neural Population Learning
4. Learning more skills through optimistic exploration
5. When should agents explore?
Google brain research
1. QT-Opt: Scalable Deep Reinforcement Learning for Vision-Based Robotic Manipulation
2. FollowNet: Robot Navigation by Following Natural Language Directions with Deep Reinforcement Learning
3. Interpolated Policy Gradient: Merging On-Policy and Off-Policy Gradient Estimation for Deep Reinforcement Learning
4. Scalable Deep Reinforcement Learning Algorithms for Mean Field
5. Value-Based Deep Reinforcement Learning Requires Explicit Regularisation
6. Air Learning: a deep reinforcement learning gym for autonomous aerial robot visual navigation
7. Deep Reinforcement Learning at the Edge of the Statistical Precipice
8. Exploration in Reinforcement Learning with Deep Covering Options
Microsoft research
1. Deep Reinforcement-learning for Dialogue Generation

Resources

OpenAI papers
DeepMind papers
Google papers
Microsoft papers

Duration 0 Hours 58 Minutes

Free

Self paced

All Levels

English (US)

219

Rating 0 out of 5 (0 ratings in Udemy)

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