Robotics: Estimation and Learning

About this course: How can robots determine their state and properties of the surrounding environment from noisy sensor measurements in time? In this module you will learn how to get robots to incorporate uncertainty into estimating and learning from a dynamic and changing world. Specific topics that will be covered include probabilistic generative models, Bayesian filtering for localization and mapping.

Created by:  University of Pennsylvania

• Taught by:  Daniel Lee, Professor of Electrical and Systems Engineering

  School of Engineering and Applied Science

Basic Info Course 5 of 6 in the Robotics Specialization Commitment 4 weeks of study, 3-4 hours/week Language English, Subtitles: Chinese (Simplified) How To Pass Pass all graded assignments to complete the course. User Ratings 4.1 stars Average User Rating 4.1See what learners said Coursework

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University of Pennsylvania The University of Pennsylvania (commonly referred to as Penn) is a private university, located in Philadelphia, Pennsylvania, United States. A member of the Ivy League, Penn is the fourth-oldest institution of higher education in the United States, and considers itself to be the first university in the United States with both undergraduate and graduate studies.

Syllabus


WEEK 1


Gaussian Model Learning



We will learn about the Gaussian distribution for parametric modeling in robotics. The Gaussian distribution is the most widely used continuous distribution and provides a useful way to estimate uncertainty and predict in the world. We will start by discussing the one-dimensional Gaussian distribution, and then move on to the multivariate Gaussian distribution. Finally, we will extend the concept to models that use Mixtures of Gaussians.


9 videos, 3 readings expand

1. Video: Course Introduction
2. Reading: MATLAB Tutorial - Getting Started with MATLAB
3. Reading: Setting Up your MATLAB Environment
4. Reading: Basic Probability
5. Video: WEEK 1 Introduction
6. Video: 1.2.1. 1D Gaussian Distribution
7. Video: 1.2.2. Maximum Likelihood Estimate (MLE)
8. Video: 1.3.1. Multivariate Gaussian Distribution
9. Video: 1.3.2. MLE of Multivariate Gaussian
10. Video: 1.4.1. Gaussian Mixture Model (GMM)
11. Video: 1.4.2. GMM Parameter Estimation via EM
12. Video: 1.4.3. Expectation-Maximization (EM)

Graded: Color Learning and Target Detection

WEEK 2


Bayesian Estimation - Target Tracking



We will learn about the Gaussian distribution for tracking a dynamical system. We will start by discussing the dynamical systems and their impact on probability distributions. This linear Kalman filter system will be described in detail, and, in addition, non-linear filtering systems will be explored.


5 videos expand

1. Video: WEEK 2 Introduction
2. Video: Kalman Filter Motivation
3. Video: System and Measurement Models
4. Video: Maximum-A-Posterior Estimation
5. Video: Extended Kalman Filter and Unscented Kalman Filter

Graded: Kalman Filter Tracking

WEEK 3


Mapping
We will learn about robotic mapping. Specifically, our goal of this week is to understand a mapping algorithm called Occupancy Grid Mapping based on range measurements. Later in the week, we introduce 3D mapping as well.


6 videos expand

1. Video: WEEK 3 Introduction
2. Video: Introduction to Mapping
3. Video: 3.2.1. Occupancy Grid Map
4. Video: 3.2.2. Log-odd Update
5. Video: 3.2.3. Handling Range Sensor
6. Video: Introduction to 3D Mapping

Graded: 2D Occupancy Grid Mapping

WEEK 4


Bayesian Estimation - Localization
We will learn about robotic localization. Specifically, our goal of this week is to understand a how range measurements, coupled with odometer readings, can place a robot on a map. Later in the week, we introduce 3D localization as well.


6 videos expand

1. Video: WEEK 4 Introduction
2. Video: Odometry Modeling
3. Video: Map Registration
4. Video: Particle Filter
5. Video: Iterative Closest Point
6. Video: Closing

Graded: Particle Filter Based Localization