SES # | TOPICS |
---|---|
1 |
Lecture: Overview Welcome, Staff, Logistics, Course Policies/Philosophy, Contest Preview: The Game, The Kit Orc API and maslab.jar, OrcPad, PegBot, Soldering Tutorial Activity PegBot, OrcPad, Orc Hello World |
2 |
Lecture, Part I: Mechanical Lecture, Part II: Sensors and Cables Activity Cable Making: Have each team make its own IR sensor cable. Sensor Task: IR proximity with OrcPad feedback. Choose "bump/no bump" or edge-finder. Have other sensors available to play with. Evening: Java® for the clueless |
3 |
Lecture, Part I: Software Engineering On MIT Server and your robot (make, Ant, CVS), Design Principles, Threading in Java® (more mechanics than theory), Pitfalls Lecture, Part II: Vision Quick Review: Colors (HSV, Maslab colors, this year), Blue line (motivation), Determining color (thresholds on HSV, hysteresis, region support), See the tutorial! Feature Detection: Methods (Template matching, Region growing, Clustering), Maslab features (What they are, Why they're useful) How to locate them (corner detector, symbol decoder): Possible algorithm, Describe feature detection lab Activity Feature Detection Lab, Chassis Design, Strategy |
4 |
Lecture: Mapping Coordinate frames (image->robot->world), Image formation, ranging (image->robot, relative orientation), Odometry (robot->world, absolute orientation), Correspondence problem (we've solved it for you), Modeling uncertainty, Dealing with ambiguity, Possible algorithm Activity Work on Checkpoint 1 |
5 |
Lecture: Control Motors/PWM/H-bridge Simple Feedback (low-level control): Example: Korea-era smart bomb, Bang-bang control, Proportional control State Machine (high-level control): Abstract definition and examples, Used for control of robot (6.004-style maze example, Brooks-style subsumption architecture), In Java® with threading: Leverage info covered in previous lecture, Full example, make code available Activity Checkpoint 1: Search Playing Field, Find Red Ball, Indicate on BotClient |
6 |
Lecture, Part I: Advanced Vision Clustering, Hough Transform, Stereo and Optical Flow, Statistical Models, Dealing with Noise, Performance Lecture, Part II: Advanced Control PID, Kalman, Whatever you want (maybe some high-level stuff?) Activity Mapping Activity, Purely Software Activity |
7 | Lecture: Design Review |
8 | Activity: Work on Checkpoint 2 |
9 | Activity: Checkpoint 2: Score a Point |
10 | Activity: Mock Contest 1 |
11 | Lecture: Programming 27 Robots: Distributed Algorithms for Robot Swarms and Engineering Creativity: Exercises for your Right Brain |
12 | Activity: Mock Contest 2 |
13 | Lecture: Learning in Robots |
14 | Activity: Impounding |
15 | Activity: Contest Day |