Cpt_S 483: Introduction to Robotics. Dana 3 RoboSub Robot Club Faunc Robot.

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Presentation transcript:

Cpt_S 483: Introduction to Robotics

Dana 3 RoboSub Robot Club Faunc Robot

Current or Proposed Robot Research Effect of instructions on demonstrations Robots learning from, and teaching, humans UAS for Bird Protection UAS for power line patrol Home healthcare robot Autonomous apple bin transport Guardrail inspection

Born: VT Raised: NH High school: CT College: MA Worked: WI Grad School: TX Postdoc: CA Prof.: PA NOW: WA Research Interests: intelligent agents, multi-agent systems, machine learning, robotics

Who are you?

Autonomous Mobile Robotics EE (Sensors, Actuators) ME (Control of Quadcopters)Quadcopters CS (AI) Manufacturing Teleoperation Agriculture PR2

(Some) Topics ROS Sensors and Vision Locomotion, Kinematics, and Maneuverability Localization and Mapping Planning and Navigation Robot Learning Multi-robot coordination

Goals of Course – General Knowledge – Simulation vs. Physical – Final Project Course Web Page – Syllabus Textbook Office hours

Parrot ARDrone 2 – HD Video (720p, 30fps, 92deg.) – 3-axis gyroscope: orientation – 3-axis accelerometer: measure acceleration movements – 3-axis magnetometer: compass – Pressure sensor: vertical stability at height – Ultrasound sensors: ground altitude measurement – 60fps 320x240 camera: downward pictures & speed measurement – 28,500 RMP motors Special trick!

TurtleBot 2 Open source hardware and software Kobuki base (formerly Create by iRobot) – 25.6 in/s, 180 deg/s – 3 forward bump sensors – 3 cliff sensors – 2 wheel drop sensors (picked up / stuck) – Odometry: 11.7 ticks / mm, 2578 ticks / wheel rev Kinect Sensor: RGBD, can simulate laser – 540x480px, 30fps – Depth: m Onboard gyroscope Netbook

(Great) Expectations – Motivation (Robots are Awesome) – Robots are Awful – Looking up info Course Languages Linux

ALWAYS work Even for photographyphotography Cheetah Big Dog

Why would this course be useful? What comes next?

What is a robot? A robot may not injure a human being or, through inaction, allow a human being to come to harm. A robot must obey the orders given to it by human beings, except where such orders would conflict with the First Law. A robot must protect its own existence as long as such protection does not conflict with the First or Second Law.