PPT-Understanding Communication with a Robot?

Activity 60 minutes 1 Summary so far The parts of a robot are A computer that needs to be programmed to make decisions Inputs to sense via sensors Outputs to act eg via motors. Robot Obstacle domainofresponsibility (a)Robottoblame Robot Obstacle (b)Bothtoblame Robot domainofresponsibility (c)Sensor-dependentdo-mainofresponsibility Robot Obstacle b Collision (d)Collision,butb Adam Finkelstein. COS 116: Spring . 2012. Today: Understanding a simple robot. Why?. Larger goal: seek an answer to. . “. What is Computation?. ”. Acquire insight into technology that will . become pervasive within the next decade.. Ready, SET, Go! Workshop. SDSU, Fall 2013. Programming is Fun!. Tell the Robot exactly what to do & watch it run.. Be Specific!. Use Loops to repeat statements.. Put several actions together to make a dance!. Sonia Chernova Manuela . Veloso. Carnegie Mellon University. Computer Science Department. Policy Development. Learning from Demonstration:. Access/select sensor data. Develop actions. Provide demonstrations. Gui. . Cavalcanti. 5/12/2011. Locomotion and Manipulation. Overview. Locomotion. Types of locomotion. Stability. Locomotion design. Models. Types of control. Gaits. Manipulation. Compliance. Forward . human-like body plan. ”.. The quotations refer to the latest version of the HL rule book (version of October 2012) available from . http://www.tzi.de/humanoid/bin/view/Website/Downloads. . 1. Relation 4.1.1 was introduced for the first time in 2006 and used since then “as is”. It links the kinematic robot height . Prepared by. Haya De’bas. Jumanah Salhab. Supervisor. Dr. Ra’ed Al-. Qadi. Outline. What is smart plant robot. Overview. Motivation. Constraints. Methodology. Future Work. What is smart plant robot?. – . some . issues in   controller design and . implementation. L. Huang. School of Engineering and Advanced Technology Massey University. Outlines. Introduction. Target . tracking control schemes based on . What is ROBOT ?. DEFINITION. “A reprogrammable, multifunctional manipulator designed to move material, parts, tools, or specialized devices through various programmed motions for the performance of a variety of tasks.”. EEL5666. Robert Hartwell. 31 Jan 2012. Summary. 1: Scope. Take a wireless drink order, navigate to drink station and correctly mix the drink. 2: Gain from the solution to the problem. Mixed drinks and inebriation. Hideki . Kozima. and Hiroyuki Yano. Introduction. Shift . from . intentional . stance to design . stance. Attribute ability to the designers not the robot.. I. magine . a robot that has learned and . Matanya Elchanani and Tarek Sobh. University of Bridgeport. Department of Computer Science and Engineering. Robotics, Intelligent Sensing and Control. RISC Laboratory. The Basic Idea. Robots are controlled locally. Save a copy of this . powerpoint. – click on links or do a . google. search. Type your answers on the . powerpoint. and save it.. Your Name: . Disaster. Disaster has struck in the form of a bomb threat, land mine removal, and a nuclear attack. Read about the robots, watch the clips, and choose the appropriate robot for each disaster.. Hesham. . Alsahafi. . and . Majed. . Almaleky. Robotics, Intelligent Sensing and Control (RISC) Lab . School of Engineering, University of Bridgeport . ABSTRACT. The accumulation of waste has become a major problem in urban city dumps. There are different kinds of waste that affect our environment, for example metallic and plastic waste. Developing metallic waste collection robot system is mighty challenge. There is very limited research related with robot systems that specialize in the collection and processing of waste. In these slides, we propose robotic system that can be used for waste metallic collection. This robot is equipped with metal detector, ultrasonic sensor, control and power unit, and actuators. This autonomous robot can perform tasks such as obstacle avoidance and metal detection. .