TEAM 8 – Project 1 Cast: Neelam Chauhan Josh Guice Vitaliy Marin Ramakrishna Pantangi.

Slides:

Advertisements

Similar presentations

Introduction to LEGO NXT robotics and Robot Sumo

Advertisements

Robo-lab Report Engineering 1111; Dr. Even Lemley Team six: Doug Cross, Chadd Fleming, Gaurav Kumar, Abu Rahman, and Jonathan Tucker.

Structures and Mechanisms.

Worm and Wheel Gear Crank Wheel Gear (Driven) Worm Gear(Drive)

IRobot, Prosthetic Arm, and Rescue Robot Group 4 Adrian Burke Darren Draper Collin Palmer Max Reinisch Viyat Jhaveri Can Gurkan.

Introduction  If you have ever been to shooting range before, you know that firing a gun is fun. Time flies when you’re sending hundreds of rounds down.

VEX Drive Systems Presented by Chani Martin Lauren Froschauer Michelle Gonzalez Presented by Chani Martin Lauren Froschauer Michelle Gonzalez.

AARON HEO PERIOD 6. Which combination will allow a car to travel faster around a track?

1 Postdelivery Maintenance Xiaojun Qi. 2 Why Postdelivery Maintenance Is Necessary Corrective maintenance: To correct residual faults –Analysis, design,

Engineering H193 - Team Project Gateway Engineering Education Coalition P. 1 Spring Quarter 2008 Robot Programming Tips Week 4 Day 2 By Matt Gates and.

Copyright Carnegie Mellon Robotics Academy all rights reserved Vex 1.0 © 2005 Carnegie Mellon Robotics Academy Inc. Wheel Size Matters: Programmed Rotations.

Copyright Carnegie Mellon Robotics Academy all rights reserved Vex 1.0 © 2005 Carnegie Mellon Robotics Academy Inc. Does Wheel Size Matter? Starter Kit.

Damian Marks Rekha Vemuri Instructor: Dr. Wu Simple control system for a Stepper and DC motor using a tachometer and the HC11.

Team 23 Enterprises Presents… ™. Outline of Presentation Objectives / Parameters Objectives / Parameters Robot Prototype Design Robot Prototype Design.

Localization Using Interactive C and a Standard LEGO Mindstorms Hardware Suite Gary R. Mayer, Dr. Jerry Weinberg, Dr. Xudong Yu

VEX Drive Systems Presented by Chani Martin Lauren Froschauer Michelle Presented by Chani Martin Lauren Froschauer Michelle.

Flakey Flakey's BackFlakey's Front. Flakey's Control Architecture The following is cited from the SRI web pages: Overview SRI's mobile robot, Flakey,

ORTOP WORKSHOP 3 ROBOT NAVIGATION & MISSIONS ORTOP WORKSHOP 3 ROBOT NAVIGATION & MISSIONS.

The George Washington University Department of ECE ECE Intro: Electrical & Computer Engineering Dr. S. Ahmadi Class 3.

System Analysis (Part 2) The System Development Life Cycle Problem Selection and Feasibility Study.

Mechanisms from Simple Machines

Smart Plant Robot Prepared by Haya De’bas Jumanah Salhab Supervisor Dr. Ra’ed Al-Qadi.

Land Transportation cont.. Transmitting Power »Drive System – A system used to transfer the motion of the engine’s crankshaft into the power that moves.

Creating a Robot By: Joshua J. Lynch. 2 Defintion of a Robot  According to Marriam-Webster- a Robot is:  a machine that looks like a human being and.

Problem Statement Need to build a manually controlled robot capable of moving around and gripping and lifting objects. Basically we can divide this problem.

Today’s Agenda 1.Scribbler Program Assignment 1.Project idea due next class 2.Program demonstration due Wednesday, June 3 2.Attendance & lab pair groupings.

ECE 001: Team Awesome Patel, Hetal Odobasic, Stephen Rajeevan, Sushmitha Noel, Kelli Patel, Hetal Odobasic, Stephen Rajeevan, Sushmitha Noel, Kelli.

EV3 Workshop Oct 3, 2015 Instructor: Chris Cartwright

Mobile Robot Bases. Types of Mobile Robot Bases Ackerman Drive – typical car steering – non-holonomic.

More LEGO Mark Green School of Creative Media. Introduction  Now that we know the basics its time to look at putting some robots (or toys) together 

Robot Report Group 7. Outline Introduction Introduction Robot Construction Robot Construction Design Specifications Design Specifications Design Process.

NXT A computer controlled brick and the “brain” of your robot that controls the motors and sensors.

Fischertechnik Mechanisms

Two-Gear Gear Trains Using different size gear allows change in speed

David Lorrain Christian Washington John West Chris Le Meggie Alleman October 25, 2012 Team 10Advisor: Dr. Jerry Trahan.

Differential Dissection: Gears and Spline Shafts

ROBOKIDS ACTIVITY 5 & 6. Let’s have a look at a couple of examples of autonomous robots in action around the world. (put on full screen when YouTube opens!)

The George Washington University Department of ECE ECE Intro: Electrical & Computer Engineering Dr. S. Ahmadi Class 4/Lab3.

The George Washington University Electrical & Computer Engineering Department ECE 002 Dr. S. Ahmadi Class3/Lab 2.

Controlling a Robot with a Neural Network n CS/PY 231 Lab Presentation # 9 n March 30, 2005 n Mount Union College.

fischertechnik Mechanisms

Group 7 Project 1 Presentation Robert Moe John Zumwalt Mark Woehrer Celi Sun.

Robotic in Preparatoria 3 In the Preparatory 3 there is an special area where we build, program and test our robots All Monday, Wednesday and Friday mornings.

Scrumm meeting. Mechanical Done. Designed the top part Working on encoders Working on documentation What to do? Work on the top part Finish encoders.

Scrumm meeting. Mechanical Done. Work on RFID attachments Started designing top Working on encoders What to do? Work on design encoders.

CS 5973 – Intro to Intell Robots Project 1 – Sensing and Movement Group 4 Justin Fuller Matthew Lawrence Rahul Kotmaraju.

Copyright Carnegie Mellon Robotics Academy all rights reserved Vex 1.0 © 2005 Carnegie Mellon Robotics Academy Inc. Does Wheel Size Matter? Starter Kit.

Curtis Gittens Daniel Goundar Daniel Law Johannes Minor April 14 th 2008.

Different Types of Robots

Activity 4.2.8a Satellite Flight Satellite Robot Construction Guide

Lego Robot Challenge.

Content Gears Gear ratios Types of gear wheel Dr. Basil Hamed IUG.

8/30/2004 RoverBot Assembly The following pages show assembly plans for the RoverBot using the Consumer MindStorms or School Team Challenge Lego kit. Assemble.

After completing this phase, you will be able to:

Chopper John Michael Mariano

Robo-Math How Far? The Distance a Robot Travels in One Rotation of the Motor = The Circumference of the Wheel Circumference (of the Wheel) = Diameter (of.

USAR Design Specification

FOUR-WHEEL STEERING SYSTEM

Two-Gear Gear Trains Using different size gear allows change in speed

Review and Ideas for future Projects

Motion STARTER Parts list Quick task: Discuss in pairs all the parts shown. Agree the function each of these parts for the Tumbler motion, and write your.

Content Gears Gear ratios Types of gear wheel. Unit 41: Transmission 1 Dr. Fady El Nahal Technical English Islamic University of Gaza April, 2017.

Mechanisms From Simple Machines.

Lego Robotics Will Schleter 11/12/2018.

Presented by Angel Nunez IDML Spring 2008 Dr. Arroyo Dr. Schwartz

FeMaidens Programming

Activity 4.2.8a Satellite Flight Satellite Robot Construction Guide

Robotics Programming Review and Quiz.

FOUR-WHEEL STEERING SYSTEM

Presentation transcript:

TEAM 8 – Project 1 Cast: Neelam Chauhan Josh Guice Vitaliy Marin Ramakrishna Pantangi

Team Organization Four people, each person was dedicated to one sub-task –Hardware design (person 1) (were done in –Software design (person 2 ) at the same time) –Testing phase (person 3) –Documentation (person 4) For the next project will be split into two subtasks -Hardware design (two people) -Software design (the other two people)

The Mechanical Design of the Robot Wheels: 3 wheels total 2 front wheels are independently powered by 2 Lego motors And 1 small wheel is on the back

The Mechanical Design of the Robot Gears: Only 2 gears –spur gears ( front wheel driven) Front wheel

Mechanical Design of the Robot cont. Sensors: 2 shaft encoders -monitored the speeds of the motors -positioned on the front wheels 2 reflectivity sensors –Positioned on the back

Software Design of the Robot monitor_sensors() process, reads all sensors and is running continuously. Flowchart go_straight(distance) if (fronttape) distance=smaller; else(backTape) distance=larger; right_turn(); go_back(~1.5ft) align() Success: the robot always aligns itself to the black tape if it crosses it.

Conclusions 1. At least two informal meetings are a must 2. There should be “hardware freeze” date 3. Successfully demonstrated the robot alignment to the black tape. 4. After the Friday demonstration we did careful technical investigation. We found out that the major flaw of our robot was that it could not go in perfect straight line, due to hardware problems

Acknowledgements Dr. Hougen

Commercial Break Questions?