History of Robotics Section 3. Objectives By the end of this unit the students will be able to: 1.State what Robotics is 2.State why Robotics is important.

Slides:

Advertisements

Similar presentations

Robotics History The idea of a robot is not new. For thousands of years people have been imagining intelligent mechanized devices that perform human-like.

Advertisements

Robotics and Automation. The robotics is a science that studies the behaviour of the intelligent beings, it tries to develop some methodologies that allow.

Unit 1: Technological Inventions and Innovations

Mechatronics 1 Week 1. Learning Outcomes What is a robot and analysis on how it works will be presented in this course (week 1 to week 13). By the end.

Mechatronics 1 Weeks 13. Learning Outcomes By the end of week 13 session, students will understand the application and future trends robots.

CPSC 452: Lecture 1 Introduction, Homogeneous transformations and Coordinate frames.

COMP322/S2000/L21 Origin of the word “Robot” From Czechoslovakian words: ROBOTNICK ==> serve ROBOTA ==> work Introduced in 1921 by the playwright Karel.

Robotic Systems Trends, Research, Future CSCi 338 :: Distributed Systems :: Fall 2005 Aleksandar Stefanovski.

Moving Into Automation: The Life of Henry Ford. The Early Years Henry Ford was born on July 30, He was born on a farm near Dearborn, Michigan.

Manufacturing Technology. Learning Standards 4. Manufacturing Technology Manufacturing is the process of converting raw materials into physical goods,

Automation and Robotics. What is the Difference? Automation involves a mechanical device that can imitate the actions of people or animals. Robotics involves.

Robotics Sharif In the name of Allah. Robotics Sharif Introduction to Robotics o Leila Sharif o o Lecture #1: The.

ROBOTIC TECHNOLOGY ROBOTICS.

By Daniel McCallum The Many Applications of Robots.

. Throughout the late nineteenth century, the inventions of steel, the moving assembly line, and the automobile revolutionized American industry and urban.

INTRODUCTION OBJECTIVES BE ACQUANTED WITH AUTOMATION AND ROBOTS UNDERSTAND THE TECHNOLOGY OF ROBOTS RECOGNIZE THE ECONOMIC AND SOCIAL ISSUES ASSOCIAT5ED.

Namas Chandra Introduction to Mechanical engineering Chapter 2-1 EML 3004C CHAPTER 2 Mechanical Engineering as A Profession.

History on Robotics Created by: Magdalena Roman, ITEC 1301, Section#9857 Instructor: Dr. Stacey McCroskey University of Houston Created by: Magdalena.

Robotics Overview History Current Applications Future Social Implications Further Readings.

ROBOTS Presented by Maryam.

1 4-H Science Camp: Robotics at OSU Army Research Lab Brent Perteet James McClintock Daniel Cruz Colby Toland Kyle Hutchins Dr. Rafael Fierro MARHES Laboratory.

“The means through which our needs are met.”. I. Two Types of Production Systems a. Manufacturing: making goods in a workshop or factory. b. Construction:

Robots History A machine is a robot if it meets three criteria. First, it has to do mechanical work. Second, robots can perform a variety of tasks. Third,

Dr. HABEEB HATTAB HABEEB Dr. HABEEB HATTAB HABEEB Office: BN-Block, Level-3, Room Ext. No.: 7292 UNITEN.

ROBOTICS VOCAB AND FLOWCHARTING. ROBOTICS VOCABULARY Robot- a machine capable of carrying out a complex series of actions automatically, especially one.

Submitted by VISHNU KANT MISHRA Reg. no.: th sem.

In the name of Allah.

SEMINAR REPORT ON K.SWATHI. INTRODUCTION Any automatically operated machine that functions in human like manner Any automatically operated machine that.

ROBOTICS BY TEAM 4. HISTORY When Did It Begin? History is vaster than we think. Began in the 10th century BC Automaton.

CAD/CAM, Robotics and Automation Chapter 10, Section 10.3, 10.4 and Handout.

Teachers Name : Suman Sarker Telecommunication Technology Subject Name : Computer Controller System & Robotics Subject Code : 6872 Semester :7th Department.

Robotics Robotics History Robotics Technology Types of Robots.

Flexible Manufacturing Systems. Flexible Manufacturing Systems (FMS) is an automated workshop. Automation means –automated processing, –automated transportation,

Introduction to Robotics History of ROBOTICS. History of Robotics … 1.

The Basics of the Economic System. A) Division of Labor 1) Divide the production process up into specific tasks.

Prepared By: Eng. Mostafa Elsayed Abdel Moniem Assistant Lecturer at Faculty of Engineering.

INTRODUCTION TO ROBOTICS Part 1: Overview Robotics and Automation Copyright © Texas Education Agency, All rights reserved. 1.

Robotics Where AI meets the real world. AMAN KUMAR, SECTION –B4902.

Lesson Using Robotics Systems. Interest Approach Think of some practical uses of a robot. Think of some practical uses of a robot.

Introduction to Industrial Robots Landstown High School Governor’s STEM Academy Robotics Pathway.

The Production Process What are the four stages of production? How are things mass produced?

 Describe the essential components of robotic systems, sensors, actuators and control architectures.  Work as a member of a team tasked with designing,

HISTORY OF ROBOTICS BRIEF TIMELINE OF MODERN ROBOTICS.

Technology in the Community

Joining Talent & Technology Tooling Design for Automated Welding in the Automotive Industry.

7 | Cost and Industry Structure. Fixed and Variable Costs Fixed costs are expenditures that do not change regardless of the level of production or factor.

ESSENTIAL QUESTIONS: HOW CAN BUSINESSES AND INDIVIDUALS MAKE GOOD ECONOMIC DECISIONS? HOW DO THE GOALS OF CONSUMERS DIFFER FROM THE GOALS OF PRODUCERS?

ROBOTICS Project by- V.Bindiya , Narayana IIT Olympiad School.

What is Engineering? Engineering Week What is engineering ? According to Webster’s Dictionary: Engineering The application of math and science by.

Introduction to Robotics Robots have become a subject of great interest nowadays. In our imagination, a robot is a machine that looks and acts like a human.

Robots EQ: How do humans interact with robotic systems?

Robot History By Michél Patrón 1.

Robotics ”Gopi,IIIT, RK Valley”. 9/27/2016Robotics2 Learning Objectives Introduction to the Robotics History of robotics Automation Types of Automation.

Development of Manufacturing

Introduction to Robotics

(C) 2001, Ernest L. Hall, University of Cincinnati

Mobile Robotic Arm.

Ben Atkins Josh Hodak Shawn Osborn

Computer Output Device: Arm Robot

Introduction to Robotics

Special English for Industrial Robot

Special English for Industrial Robot

רובוטיקה.

Chapter 10 Section 3 Production Process.

Division of Labor and Specialization

Industrial Robotics.

Presentation transcript:

History of Robotics Section 3

Objectives By the end of this unit the students will be able to: 1.State what Robotics is 2.State why Robotics is important 3.State how and when Robotics began 4.Where is Robotics now?

What is a Robot/Robotics? Robotics or a ROBOT is a mechanical arm, a manipulator designed to perform many different tasks and capable of repeated, variable programming. To perform its assigned tasks, the robot moves parts, objects, tools, and special devices by means of preprogrammed motions and points.

Importance of Robotics Robotics play a lot larger role in our lives than we think. Everyone knows how Robots are used in the automotive industry to help assemble vehicles but what about other industries?

Importance of Robotics Robot Video 1 Robot Video 2 Robot Video 3

How and When of Robots The word “Robot” first originated in 1921 in Czechoslovakia at a play and is derived from their word “robota” meaning forced labor. Forty years later the modern technology of industrial robots began. The story back then was about a scientist and his son who develop technology to manufacture robots to do all physical

How and When of Robots Labor. Finally after constant improvements they developed the perfect robot. The problem was this robot goes out of control and attacks humans. In 1942, robotics took their first positive role by being portrayed in a positive way to assist humans.

How and When of Robots In the 1960’s robots were introduced to industry. Initially, robots sold for an average of $25,000 with a life expectancy of about eight years, cost approximately $4.00 per hour to operate and had to compete with humans for jobs. During the 1970’s, the average prices of robots increased to approximately $45,000, life expectancy of $5.00

How and When of Robots Per hour. In 1980 there were 4,000 robots in the US and 26,000 worldwide In the mid 1980’s, there were 17,000 robots with an average price of $60,000 and life expectancy of 15 years. Operating costs were $5.50 per hour for a robot and $14.50 for human labor

How and When of Robots There are over 650,000 robots in use today with a life expectancy of 17 years and average price of $72,000, as well as an hourly rate of $7.00 per day. Average human daily rate is $24.00 an hour.

Robotics Now? How are robots used today? Island Automation Spot Welding Multitasking Problem Solvers (heat, light, etc)