IGCSE ICT Robots.

Slides:

Advertisements

Similar presentations

Chemistry safety Part 2.

Advertisements

IGCSE ICT Control Systems.

Standard Grade Computing Automated Systems. What is an Automated System When computers are used to control a system consisting of machinery and equipment.

Car Manufacture How organizations use ICT. Objectives Have an understanding of how organizations use ICT. Be able to describe a number of uses, giving.

Control Systems Computer Control Systems make devices and machines do what we want them to do in the right order and at the right time. Objectives: What.

Programmable Logic Controller PLC

Automated Systems Standard Grade What Is An Automated System? A system in which computers are used to control machines and equipment For example: –Traffic.

Standard Grade Automated Systems and Industrial Applications Automated Systems and Industrial Applications Standard Grade.

Section 2 How Organizations Use ICT Control systems.

INTRODUCTION TO ROBOTS

ROBOT APPLICATIONS.

IGCSE ICT Control.

Open and Closed Loops Standard Grade Computing Studies.

Standard Grade Computing Automated Systems What is an Automated System The human provides the input. The machine or computer processes the data. The.

Automated Systems.

ICT in Manufacturing. Introduction  Use of computers – Order entry and processing systems Many companies now have on-line ordering systems Check out.

The Rise of Robotics.

COMPUTER CONTROL Year 11. Lesson 1 Introduction to Computer Control.

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

Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display. PowerPoint to accompany Krar Gill Smid Technology of Machine.

ROBOTS By Tomiwa Alabi.

2 3  A machine  Built to help us  Autonomous (not remote control)  If we want robots to do things for us, we have.

Computer are used to control the operation of many and everyday objects. The instructions contained in the computer program send signals out to computer.

The Advantages and Disadvantages

Robotics Robotics History Robotics Technology Types of Robots.

Computer Control.

Computer Control Using computers to control things.

Robotics Systems Robotics CIM Introduction to Automation

Robot Basics Motion and Nomenclature. Robot Main Components Programming Terminal Controller Manipulator Manual Pendent.

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

Bomb Squad Robots Jenny Lee Stacey Stein Gateway to Technology - Basics July 2011.

Describe how emerging technologies are having an impact on everyday life (e.g. artificial intelligence, biometrics, vision enhancement, robotics, quantum.

Evaluating Control Systems

1 RoboticsPresents KaaShiv InfoTech For Inplant Training / Internship, please download the "Inplant training registration form" from our website

New and Smart Materials Mr P Mulholland St Joseph’s High School Crossmaglen.

What is Robotics? Unit 1.1.

IGCSE ICT CAD/CAM. Have an understanding of a broad range of ICT applications, including the use of 3D modelling:  Architecture  Manufacture  CAD/CAM.

Learning Objectives Today we will Learn: What is meant by a Control System Examples of Control systems How control systems work.

Paragraph 1 Mechanical: (adj) involving a machine brain: (n) the organ inside the head which thinks massive: (adj): very large or serious menacing: (adj)

O’Hara Gómez Mauramati ~ Estela Sevilla Andújar Paula Gómez Juárez ~ Ana María Lozano Juárez INDUSTRIAL ROBOTS.

Learning Objectives Today we will Learn:

Computer Control and Monitoring Today we will look at: What we mean by computer control Examples of computer control Sensors – analogue and digital Sampling.

Data logging: The term 'data logging' refers to collecting or gathering data over a period of time. How Data is collected? Sensors are used to take readings.

Pick N Place Robot. Pick N Place Robot Introduction:  Pick and Place robot is the one which is used to pick up an object and.

Robotics: Unit-I.

MOP UP SUBJECTS.

Overview control systems examples of control systems diagrams

VEX IQ Curriculum Smart Machines Lesson 09 Lesson Materials:

Describe how emerging technologies are having an impact on everyday life (e.g. artificial intelligence, biometrics, vision enhancement, robotics, quantum.

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

Robotics and Automation Control

Robot Questions.

How organisations use ICT – Part 1

Project Overview Introduction Clawbot Build Design Modification

Unit 2 – What is a Robot? Pg

Instrumentation and Control Systems

Electricity is a very useful form of energy.

DT-Assessment Frame Work Term2

ET 438B Sequential Control and Data Acquisition

What is a Robot?.

Warm Up- What is a robot? Describe in one sentence what you understand by the term ‘robot’ 2. What are the main parts of a robot? What do people do to.

Science - Year 3/4B Summer 2 Electric Personalities

Presented By : S.Pradeep (AP/MCT)

Can you guess what these three robots are for?

Industrial Automation

Presentation transcript:

IGCSE ICT Robots

The syllabus says you must: Have an understanding of a broad range of ICT applications, including the use of robots. How robots are used in industry Manufacture Production line control The reasons for using them How robots are controlled The advantages and disadvantages of using robots

What is a robot? 1 Webster’s Dictionary says a robot is : “a machine that looks like a human being and has the capacity to perform human tasks”. Not all robots look like humans, though – in fact, most don’t look anything like us.

What is a robot? 2 Robots are able to take in information from their surroundings and make decisions based on that information. A Robot has a number of sensors to provide the information. That information is processed by its computer and then it moves or acts in some way. Bomb disposal robot

How are robots controlled? There are two common methods of controlling robots: Embedded microprocessors Robots linked to a computer system

Programming a robot Generally done in one of two ways: Robot is programmed with a sequence of instructions or A human operator manually carries out a series of tasks/steps Each task/step is relayed back to the robot or the computer Sequence is stored in memory

Common industrial robots The most common type of industrial robot looks a little bit like a human arm. The robot has: joints ( shoulder, elbow, and wrist) manipulator / device on the end of the arm joints powered by motors. These motors are controlled by a computer

End effectors/Manipulators These are the devices on the end of a robot arm The robot's manipulator / device depends upon the job that the robot has to do. It could be: a gripper (like a hand, for picking things up) suction pads (for lifting sheet metal or glass) a paint spray gun (for painting things) a welding gun (for joining metal together)

How Are Robots Used in a Factory? Robots in factories are used to: lift heavy items into from place to place assemble parts together to create things join parts together using glue, or by welding (melting metal) paint things Robots often work in groups, one robot holding a part, whilst another robot does something to it. Spray painting things (a hazardous job for a human - most paint is toxic)

Robots and Production Lines Does this look familiar?

Sensors detect what is happening on the production line, and send data to the computer so that it can decide what to do.

Sensors on a production line Switches / buttons - detect if something is touching them Pressure sensors - detect if something is pressing down on them Light sensors - detect if something is present (blocks the light) Temperature sensors - detect if items are hot/cool enough Liquid level sensors - detect how much liquid is in a container Cameras - detect the shape / colour of objects

Production line processes The control software running on the computer is the process.It: takes the data from the sensors, checks if anything needs to be done, then turns on/off various actuators to make things happen. For example, in a soft-drink factory, the production line involves filling bottles with fluid.

Example: a soft drink factory The computer makes sure that a bottle is in place (using data from a pressure sensor, a light sensor, or a camera) and then turns on the fluid control valve. The data from a fluid level sensor is checked to see if the bottle is full. When it is full, the computer turns off the fluid control valve. These steps are then be repeated for the next bottle.

Advantages of robots Robots can work in environments that would be harmful or dangerous to human operators They can work 24/7 : non-stop Less expensive in the long term: don’t need wages Higher productivity: don’t take holidays/get sick etc Greater consistency Can do boring, repetitive tasks

Disadvantages of robots Expensive to buy Find it difficult to do ‘unusual’ or ‘one off’ tasks Replace skilled labour, leading to unemployment De-skilling (loss of skills) of workforce, because robots do many of the tasks once done by humans Because robots are independent of the skills base, factories can be moved anywhere in the world – again, causing unemployment

Today’s assignment: Your assignment for today is to make sure your notes are complete!

Homework Go to the wiki page Read the article at HowStuffWorks Watch the videos Complete the Robots homework at Edmodo