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ROBOTICS
Lecture 3
Introduction to Robotics
454EngI – Industrial Robotics
Dr. Majed Moosa
Adapted from Emam Fathy

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ROBOTICS: HISTORY AND FUTURE!

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INTRODUCTION
§ Robotics is a relatively young field of modern
technology that crosses traditional engineering
boundaries.
§ Understanding the complexity of robots and their
applications requires knowledge of:
– Electrical engineering.
– Mechanical engineering.
– Industrial engineering.
– Computer science.
– Mathematics.

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INTRODUCTION
§ The science of robotics has grown tremendously
over the past twenty years, fueled by rapid
advances in computer and sensor technology as
well as theoretical advances in control and
computer vision.
§ This course is concerned with fundamentals of

robotics, including kinematics, dynamics, and
control.
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INTRODUCTION
§ A robot is a mechanical or virtual artificial system, usually
an electro-mechanical machine that is guided by a
computer program or electronic circuit.
§ Robotics is the branch of mechanical engineering, electrical
engineering and computer science that deals with the design,
construction, operation, and application of robots.

§ Robots can be autonomous or semi-autonomous such as:
– Humanoids such as ASIMO (Honda's Advanced Step in
Innovative Mobility).
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Humanoids such as
ASIMO (Honda's
Advanced Step in
Innovative Mobility).

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LAWS OF ROBOTICS
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Asimov proposed three “Laws of
Robotics” and later added the
“zeroth law”
Law 0: A robot may not injure
humanity or through inaction,
allow humanity to come to harm
Law 1: A robot may not injure a
human being or through inaction,
allow a human being to come to
harm, unless this would violate a
higher order law
Law 2: A robot must obey orders
given to it by human beings, except
where such orders would conflict
with a higher order law
Law 3: A robot must protect its
own existence as long as such
protection does not conflict with a
higher order law

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HISTORY OF ROBOTICS: I
• The first industrial
robot: UNIMATE
• 1954: The first programmable
robot is designed by George
Devol, who coins the term
Universal Automation. He later
shortens this to Unimation, which
becomes the name of the first
robot company (1962).
UNIMATE originally automated the
manufacture of TV picture tubes

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HISTORY OF ROBOTICS: II
1978: The Puma (Programmable
Universal
Machine
for
Assembly) robot is developed
by Unimation with a General
Motors design support

PUMA 560 Manipulator

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HISTORY OF ROBOTICS: III
1980s: The robot industry enters a phase of rapid growth. Many
institutions introduce programs and courses in robotics. Robotics
courses are spread across mechanical engineering, electrical
engineering, and computer science departments.

Adept’s SCARA robots

Cognex In-Sight Robot

Barrett Technology Manipulator

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HISTORY OF ROBOTICS: IV
1995-present: Emerging
applications in small
robotics
and
mobile
robots drive a second
start-up
growth
of
companies and research
2003: NASA’s Mars Exploration Rovers will launch toward
Mars in search of answers about the history of water on Mars

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INTRODUCTION
§ Robots can be autonomous or semi-autonomous such as:
– Industrial robots.
– Medical robots.
– Patient assist robots.
– Therapy robots.
– Collectively programmed (swarm robots).
– UAVdrones.
– Microscopic Nano robots.
– Etc.

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Medical Robot
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Therapy Robot
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Robotic Fish
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Collectively Programmed (Swarm Robots)

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MODERN ROBOTS
(EXAMPLES)

§ Mobile robot
§ They have the capability to move around in their
environment and are not fixed to one physical
location.
§ Mobile robots are also found in industry, military
and security environments or to perform certain
tasks like vacuum cleaning.

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MODERN ROBOTS
(EXAMPLES)

§ Industrial robots (manipulators)
§ Industrial robots usually consist of a jointed
arm (multi-linked manipulator) and an end
effector that is attached to a fixed surface. One of
the most common type of end effector is a
gripper assembly.
§ An automatically controlled, reprogrammable,
multipurpose, manipulator programmable in three
or more axes, which may be either fixed in place
or mobile for use in industrial automation
applications.
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INDUSTRIAL ROBOTS
§ An industrial robot is defined as an automatically controlled,
reprogrammable, multipurpose manipulator programmable
in three or moreaxes.
§ Typical applications of robotsinclude
– Welding.
– Painting.
– Assembly.
– pick and place (such aspackaging),
– Product inspection.
– Testing.

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TYPES AND FEATURES
§ The most commonly used robot configurations are:
1. Articulated robots ( a robot with rotaryjoints).
2. SCARArobots.
3. Delta Robots ( is a type of parallel robots).
4. Cartesian coordinate robots.
5. Gantry robots (x-y-z robots).

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Articulated robots
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SCARA robots

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Delta Robots
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Cartesian coordinate robots

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ADVANTAGES
•Greater flexibility, re-programmability, kinematics dexterity
• Greater response time to inputs than humans
• Improved product quality
• Maximize capital intensive equipment in multiple work shifts
• Accident reduction
• Reduction of hazardous exposure for human workers
• Automation less susceptible to work stoppages

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DISADVANTAGES
• Replacement of human labor
• Greater unemployment
• Significant retraining costs for both unemployed and
users of new technology
• Advertised technology does not always disclose some of
the hidden disadvantages
• Hidden costs because of the associated technology that
must be purchased and integrated into a functioning
cell. Typically, a functioning cell will cost 3-10 times
the cost of the robot.

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