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CORC 3303: Exploring Robotics���
Lecture Unit A M. Meyer
Topics: 0. Introduction to the course:
Instructor website: http://www.sci.brooklyn.cuny.edu/~meyer/CORC3303/index.htm
CORC 3303 website: http://agents.sci.brooklyn.cuny.edu/corc3303/index.html
What is a robot? Robots in society. Robot Components. Introduction to the course robots (RCX)
(0) Intro to this course Class Rules:
1. Respect 2. Get your money's worth!
Attendance: This is a VERY hands on course. Attendance is
basically mandatory as you will NOT have the option of making up missed labs.
(0) Course Structure 6 Units (and each unit has):
1 lecture 2 labs 1-2 assessment assignments.
All labs will be hands-on sessions using the Lego RCX
Assessment assignments will be: written, take-home assignments ... AND/OR written, in-class quizzes ... AND/OR oral, in-class presentations ... AND/OR oral, in class demonstrations
Grading = 6 Unit Materials (10% each) + Final (30%) + Attendance & Participation (10%)
(1) What is a robot? WE will be focusing on AUTONOMOUS mobile
robots. These robots can be considered "agents" in the physical world. So...
Questions: What is an agent? What is autonomy (autonomous)? What is a robot?
(1) Agents Agent is derived from the Latin agere (to do). What
an "agent" is depends on the context of the domain. Real estate agent. Secret agent. Software agent, chemical agent.
Commonality is that an "agent" is something that "acts" on behalf of some other entity to achieve a goal.
Additional Constraint (Russel & Norvig, 32): Agent is "anything that can be viewed as perceiving it's environment through sensors and acting on it's environment through effectors."
Example: Software Agent (Game)
(1) Autonomy (Autonomous) To be autonomous means:
to be independent free of constraints able to act on ones own initiative
NO REMOTE CONTROL!!!! NO TELE-OPERATION!!!
Autonomous Agent: An agent that while working on behalf of someone else, makes decisions on it's own, guided by feedback from it's sensors. We usually assume autonomy, when discussing agents and robots.
(1) Robot definition "A re-programmable, multifunctional manipulator
designed to move material, parts, tools, or specialized devices through various programmed motions for the performance of a variety of tasks." Robot Institute of America, 1979.
For our purposes a robot is: an autonomous embodied agent. an agent acting independently, whose environment is the
real world! We ASSUME autonomy when we use the term robot.
(1) Our definition of a robot A robot is an autonomous system (agent) which
exists in the physical world, that can sense its environment (including its own internal state) and act on its environment to achieve some goals.
Robotics: The study of robots: their design, construction, capabilities and purpose.
(2) Robots in society (history +) From the Czech word robota, which means "slave". Word first appeared in a play in 1923 (Karel Capek,
"Rossum's Universal Robots") "Human like" machines date back to the ancient Greeks. Modern view of robots heavily shaped by Science
Fiction (books, films, television). Foremost historical influence: Isaac Asimov "I Robot" (1950) proposed 3 Laws of Robotics
1. A robot may not injure a human being or, through inaction, allow a human being to come to harm.
2. A robot must obey any orders given to it by human beings, except where such orders would conflict with the First Law.
3. A robot must protect its own existence as long as such protection does not conflict with the First or Second Law.
(2) Control Theory & Cybernetics Control Theory: Is the mathematical study of the
properties of automated control systems (steam engines, airplanes, CPUs, motherboards)
Cybernetics: Study of communication and control processes in both biological and artificial systems. Particular focus on interactions between mechanism/organism and it's environment.
(2) The first robots?
Grey Walter's Tortoises (1940): Simulated biological systems (biomemetic). Simple machines with simple sensors could
Find/follow/avoid light. Track/Move/Avoid obstacles. Feed(recharge batteries)
Very simple reasoning (reactive control) could still lead to complex behavior (emergent phenomena).
Early attempt at artificial life?
(2) 1st robots (continued)?
Braitenberg's vehicles (1984): Not actually built (by him) but proposed. Again, used analog circuitry. Biological mimicry.
Photophilic, Photophobic Social aggression, affection
Excitatory and Inhibitory Connections Stronger signals could induce stronger
response. and vice versa
(2) Artificial Intelligence
Field was "born" in 1956 Minksy, McCarthy, Newell, Simon Proposes a model for "intelligence" requiring:
1. Internal Model of the "world" 2. Ability to "search" through possible solutions 3. Planning and reasoning abilities to solve problems 4. Symbolic thinking, and representation systems 5. Hierarchical system organization 6. Sequential program execution
NOTE: Their priorities mirrored one understanding of how human minds function.
(2) Early AI inspired robots. Shakey(1960's)
Used a camera & bumper sensors to create a "model" of it's environment to help it create and execute plans.
HILAIRE(1970's) Camera, ultrasound sensors, laser rangefinder. Widely used.
CART(1977) Vision based robot navigation (tough & slow)
Rover(1983) Camera and Ultrasound (platform advancement)
(2) Types of Robotic Control 1. Reactive Control 2. Hybrid Control 3. Behavior Based
We will go into these topics in detail later in the semester… but here is a question to get you started.
Question: What kind of control system would you prefer if you are in a room with:
1. A rapidly spreading fire. 2. Several land-mines.
End of Part I ���Unit A Lecture
You are now assigned your first homework:
Assessment Assignment #1 - Is it a Robot Answer some questions. Write a short essay.
It is due at the start of UNIT B. No late
assignments will be accepted.
-------- Side note: -------- Why study robotics? Just for a moment, for fun, let's
imagine that your livelihood and life, depended on it.
1. The history of advanced machines, computers and robots is full of individuals who were "left behind" by the march of technology. Adapt or perish!
2. Robots are going to dramatically and irreversibly change the social and political realities of the world we live in... within your lifetime.
-------- Side note: -------- Touch Typists - RIP - Wang 1200 WPS (1974)
-------- Side note: -------- Financial Clerks - RIP - VisaCalc (1979)
-------- Side note: -------- Factory and Assembly Line Workers (Say hello to
the Dodo for me!)
But wait! Jobs with complex, materials are safe... right?
-------- Side note: -------- What about jobs, that incorporate a wide variety of
different tasks, responsibilities? For that you would need something, well, like us.
-------- Side note: -------- OK, but nobody is saying that robots are taking away
jobs from real humans... right?
-------- Side note: -------- If a job is repetitive, and only requires basic direction
following and decision making skills, a robot can AND will wind up doing it. Corporations are profit driven.
-------- Side note: -------- It's not just your livelihood that is at risk.
Checkout: FY2009–2034 Unmanned Systems Integrated Roadmap
----- End of Side Note -----
(3) Robot Components Our robot definition: "A robot is an autonomous
system, which exists in the physical world, that can sense it's environment, and can act on it to achieve some goals."
So our robot must have: A body Sensors Effectors A controller
(3) Embodiment In a software environment (ex: a game world) we get
to make the rules, and we can let an agent do anything we want. In the real world:
The laws of physics apply (gravity, friction, entropy). Objects can't overlap (collision avoidance). Physical bodies have range, strength, distance and
shape limitations. Physical bodies have time limitations.
(3) Sensing A robot gathers information about its state and
the environment via sensors. Sensors can be classified as active and passive. Typically a robot has a suite of sensors capable of
monitoring numerous features, such as battery level, odometry, and distance to nearby objects.
With this information, the robot can determine its current state. The robot can then use this state information to
decide what actions are appropriate. In the end, all sensors, are converting a physical
property, into an electronic signal.
(3) Types of Sensors
(3) State
May be hidden, partially observable, observable (don't have perfect knowledge in the real world).
May be discrete (0/1) or continuous (3.33 m/sec).
State space refers to all of the possible values (may be infinite) that a systems state could be in.
We can conceptualize both an internal and external state space.
Robots may carry around a representation (model) of the external world, as part of their internal state.
(3) Action
Effectors enable a robot to take action, to change the state of the world (including its own position).
Actuators are the underlying mechanisms (muscles, motors, solenoids) which do the actual work.
Main action activities are: Locomotion (moving around) Manipulation (handling objects)
Degrees of freedom: Refers to the range of motion, the dimensions in which a manipulator can move (more on this as well as Pitch, Yaw and Roll in Chap 6).
(3) Controllers
Robots utilize small, highly specialized computers to allow them to reason about their world.
The kind of reasoning employed varies (reflexive versus "intelligence").
We can talk about two kinds of intelligence in our controllers. Reasoning (if/then) Learning (this is what the past was like...
so...)
(4) Say Hello to the RCX The Robotics Command Explorer is
the brain of the MINDSTORM. The RCX is a small computer
(nickname "programmable brick"). It has:
An IR transceiver 3 input ports (1-3)
light sensors bumpers
3 output ports (A-C) motors lights
(3) For the Hardware Junkies
(3) Programming You will write your programs on
a computer and download them to the RCX using an IR transmitter ("communications tower").
We will use Robolab a VPL (Visual Programming Language) IDE (integrated development environment) to write our programs.
There are other program interfaces to the RCX.
End of Part II ���Unit A Lecture
You are now assigned your second homework:
Assessment Assignment #2 - Big Dog Read 2 case studies. Answer some short questions
It is due at the start of UNIT B. No late assignments will be accepted.
-------- Side note: -------- Halfway through this lecture, we looked at some of
the NEGATIVE aspects of the coming "robot revolution". Which leads us to the question: Do we even want robots?
The answer is (at least for me) yes. Why? Because there are some jobs, some tasks, that we don't want human beings to have to do, because they are: 1. DULL 2. DIRTY 3. DANGEROUS
DULL
DIRTY
DANGEROUS
ROBOT WARRIORS?
Regarding Military and Police robots. What would a robot be programmed to do in the following situations? Confronting a suspect in a dark doorway who is pointing
a black object at the robot. Apprehending a suspect after a dangerous high-speed
car chase through city streets. Confronting student protesters on a college campus, one
of whom has just hurled a bottle. In a crisis situation, human beings often cease to be
rational beings and instead act based on their training, emotions and instincts. ("On Killing" by LT. Colonel Dave Grossman). Consider: A robot won't care if you spit on it.
-------- Side note: -------- Big picture: Robots and robotics pose both huge
problems and huge opportunities for all mankind. The question is, can we, as a species, adapt to this new and disruptive technology.
Something fun to ponder: In the end, the earth, our planet and home, will be destroyed by the Sun. We are not built to survive/thrive in outer space. There are some who have suggested that Robots may well be the next step in our evolution...