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Transcript
CS344: Introduction to
Artificial Intelligence
Pushpak Bhattacharyya
CSE Dept.,
IIT Bombay
Lecture 31 and 32– Brain and
Perceptron
The human brain
Seat of consciousness and cognition
Perhaps the most complex information processing
machine in nature
Historically, considered as a monolithic information
processing machine
Beginner’s Brain Map
Forebrain (Cerebral Cortex):
Language, maths, sensation,
movement, cognition, emotion
Midbrain: Information Routing;
involuntary controls
Cerebellum: Motor
Control
Hindbrain: Control of
breathing, heartbeat, blood
circulation
Spinal cord: Reflexes,
information highways between
body & brain
Brain : a computational machine?
Information processing: brains vs computers
 brains better at perception / cognition
 slower at numerical calculations
 parallel and distributed Processing
 associative memory
Brain : a computational machine? (contd.)
• Evolutionarily, brain has developed algorithms most
suitable for survival
• Algorithms unknown: the search is on
• Brain astonishing in the amount of information it
processes
– Typical computers: 109 operations/sec
– Housefly brain: 1011 operations/sec
Brain facts & figures
• Basic building block of nervous system: nerve cell
(neuron)
• ~ 1012 neurons in brain
• ~ 1015 connections between them
• Connections made at “synapses”
• The speed: events on millisecond scale in neurons,
nanosecond scale in silicon chips
Neuron - “classical”
• Dendrites
– Receiving stations of neurons
– Don't generate action potentials
• Cell body
– Site at which information
received is integrated
• Axon
– Generate and relay action
potential
– Terminal
• Relays information to
http://www.educarer.com/images/brain-nerve-axon.jpg
next neuron in the pathway
Computation in Biological
Neuron
• Incoming signals from synapses are summed up at the
soma
•  , the biological “inner product”
• On crossing a threshold, the cell “fires” generating an
action potential in the axon hillock region
Synaptic inputs: Artist’s
conception
Symbolic AI
Connectionist AI is contrasted with Symbolic AI
Symbolic AI - Physical Symbol System
Hypothesis
Every intelligent system can be
constructed by storing and processing
symbols and nothing more is necessary.
Symbolic AI has a bearing on models of
computation such as
Turing Machine
Von Neumann Machine
Lambda calculus
Turing Machine & Von Neumann Machine
Challenges to Symbolic AI
Motivation for challenging Symbolic AI
A large number of computations and
information process tasks that living beings are
comfortable with, are not performed well by
computers!
The Differences
Brain computation in living beings
Pattern Recognition
Learning oriented
Distributed & parallel processing
Content addressable
TM computation in computers
Numerical Processing
Programming oriented
Centralized & serial processing
Location addressable
Neural Computation
Some Observation on the brain
• Ray Kurzweil, The Singularity is Near, 2005.
• Machines will be able to out-think people within a few
decades.
• But brain arose through natural selection
• Contains layers of systems for that arose for one
function and then were adopted for another even if they
do not work perfectly
Difference between brain and
computers
• Highly efficient use of energy in brain
• High Adaptability
• Tremendous amount of compressions: space is a premium for the
cranium
• One cubic centimeter of numna brain tissue contains
– 50 million neurons
– Several hundred miles of axons which are “wires” for
transmitting signals
– Close to trillion synapses- the connections between
neurons
Immense memory capacity
• 1 cc contains 1 terabyte of information
• About 1000 cc makes up the whole brain
• So about 1 million gigabyte or 1 petabyte of
information
• Entire archived cntent of internet is 3 petabyte
Moore’s law
• Every year doubles the storage capacity
• Single computer the size of brain will contain a
petabyte of information by 2030
• Question mark: Power Consumption?
Power issues
• By 2025, the memory of an artificial brain will
use nearly a gigawatt of power: the amount
currently consumed by entire Washington DC
• Contrastedly: brain uses only 12 watts or power,
less than the energy used by a typical
refrigerator light
Brain vs. computer’s procesing
•
•
•
•
Associative memory vs. adressable memory
Parallel Distributed Processing (PDP) vs. Serial computation
Fast responses to complex situations vs. precisely repeatable steps
Preference for Approximations and “good enough” solutions vs exact
solutions
• Mistakes and biases vs. cold logic
Brain vs. Computers (contd.)
• Excellent pattern recognition vs. excellent number crunching
• Emotion- brain’s steerman- assigning values to experiences and
future possibilities vs. computer being insensitive to emotions
• Evaluate potential outcomes efficiently and rapidly when information
is uncertain vs. “Garbage in Garbage out” situation”
Perceptron
The Perceptron Model
A perceptron is a computing element with input
lines having associated weights and the cell
having a threshold value. The perceptron model is
motivated by the biological neuron.
Output = y
Threshold = θ
wn
w1
Wn-1
Xn-1
x1
y
1
θ
Σwixi
Step function / Threshold function
y
= 1 for Σwixi >=θ
=0 otherwise
Features of Perceptron
• Input output behavior is discontinuous and the
derivative does not exist at Σwixi = θ
• Σwixi - θ is the net input denoted as net
• Referred to as a linear threshold element - linearity
because of x appearing with power 1
• y= f(net): Relation between y and net is non-linear
Computation of Boolean functions
AND of 2 inputs
X1
x2
y
0
0
0
0
1
0
1
0
0
1
1
1
The parameter values (weights & thresholds) need to be found.
y
θ
w1
w2
x1
x2
Computing parameter values
w1 * 0 + w2 * 0 <= θ  θ >= 0; since y=0
w1 * 0 + w2 * 1 <= θ  w2 <= θ; since y=0
w1 * 1 + w2 * 0 <= θ  w1 <= θ; since y=0
w1 * 1 + w2 *1 > θ  w1 + w2 > θ; since y=1
w1 = w2 = = 0.5
satisfy these inequalities and find parameters to be used for
computing AND function.
Other Boolean functions
• OR can be computed using values of w1 = w2 = 1
and = 0.5
• XOR function gives rise to the following
inequalities:
w1 * 0 + w2 * 0 <= θ  θ >= 0
w1 * 0 + w2 * 1 > θ  w2 > θ
w1 * 1 + w2 * 0 > θ  w1 > θ
w1 * 1 + w2 *1 <= θ  w1 + w2 <= θ
No set of parameter values satisfy these inequalities.
Threshold functions
n # Boolean functions (2^2^n) #Threshold Functions (2n^2)
1
4
4
2
16
14
3
256
128
4
64K
1008
•
•
•
Functions computable by perceptrons - threshold
functions
#TF becomes negligibly small for larger values of
#BF.
For n=2, all functions except XOR and XNOR are
computable.