Intro to Jess The Java Expert System Shell By Jason Morris Morris Technical Solutions.
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Transcript of Intro to Jess The Java Expert System Shell By Jason Morris Morris Technical Solutions.
Intro to Jess The Java Expert System
Shell
By Jason MorrisMorris Technical Solutions
Quotable Quotes
Each problem that I solved became a rule which served afterwards to solve other problems. - Rene Descartes
Quotable Quotes
As a rule we disbelieve all the facts and theories for which we have no use. - William James
Quotable Quotes
Hell, there are no rules here -- we're trying to accomplish
something. - Thomas A. Edison
Quotable Quotes
Get your facts first, and then you can distort them as much as you please. - Mark Twain
Quotable Quotes
If the facts don't fit the
theory, change the facts. - Albert Einstein
Quotable Quotes
There are two rules for success:
1) Never tell everything you know. - Roger H. Lincoln
Quotable Quotes
Facts do not cease to exist just because they are ignored. - Aldous Huxley
Agenda
• What are expert systems?• What are rule-based expert
systems?• Introduction to Jess• The Jess Language
5 minute break
Agenda
• Scripting & The Jess API• Demo 1 : Design Pattern Expert• Demo 2 : Catalog Servlet• References and Further Study• Q & A
Expert Systems…
• Are a branch of artificial intelligence.
• Simulate human reasoning in some domain.
• “Reason” by heuristic or approximate methods.
• Explain and justify solutions in user-friendly terms.
Types Of Expert Systems
• Neural Networks • Blackboard Systems• Belief (Bayesian) Networks
• Case-Based Reasoning• Rule-Based Systems
Rule-Based Expert Systems
• Originated from AI research in the 70s and 80s.
• Problem data stored as facts.• “Reason” using IF…THEN…ELSE
rules.• Can “reason” deductively (forward-
chaining) or inductively (backward-chaining).
When to Use Rule-Based Systems
• Problem Domain = narrow, well-understood domain theory
• Knowledge Representation = facts and rules
• Output = recommendation• Explanation = rule firing trace• Learning Ability = generally no
(but…)
Inference Process
1. Rules and facts compared using pattern matcher.
2. Matched rules activated into a conflict set.
3. Conflict set resolved into agenda (process called conflict resolution).
4. Rule engine fires on agenda.5. Engine cycles until all rules are
satisfied.
The Java Expert System Shell
• Developed at Sandia National Laboratories in late 1990s.
• Created by Dr. Ernest J. Friedman-Hill.
• Inspired by the AI production rule language CLIPS.
• Fully developed Java API for creating rule-based expert systems.
Rule-Based Expert System Architecture
• Rule Base (knowledge base)• Working Memory (fact base)• Inference Engine (rule engine)
Inference (Rule) Engines
• Pattern Matcher – decides what rules to fire and when.
• Agenda – schedules the order in which activated rules will fire.
• Execution Engine – responsible for firing rules and executing other code.
Inference Process
• Match the facts against the rules.• Choose which rules to fire.• Execute the actions associated
with the rules.
How Does Jess Work?
• Jess matches facts in the fact base to rules in the rule base.
• The rules contain function calls that manipulate the fact base and/or other Java code.
• Jess uses the Rete (ree-tee) algorithm to match patterns.
• Rete network = an interconnected collection of nodes = working memory.
Jess Architecture Diagram
WORKINGMEMORY
RULE BASE
EXECUTIONENGINE
INFERENCEENGINE
PATTERNMATCHER
AGENDA
Procedural Programming
• Traditional programming (BASIC, C, FORTRAN, Pascal, etc.).
• Largely based on functions.• Programmer controls logic.• Sequential and deterministic.• Object-oriented programming is
procedural within object methods.
Declarative Programming
• New programming paradigm - rules.
• Programmer does not really control code logic.
• Rule engine finds most efficient “path” of code execution.
• Replaces hard to maintain nested IF…THEN…ELSE coding.
Wait a minute!
Well…yes and no…but don’t worry, Calvin!
What? I…I can’t control my code??
Thought Experiment…
• Imagine writing a procedural/OOP algorithm to solve a jigsaw puzzle.
• 500+ pieces, different shapes and colors.
• Polymorphism runs amok!
Yet we manage to solve the puzzle…
Intuition and Rules
• Dump the puzzle pieces on a card table in no particular order.
• Your brain instinctively begins to apply rules to solve the puzzle!
• What might this look like in code?
Intuitive Inferencing
(corner_found(piece_is_corner)=>(assert corner-found)(save_piece))
(corner_found(piece_is_corner)=>(assert corner-found)(save_piece))
(edge_found(piece_is_edge)=>(assert edge-found)(save_piece))
(edge_found(piece_is_edge)=>(assert edge-found)(save_piece))
Your brain “knows” what to do with a corner piece …
… and an edge piece.
What’s Going On…
• Your brain recalls rules or heuristics to solve the problem.
• Your brain pattern-matches, prioritizes, and applies rules according to the facts in memory.
• A particular solution algorithm emerges as rules “fire” on facts.
The Jess Language
• Architecturally inspired by CLIPS• LISP-like syntax.• Basic data structure is the list.• Can be used to script Java API.• Can be used to access JavaBeans.• Easy to learn and use.
Obligatory Tradition
(printout t “Hello PJUG-ers!” crlf)(printout t “Hello PJUG-ers!” crlf)
Your very first Jess program!
Lists in Jess
• (a b c) ; list of tokens• (1 2 3) ; list of integers• (+ 2 3) ; an expression• (“Hello world!”) ; a string• (foo ?x ?y) ; a function call
Here are some valid lists in Jess:
Jess Variables
• Named containers that hold a single value.
• Untyped. Begin with a ? mark.• Can change types during lifetime.• Assigned using bind function.
Jess Variables and Lists
EXAMPLE: Adding two numbers
(bind ?x 2) ; assign x = 2(bind ?y 3) ; assign y = 3(bind ?result (+ ?x ?y)) ; find sum
Everything is a list in Jess!
Control Flow
• foreach• if/then/else• while
• apply• build• eval• progn
Common Jess-specific
Jess Functions
(deffunction get-input()“Get user input from console.”(bind ?s (read))(return ?s))
Even functions are lists.
Jess Function Example
(deffunction area-sphere (?radius)
“Calculate the area of a sphere”
(bind ?area (* (* (pi) 2)(* ?radius ?radius)))
(return ?area))
Jess Function Example
(printout t "The surface area of a radius = 2 meter sphere is " +
(area-sphere 2) + " m^2")
How do we use this in Jess?
Working With Facts
• Facts have a head and one or more slots.
• Slots hold data (can be typed).• Multislots can hold lists. • You can modify slot values at
runtime.• Facts are constructed from
templates.
Jess Fact Types
• Ordered – head only.• Ordered – single slot.• Unordered – multiple slot, like a
database record.• Shadow – slots correspond to
properties of a JavaBean.
Deftemplate
Used to define the structure of a fact.
(deftemplate pattern “A design pattern.”(slot name)(slot type (default “creation”))(slot intent)(slot solution))
Asserting Facts
;; Asserting a new “pattern” fact.
(printout t “Enter pattern name:” crlf)
(bind ?x getInput)(assert pattern (name ?x))
Facts store the initial conditions.
All Kinds of Facts
;; An ordered fact with no slots – a placeholder that indicates state.
(assert(answer-is-valid))
;; A ordered fact of one slot
(assert(weightfactor 0.75))
Shadow Facts
• defclass – creates a deftemplate from a bean.
• definstance – adds bean to working memory.
Shadow facts are unordered facts whose slots correspond to the properties of a JavaBean.
Jess Rules…
• … are the knowledge-base of the system.
• … fire only once on a given set of facts.
• … use pattern constraints to match facts.
• … are much faster than IF-THEN statements.
Rule Syntax
• Rules have a “left-hand” side (LHS) and a “right-hand” side (RHS).
• The LHS contains facts fitting certain patterns.
• The RHS contains function calls.
Simple Rule Example
;; A not very useful error handler(defrule report-error
(error-is-present)=>(printout t “There is an error” crlf))
Checking working memory state.
A More Complex Rule
;; A more useful error handler(defrule report-err?err <- (is-error (msg ?msg))=>(printout t "Error was: " ?msg crlf)(retract ?err))
Using pattern bindings in rules.
More Pattern and Control Tools
• Literal / variable constraints
• Logical conditional tests
• Predicate functions
• Salience• Modules• Defquery• Backward-
chaining
matching control and structure
Break Time!
Let’s take a quick 5 minute pause…
Scripting Java from Jess
• You can interactively access all Java APIs from Jess.
• This makes exploring Java somewhat easier and immediate.
• No code, compile, debug cycle.
Scripting Java with Jess
(import javax.swing.*)
(import java.awt.*)
(import java.awt.event.*)
(set-reset-globals FALSE)
(defglobal ?*frame* = (new JFrame "Hello PJUG"))
(defglobal ?*button* = (new JButton "Click my PJUG"))
(?*frame* setSize 500 300)
((?*frame* getContentPane) add ?*button*)
(?*frame* setVisible TRUE)
swingDemo.bat
Demo 1: PAT (Pattern Analysis Tool)
• PAT is a simple decision-tree for choosing a Java design-pattern.
• Uses an initial interview to establish problem space.
• Recommends a GoF Java design-pattern to fit the available facts.
examples/pattern.clpexamples/pattern.clp
The Jess API
• jess - inference engine “guts”.• jess.awt – GUI wrappers.• jess.factory - Allows extensions
that “get into the guts of Jess”.
Organized into 3 packages, 64 classes (not hard to learn)
The Rete (ree-tee) Object
• The reasoning engine and the central class in the Jess library.
• Executes the built Rete network, and coordinates many other activities.
• Rete is essentially a facade for the Jess API.
Using the Jess API…
…is simple…all you really do need to do is call one or more Rete methods …
try {
Rete engine = new Rete();
engine.executeCommand(
“printout t “Hello PJUG”);
engine.run();
}
catch (JessException je {}
Demo 2: Catalog Servlet
import jess.*;import javax.servlet.*;import javax.servlet.http.*;import java.io.*;
public abstract class BaseServlet extends HttpServlet {
public void doPost(HttpServletRequest request, HttpServletResponse response) throws IOException, ServletException { doGet(request, response); }}...
Here is an example of a Jess application running as a Java servlet…
Here is an example of a Jess application running as a Java servlet…
Pattern References
• Shalloway, A., Design Patterns Explained, Addison-Wesley, 2002
• Gamma, E. et. al., Design Patterns: Elements of Reusable Object-Orient Software, Addison-Wesley, 1995
Expert Systems References
• Friedman-Hill, E. J., Jess In Action, Manning Press, 2003
• Jackson, P., Introduction to Expert Systems – 3rd Ed., Addison-Wesley, 1999
• Giarratano, J., Expert Systems: Principals and Programming, PSW-Kent, 1989
Links
• Download Jess at: http://herzberg.ca.sandia.gov/jess/index.shtml
• Join the Jess user community at:http://herzberg.ca.sandia.gov/jess/mailing_list.shtml
• See Dr. Friedman-Hill’s Jess in Action at:
http://www.manning.com/friedman-hill/
For Further Study
• CLIPS Expert System Shellhttp://www.ghg.net/clips/CLIPS.html• FuzzyJ Websitehttp://www.iit.nrc.ca/IR_public/fuzzy/fuzzyJToolkit2.html
Q & A
Thanks for your attention, and I hope that you try Jess!