A "production system " (or "production rule system") is a computer program typically used to provide some form of artificial intelligence, which consists primarily of a set of rules about behavior but it also includes the mechanism necessary to follow those rules as the system responds to states of the world. Those rules, termed productions, are a basic representation found useful in

automated planning Automation describes a wide range of technologies that reduce human intervention in processes, namely by predetermining decision criteria, subprocess relationships, and related actions, as well as embodying those predeterminations in machines ...

expert systems In artificial intelligence, an expert system is a computer system emulating the decision-making ability of a human expert. Expert systems are designed to solve complex problems by reasoning through bodies of knowledge, represented mainly as if� ...

and

action selection Action selection is a way of characterizing the most basic problem of intelligent systems: what to do next. In artificial intelligence and computational cognitive science, "the action selection problem" is typically associated with intelligent agen ...

. Productions consist of two parts: a sensory precondition (or "IF" statement) and an action (or "THEN"). If a production's precondition matches the current

state State may refer to: Arts, entertainment, and media Literature * ''State Magazine'', a monthly magazine published by the U.S. Department of State * ''The State'' (newspaper), a daily newspaper in Columbia, South Carolina, United States * ''Our S ...

of the world, then the production is said to be ''triggered''. If a production's action is

executed Capital punishment, also known as the death penalty, is the state-sanctioned practice of deliberately killing a person as a punishment for an actual or supposed crime, usually following an authorized, rule-governed process to conclude that t ...

, it is said to have ''fired''. A production system also contains a database, sometimes called

working memory Working memory is a cognitive system with a limited capacity that can hold information temporarily. It is important for reasoning and the guidance of decision-making and behavior. Working memory is often used synonymously with short-term memory, ...

, which maintains data about current state or knowledge, and a rule interpreter. The rule interpreter must provide a mechanism for prioritizing productions when more than one is triggered.

Basic operation

Rule interpreters generally execute a

forward chaining Forward chaining (or forward reasoning) is one of the two main methods of reasoning when using an inference engine and can be described logically as repeated application of ''modus ponens''. Forward chaining is a popular implementation strategy fo ...

algorithm for selecting productions to execute to meet current goals, which can include updating the system's data or

beliefs A belief is an attitude that something is the case, or that some proposition is true. In epistemology, philosophers use the term "belief" to refer to attitudes about the world which can be either true or false. To believe something is to take i ...

. The condition portion of each rule (''left-hand side'' or LHS) is tested against the current state of the working memory. In idealized or data-oriented production systems, there is an assumption that any triggered conditions should be executed: the consequent actions (''right-hand side'' or RHS) will update the agent's knowledge, removing or adding data to the working memory. The system stops processing either when the user interrupts the forward chaining loop; when a given number of cycles has been performed; when a "halt" RHS is executed, or when no rules have LHSs that are true. Real-time and expert systems, in contrast, often have to choose between mutually exclusive productions --- since actions take time, only one action can be taken, or (in the case of an expert system) recommended. In such systems, the rule interpreter, or

inference engine In the field of artificial intelligence, an inference engine is a component of the system that applies logical rules to the knowledge base to deduce new information. The first inference engines were components of expert systems. The typical expert ...

, cycles through two steps: matching production rules against the database, followed by selecting which of the matched rules to apply and executing the selected actions.

Matching production rules against working memory

Production systems may vary on the expressive power of conditions in production rules. Accordingly, the

pattern matching In computer science, pattern matching is the act of checking a given sequence of tokens for the presence of the constituents of some pattern. In contrast to pattern recognition, the match usually has to be exact: "either it will or will not be ...

algorithm which collects production rules with matched conditions may range from the naive—trying all rules in sequence, stopping at the first match—to the optimized, in which rules are "compiled" into a network of inter-related conditions. The latter is illustrated by the

RETE algorithm The Rete algorithm ( , , rarely , ) is a pattern matching algorithm for implementing rule-based systems. The algorithm was developed to efficiently apply many rules or patterns to many objects, or facts, in a knowledge base. It is used to dete ...

, designed by Charles L. Forgy in1974, which is used in a series of production systems, called OPS and originally developed at

Carnegie Mellon University Carnegie Mellon University (CMU) is a private research university in Pittsburgh, Pennsylvania. One of its predecessors was established in 1900 by Andrew Carnegie as the Carnegie Technical Schools; it became the Carnegie Institute of Technology ...

culminating in

OPS5 OPS5 is a rule-based or production system computer language, notable as the first such language to be used in a successful expert system, the R1/XCON system used to configure VAX computers. The OPS (said to be short for "Official Production Sy ...

in the early eighties. OPS5 may be viewed as a full-fledged programming language for production system programming.

Choosing which rules to evaluate

Production systems may also differ in the final selection of production rules to execute, or ''fire ''. The collection of rules resulting from the previous matching algorithm is called the ''conflict set '', and the selection process is also called a '' conflict resolution strategy ''. Here again, such strategies may vary from the simple—use the order in which production rules were written; assign weights or priorities to production rules and sort the conflict set accordingly—to the complex—sort the conflict set according to the times at which production rules were previously fired; or according to the extent of the modifications induced by their RHSs. Whichever conflict resolution strategy is implemented, the method is indeed crucial to the efficiency and correctness of the production system. Some systems simply fire all matching productions.

Using production systems

The use of production systems varies from simple string

rewriting In mathematics, computer science, and logic, rewriting covers a wide range of methods of replacing subterms of a well-formed formula, formula with other terms. Such methods may be achieved by rewriting systems (also known as rewrite systems, rewr ...

rules to the modeling of human cognitive processes, from term rewriting and reduction systems to

expert system In artificial intelligence, an expert system is a computer system emulating the decision-making ability of a human expert. Expert systems are designed to solve complex problems by reasoning through bodies of knowledge, represented mainly as if� ...

A simple string rewriting production system example

This example shows a set of production rules for reversing a string from an alphabet that does not contain the symbols "$" and "*" (which are used as marker symbols). P1: $$ -> * P2: *$ -> * P3: *x -> x* P4: * -> null & halt P5: $xy -> y$x P6: null -> $ In this example, production rules are chosen for testing according to their order in this production list. For each rule, the input string is examined from left to right with a moving window to find a match with the LHS of the production rule. When a match is found, the matched substring in the input string is replaced with the RHS of the production rule. In this production system, x and y are ''variables '' matching any character of the input string alphabet. Matching resumes with P1 once the replacement has been made. The string "ABC", for instance, undergoes the following sequence of transformations under these production rules: $ABC (P6) B$AC (P5) BC$A (P5) $BC$A (P6) C$B$A (P5) $C$B$A (P6) $$C$B$A (P6) *C$B$A (P1) C*$B$A (P3) C*B$A (P2) CB*$A (P3) CB*A (P2) CBA* (P3) CBA (P4) In such a simple system, the ordering of the production rules is crucial. Often, the lack of control structure makes production systems difficult to design. It is, of course, possible to add control structure to the production systems model, namely in the inference engine, or in the working memory.

An OPS5 production rule example

In a toy simulation world where a monkey in a room can grab different objects and climb on others, an example production rule to grab an object suspended from the ceiling would look like: (p Holds::Object-Ceiling -(physical-object ^on <O1>) --> (write (crlf) Grab <O1> (crlf)) (modify <object1> ^on NIL) (modify <monkey> ^holds <O1>) (modify <goal> ^status satisfied) ) In this example, data in working memory is structured and variables appear between angle brackets. The name of the data structure, such as "goal" and "physical-object", is the first literal in conditions; the fields of a structure are prefixed with "^". The "-" indicates a negative condition. Production rules in OPS5 apply to all instances of data structures that match conditions and conform to variable bindings. In this example, should several objects be suspended from the ceiling, each with a different ladder nearby supporting an empty-handed monkey, the conflict set would contain as many production rule instances derived from the same production "Holds::Object-Ceiling". The conflict resolution step would later select which production instances to fire. The binding of variables resulting from the pattern matching in the LHS is used in the RHS to refer to the data to be modified. The working memory contains explicit control structure data in the form of "goal" data structure instances. In the example, once a monkey holds the suspended object, the status of the goal is set to "satisfied" and the same production rule can no longer apply as its first condition fails.

Relationship with logic

Both Russell and Norvig's ''Introduction to Artificial Intelligence'' and John Sowa's ''Knowledge Representation: Logical, Philosophical, and Computational Foundations'' characterize production systems as systems of logic that perform reasoning by means of forward chaining. However, Stuart Shapiro, reviewing Sowa's book, argues that this is a misrepresentation. Similarly,

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and Sadri argue that, because actions in production systems are understood as imperatives, production systems do not have a logical semantics. Their logic and computer language Logic Production System (LPS) combines logic programs, interpreted as an agent's beliefs, with reactive rules, interpreted as an agent's goals. They argue that reactive rules in LPS give a logical semantics to production rules, which they otherwise lack. In the following example, lines 1-3 are type declarations, 4 describes the initial state, 5 is a reactive rule, 6-7 are logic program clauses, and 8 is a causal law: 1. fluents fire. 2. actions eliminate, escape. 3. events deal_with_fire. 4. initially fire. 5. if fire then deal_with_fire. 6. deal_with_fire if eliminate. 7. deal_with_fire if escape. 8. eliminate terminates fire. Notice in this example that the reactive rule on line 5 is triggered, just like a production rule, but this time its conclusion deal_with_fire becomes a goal to be reduced to sub-goals using the logic programs on lines 6-7. These subgoals are actions (line 2), at least one of which needs to be executed to satisfy the goal.

Related systems

Constraint Handling Rules Constraint Handling Rules (CHR) is a declarative, rule-based programming language, introduced in 1991 by Thom Frühwirth at the time with European Computer-Industry Research Centre (ECRC) in Munich, Germany.Thom Frühwirth. ''Theory and Practice ...

: rule-based programming language. *

CLIPS CLIPS is a public domain software tool for building expert systems. The name is an acronym for "C Language Integrated Production System." The syntax and name were inspired by Charles Forgy's OPS5. The first versions of CLIPS were developed st ...

: public domain software tool for building expert systems. * JBoss Drools: an open-source business rule management system (BRMS). * ILOG rules: a business rule management system. * JESS: a rule engine for the Java platform - it is a superset of the

programming language. *

Lisa Lisa or LISA may refer to: People People with the mononym * Lisa Lisa (born 1967), American actress and lead singer of the Cult Jam * Lisa (Japanese musician, born 1974), stylized "LISA", Japanese singer and producer * Lisa Komine (born 1978), J ...

: a rule engine written in Common Lisp. *

OpenL Tablets OpenL Tablets is a business rule management system (BRMS) and a business rules engine (BRE) based on table representation of rules. Engine implements optimized sequential algorithm. OpenL includes such table types as decision table, decision tre ...

: business centric rules and open source BRMS. *

Prolog Prolog is a logic programming language associated with artificial intelligence and computational linguistics. Prolog has its roots in first-order logic, a formal logic, and unlike many other programming languages, Prolog is intended primarily ...

: a general purpose logic programming language. * Soar,

OpenCog OpenCog is a project that aims to build an open source software, open source artificial intelligence framework. OpenCog Prime is an architecture for robot and virtual embodied cognition that defines a set of interacting components designed to giv ...

: cognitive architectures based on a production system.

References

* Brownston, L., Farrell R., Kant E. (1985). ''Programming Expert Systems in OPS5'' Reading, Massachusetts: Addison-Wesley. * Klahr, D., Langley, P. and Neches, R. (1987).
Production System Models of Learning and Development
'. Cambridge, Mass.: The MIT Press. * Kowalski, R. and Sadri, F. (2016).
Programming in logic without logic programming
'. Theory and Practice of Logic Programming, 16(3), 269-295. * Russell, S.J. and Norvig, P. (2016). '' Artificial Intelligence: A Modern Approach''. Pearson Education Limited. * Shapiro, S. (2001).
Review of Knowledge representation: logical, philosophical, and computational foundations
'. Computational Linguistics, 2(2), 286-294 * Sowa, J.F. (2000).
Knowledge representation: logical, philosophical, and computational foundations
' (Vol. 13). Pacific Grove, CA: Brooks/Cole. * Waterman, D.A., Hayes-Roth, F. (1978). ''Pattern-Directed Inference Systems'' New York: Academic Press. {{ISBN, 0-12-737550-3