Download
1 / 78
860 likes | 1.2k Vues
Overview of Expert Systems . Sudeep Marwaha Division of Computer Applications, IASRI sudeep@iasri.res.in. Expert System of Extension. Developed By : Indian Agriculture Research Institute & Indian Agricultural Statistics Research Institute . INTRODUCTION.
E N D
Overview of Expert Systems Sudeep Marwaha Division of Computer Applications, IASRI sudeep@iasri.res.in
Expert System of Extension Developed By : Indian Agriculture Research Institute & Indian Agricultural Statistics Research Institute
INTRODUCTION This Project is meant to provide required information and expert advice to the farmers and extension workers at Krishi Vigyan Kendra’ s according to their needs & available resources. For example: - • On the basis of symptoms supplied by the farmer, diseases affecting the crop can be detected • Which practices should be adopted according to the geographical locations or climate for a better yield, etc.
OBJECTIVES • To categorize agriculture in sub-areas & collect relevant information of these areas to feed into database • To make decision rules to process the information. • To design & develop the web based expert system in extension. • To provide required information to the farmers and extension workers to take decisions before starting the agricultural enterprise.
AgriDaksh Developed By : Division of Computer Applications Indian Agricultural Statistics Research Institute
Expert System of Maize • Collaborated with Directorate of Maize Research • DMR Scientists are domain experts • ESE is a base technology • Enhanced Features • System has a new look and personalized homepage • Credit is given to the scientist and institution for the added information at the individual entity level e.g. for each disease, insect, agronomic practice, variety etc. • Maize Products Module • More featured user/farmer feedback module • Enhanced Information Validation Control • Support for Audio and Video Files
Technology • It is a Rule Based Expert System. • It is a Web based System. • It has Java Expert System Shell (JESS) as an alternative to AI Programming Language (like LISP, Prolog). • It is incremental or upgradeable in nature as it is built in Java. • Open to new technologies like Semantic Web.
METHODOLOGY This Project is mainly divided into 2 parts: - • Knowledge Acquisition & Formulation of Decision Rules i.e. Collection of Agricultural Information of some selected crops from authentic sources & their Storage in the Knowledge Base( as Facts & Rules). • Development of the Web Based User Interface.
KNOWLEDGE ACQUISITION • Selected Areas: ICAR-Agroclimatc Region 4, (Ludhiana, Karnal, Gurgaon, Hisar, Delhi, Anand, etc.) • Selected Crop: Paddy, Pea, Mustard, Tomato, Gladiolus, Mushroom, Mango. Continued...
KNOWLEDGE ACQUISITION Knowledge Acquisition Process Technical & Extension Bulletins Research Findings Data, Problems, Question Domain Expert Know--ledge Base Knowledge Engineer Knowledge, Concepts, Solutions Structured Knowledge Text Books Facts
Front End (through Web Browser) (made in HTML, Java Script) Knowledge Acquisition & Explanatory Interface 4 Application Logic Layer (Java Server Pages) Inference Engine Layer (Java Expert System Shell) 3 2 Knowledge Base (Database Layer: SQL Server) 1 ARCHITECTURE n Different Layers of Architectural Components
ARCHITECTURAL COMPONENTS 1 Knowledge Base contains Facts & Rules about some specialized knowledge domain (Example: Crop Diseases). Java Server Pages are used here. Server Side Scripting language meant to receive user’ s input, then processes it according to logic underneath & responds back to the user. 2 3 2
ARCHITECTURAL COMPONENTS 3 Inference Engine accepts User’s input Queries & Responses and uses this dynamic information with static knowledge present in the Knowledge base in form of facts & rules to derive a conclusion. Front End has been designed using HTML/DHTML and validations are put through using JavaScript. 4
Features • One System for all crops. • Ability to Add New Crops. • Location Specific Variety Information. • Ability to Define Knowledge Model for Crops Online. • Comprehensive Plant Protection Module. • Diseases, • Insects, • Weeds, • Nematodes, • Physiological Disorders. • Cost Benefit Analysis among Varities. • Ability for Domain Experts to define problems online and create decision trees to solve the problems. • Powerful Administrative Module. • Full Featured Online Help.
New Initiatives • Ontology based Expert System
What is Ontology? • Controlled vocabulary that describes objects and the relations between them. • Has grammar for using the vocabulary terms to express something meaningful. • Together with set of individual instances of classes constitutes a Knowledgebase. • Classes describe concepts in the domain.
Ontology Based Expert System • In Rule-based systems, in order to simulate the human reasoning process, a vast amount of knowledge needed to be stored in the knowledgebase (Rules and Facts). • In an Ontology Based Expert System domain knowledge is stored in ontology. • Ontology allows better way of representation of knowledge and tools are available for its easy creation. • Ontology is a part of Semantic Web Technologies and its use can help in building more scalable and multi agent based systems.
Advantages of OBES • It is easy to maintain as only the central server needs to be maintained. • All the data and user transactions are captured in a single central database. • It can be quickly deployed. • It works irrespective of the operating system of the user. • It can be used by the user or Web Service client or software agent. • Domain experts can dynamically update their knowledge in ontology.
XML • Allows users to define their own elements. • Primary purpose to help information systems share structured data. • Clear, simple syntax and unambiguous structure . • Offers many ways to check the quality of document. • Basic syntax for one element is: • <el_name attrname=“attr_value”>el_content</el_name>
RDF • Encoding knowledge for the semantic web. • Builds on existing XML and URI technologies. • URIs used to identify resources and make statements about them. • Statement consist of RDF triples.
[resource] [property] [value] Crop affectedBy Disease [subject] [predicate] [object] RDF Triple Crop affectedBy Disease
RDF Tags • Defined triples can be encoded in RDF/XML. • RDF/XML syntax: • rdf:Description - define a Triple. • rdf:about – define subject of triple. • Properties are defined by their URI as tag using xml namespace. • Value of property tag can be plain/typed literal or a resource. • rdf:resource – defines value of a property if it is a resource. • rdf:datatype – defines data type of literals . • Only for describing resources not for specifying the semantics
RDFS • Describe groups of related RDF resources and the relationships between them • Defines allowable properties that can be assigned to RDF resources • Allows creating classes of resources that share common properties • Resources defined as instances of classes • Class is a resource • Any class can be a subclass of another 38
RDFS • RDFS tags: • rdfs:Class : define a class in RDFS. • rdfs:subClassOf : assign a class its parent class. • rdf:Property :define a property . • rdfs:subPropertyOf : assign a property its parent property. • rdfs:domain and rdfs:range : schema properties to describe application specific properties. • rdfs:Resource : RDFS defines all the classes as subclass of this class 39
Web Ontology Language (OWL) • Builds upon RDF and RDFS • Uses XML to indicate hierarchies and relationships between different resources • Has three sub languages: OWL Lite, OWL DL, and OWL Full
Need for OWL over RDFS • Classes can be defined as Boolean combinations of other classes . • It can be stated that the two classes (with different URI) are same. • Cardinality restrictions can be specified for properties. • It can be specified that a property is transitive, symmetric, Functional, inverseOf, or InverseFunctional Property.
Java Server Pages (JSP) • Enables rapid development of platform independent Web-based applications. • Separates the user interface from the underlying dynamic content. • Uses XML-like tags that encapsulate the logic that generates the content for the page. • JSPs are compiled into JavaServlets .
JENA • Java framework for building Semantic Web applications. • It provides a programmatic environment for RDF, RDFS and OWL, including a rule-based inference engine. • An ontology model is an extension of the Jena RDF model.
JENA Interface • Model: a set of statements. • Statement: a triple of {R,P,O}. • Resource: subject, URI. • Property: “characterstic” of resource. • Object: may be a resource or a literal. • Literal: non-nested “object”. • Container: special resource, collection of things.
Protégé • Free, open-source platform which provides tools to construct domain models and knowledge-based applications . • Supports the creation, visualization, and manipulation of ontologies . • Protégé-OWL is tightly integrated with Jena.
Protégé • Protégé platform supports two main ways of modeling ontologies. • The Protégé-Frames editor enables users to build and populate ontologies that are. frame-based. • The Protégé–OWL editor enables users to build ontologies for the Semantic Web in particular in the W3C's Web Ontology Language (OWL).
Protégé The Protégé-OWL editor enables users to: • Load and save OWL and RDF ontologies. • Edit and visualize classes, properties, and restrictions . • Define logical class characteristics as OWL expressions. • Edit OWL individuals.
