Apply ontology and AI techniques to enterprise data

Applying ontologies to data in the enterprise

An ontology is a formal definition of concepts and relationships in a particular domain, and is useful for knowledge sharing and information integration in that domain. By applying an ontology to data within a company, it is possible to convert the vast amount of data held by the company into meaningful information. Specifically, information assets held by a company can be managed in a unified manner using common terminology and concepts, which will enable more efficient information sharing, automation of business processes, and data analysis within the company.

For example, as described in “DX Issues in the Manufacturing Industry: An Example of Business Analysis with the ‘Kaisha Shikiho: Industry Map‘”, the manufacturing industry has a complex business flow and a vast amount of product information, parts information, and production process information. By organizing this information based on ontology, business processes such as product development, manufacturing, and quality control can proceed smoothly, and data analysis using ontology can provide useful insights for improving product quality and production efficiency.

Furthermore, ontologies will facilitate data sharing and collaboration among different systems and departments within a company, prevent data duplication and inconsistency, and enable more accurate information to be shared.

This section describes the application of ontology within an enterprise based on “Enterprise Ontology: Theory and Methodology.

This book describes an enterprise ontology as a tool for analyzing, redesigning, and re-engineering the enterprise. This will be an integrated ontology that covers a number of issues such as business processes, in-and-out sourcing, information systems, business management, and staffing.

The content includes an overview of ontology, modeling using ontology for information transactions and processes between customers and clubs in Volley tennis club as a concrete example, and various modeling aspects (operations, transactions, components, organizations, etc.) to actually build the ontology. It also describes the characteristics of various modeling aspects (operations, transactions, components, organizations, etc.) for building ontologies, and the characteristics and application of various models such as interaction models, process models, action models, state models, and interestriction models as methodologies.

The table of contents is as follows.

Part A Introduction
　　　　　　　　　　　　
  1 Outline of the Book
    
  2 What is Enterprise Ontology?
    
  3 An Explanatory Case
    
     3.1 The Analysis of the Case Volley
         
     3.2 The Ontological Model of the Case Volley
         
Part B Foundations
      
  4 Factual Knowledge
    
     4.1 The Ontological Parallelogram
         
     4.2 The Ontology of a World
         
  5 A World Ontology Specification Language
    
     5.1 The Declaration of Statum Types
         
     5.2 The Specification of Existence Laws
         
     5.3 The Derivation of Statum Types
         
     5.4 Factum Types and Occurrence Laws
         
  6 The Notation of System
    
     6.1 The Distinct System Notation
         
     6.2 Formal Definition Ontological System
         
  7 The Notation of Model
　　　　　　　　
     7.1 Definition of Model
         
     7.2 The White-box Model
         
     7.3 The Black-Box Model
         
  8 The Role of Ontology in Enterprise Engineering
    
     8.1 Design and Engineering
         
     8.2 The System Development Process
         
Part C The Theory
       
  9 The Operation Axiom
    
     9.1 Coordination Acts
         
     9.2 Production Acts
         
     9.3 Actors
         
  10 The Transaction Axiom
     
     10.1 The Basic Transaction Pattern
          
     10.2 The Standard Transaction Pattern
          
     10.3 The Cancellation Pattern
          
  11 The Composition Axiom
     
  12 The Distinction Axiom
     
     12.1 Communication
          
     12.2 Coordination
          
     12.3 Production
          
  13 The Organization Theorem
     
     13.1 The Realization of an Organization
          
     13.2 The Implementation of an Organization
          
  14 The CRISP Model
     
     14.1 Transaction Time Aspects
          
     14.2 Formal Definition of the CRISP Model
          
     14.3 The Crispienet
          
Part D The Methodology
       
  15 The Modeling Method
     
     15.1 The Distinct Aspect Model
          
     15.2 The Perfoma-Informa-Forma Analysis
          
     15.3 The Coordination-Actors-Production Analysis
          
     15.4 The Transaction Pattern Synthesis
          
     15.6 The Construction Synthesis
          
     15.7 The Organization Synthesis
          
  16 The Interaction Model
　　　　　　　　　　
     16.1 The IAM of library
          
     16.3 The IAM of the Pizzeria
          
     16.4 Practical　relevance of Interaction Model
          
  17 The Process Model
     
     17.1 The PM of the Library
          
     17.2 The PM of the Pizzeria
          
     17.3 Practical Relevance of the Process Model
          
  18 The Action Model
     
     18.1 The AM of the Library
          
     18.2 The AM of the Pizzeria
          
     18.3 Practical Relevance of the Action Model
          
  19 The State Model
     
     19.1 The SM of the Library
          
     19.2 The SM of the Pizzeria
          
     19.3 Practical Relevance of the State Model
          
  20 The Interstriction Model
     
     20.1 The ISM of the Library
          
     20.2 The ISM of the Pizzeria
          
     20.3 Practical Relevance of the Interstriction Model

Application of AI Technology to Data within a Company

AI technology is applied in various ways to data within a company. Examples of these applications are described below.

• Data Analysis and Prediction: AI technologies can be used to analyze large amounts of data within a company to extract patterns and trends. Specifically, machine learning and statistical methods can be used to perform predictive analysis, such as sales forecasting, demand forecasting, customer segmentation, and risk assessment, to support decision-making and strategic planning.
• Automation and Process Optimization: AI technologies can be used to automate repetitive and routine tasks within a company. Examples include robotization of automotive manufacturing processes and automated chatbots for customer service.
• Improved customer experience: AI technology will be used to analyze customer behavior and preferences and provide personalized experiences. Customer segmentation and recommendation systems will be used to suggest products and services tailored to customer needs and improve customer satisfaction.
• Security and Risk Management: Use AI technology to monitor and detect security risks and potential threats. Enhance the security of corporate data by using AI technology to enhance anomaly detection, fraud detection, data encryption, and access control.
• Knowledge management and decision support: AI technologies can be used to organize knowledge and information within an enterprise to facilitate retrieval and sharing. Specifically, these include the use of natural language processing and information extraction technologies to extract important information from large volumes of documents and data to provide knowledge on which to base decision-making.

The application of these AI technologies allows companies to leverage data as a strategic asset and improve their competitiveness, but requires careful attention to data quality and security, as well as ethical aspects.

Application of Ontologies and AI Technologies to Enterprise Data

The combination of ontology and AI technologies enables effective utilization of intra-company data that cannot be achieved by AI technologies alone. Examples of their application are described below.

• Data Integration and Semantic Search: Ontologies are used to integrate different data sources within a company. Ontologies express the meaning and relationships of data and can unify data from different databases and formats. Furthermore, AI technology can be applied to them to enable data exploration through semantic search and querying. This enables efficient information retrieval and analysis even for data with complex data structures and relationships.
• Knowledge Management and Information Organization: Ontologies are used to organize knowledge and information within a company to support knowledge management. Ontologies enable information organization such as classification, tagging, and association of documents and data, and when combined with AI technology, they enable automatic information extraction, summarization, and knowledge relevance analysis to share knowledge and support decision making.
• Automation and Process Efficiency: Ontologies model business processes and workflows, and AI technologies are used to automate and improve efficiency. By clarifying each element and relationship of a process through ontology and building automation rules and inference models using AI technology, it is possible to automate tasks, optimize business processes, and improve productivity.
• Risk Management and Compliance: Ontologies will be used to clarify risk factors and compliance rules, and AI technologies will be used to support risk management and compliance. By integrating risk factors and related information through ontologies and further using AI technology to assess risk and detect and monitor noncompliance, companies can enhance risk management and legal compliance.

Through these efforts, the combination of ontologies and AI technologies will enable companies to improve data integration, visibility, and efficiency to maximize business value.