Digital twin technology : fundamentals and applications / edited by Manisha Vohra.

Format:

Book

Contributor:

Vohra, Manisha, editor.

Language:

English

Subjects (All):

Digital twins (Computer simulation).

Physical Description:

1 online resource (273 pages)

Place of Publication:

Hoboken, New Jersey : Wiley-Scrivener, [2023]

Summary:

DIGITAL TWIN TECHNOLOGY The book lucidly explains the fundamentals of digital twin technology along with its applications and various industrial real-world examples. Digital twin basically means a replicated model of any object or product in digital form. A digital twin has many advantages as it remains connected with the original object or product it is replicating and receives real-time data. Therefore, the obstacles and issues that could be encountered in a product or object can be known before their actual happening which helps to prevent errors and major losses which otherwise might have been incurred. The various capabilities of digital twin technology make it a powerful tool that can be used to effectively boost various sectors of the healthcare, automotive, and construction industries, among others. Although this technology has been making its way into various sectors, it has not yet received the kind of exposure necessary to increase awareness of its potential in these industries. Therefore, it is critical that a better understanding of digital twin technology is acquired to facilitate growth and to have it implemented in the various sectors so that transformation can be ushered in. Therefore, this book was designed to be a useful resource for those who want to become well acquainted with digital twin technology. Audience Engineers, researchers, and advanced students in information technology, computer science, and electronics, as well as IT specialists and professionals in various industries such as healthcare, automotive, and transportation.

Contents:

Cover

Title Page

Copyright Page

Contents

Preface

Chapter 1 Overview of Digital Twin

1.1 A Simplistic Introduction to Digital Twin

1.2 Basic Definition and Explanation of What is Digital Twin

1.3 The History of Digital Twin

1.4 Working

1.5 Features

1.5.1 Replication of Each and Every Aspect of the Original Device or Product

1.5.2 Helps in Product Lifecycle Management

1.5.3 Digital Twin can Prevent Downtime

1.6 Advantages of Digital Twin

1.6.1 Digital Twin is Helpful in Preventing Issues or Errors in the Actual Object, Product or Process

1.6.2 Helps in Well Utilization of Resources

1.6.3 Keeping Vigilance of the Actual Object, Product or Process Through Digital Twin is Possible

1.6.4 Helps in Efficient Handling and Managing of Objects, Device, Equipment, etc.

1.6.5 Reduction in Overall Cost of Manufacturing of Objects, Products, etc.

1.7 Applications

1.8 A Simple Example of Digital Twin Application

1.9 Digital Twin Technology and the Metaverse

1.10 Challenges

1.10.1 Careful Handling of Different Factors Involved in Digital Twin

1.10.2 Expertise Required

1.10.3 Data Security and Privacy

1.11 Conclusion

References

Chapter 2 Introduction, History, and Concept of Digital Twin

2.1 Introduction

2.2 History of Digital Twin

2.3 Concept of Digital Twin

2.3.1 DTP

2.3.2 DTI

2.3.3 DTE

2.3.4 Conceptualization

2.3.5 Comparison

2.3.6 Collaboration

2.4 Working Principle

2.5 Characteristics of Digital Twin

2.5.1 Homogenization

2.5.2 Digital Trail

2.5.3 Connectivity

2.6 Advantages

2.6.1 Companies Can Benefit From Digital Twin by Tracking Performance-Related Data

2.6.2 Different Sector's Progress Can Be Accelerated

2.6.3 Digital Twins Can Be Used for Various Application

2.6.4 Digital Twin Can Help Decide Future Course of Work.

2.6.5 Manufacturing Work Can Be Monitored

2.7 Limitations

2.7.1 Data Transmission Could Have Delays and Distortions

2.7.2 Digital Twin Implementation Will Need Required Skills and Sound Knowledge About It

2.8 Example of Digital Twin Application

2.8.1 Digital Twin Application in General Electric (GE) Renewable Energy

2.9 Conclusion

Chapter 3 An Insight to Digital Twin

3.1 Introduction

3.2 Understanding Digital Twin

3.3 Digital Twin History

3.4 Essential Aspects From Working Perspectives of Digital Twin

3.5 How Does a Digital Twin Work?

3.6 Insights to Digital Twin Technology Concept

3.6.1 Parts Twins

3.6.2 Product Twins

3.6.3 System Twins

3.6.4 Process Twins

3.7 Types of Digital Twin

3.7.1 Digital Twin Prototype (DTP)

3.7.2 Digital Twin Instance (DTI)

3.7.3 Digital Twin Environment (DTE)

3.8 Traits of Digital Twin

3.8.1 Look Same as the Original Object

3.8.2 Consists Different Details of the Original Object

3.8.3 Behaves Same as the Original Object

3.8.4 Can Predict and Inform in Advance About Problems That Could Occur

3.9 Value of Digital Twin

3.10 Advantages of Digital Twin

3.11 Real-World Examples of Use of Digital Twin

3.12 Conclusion

Chapter 4 Digital Twin Solution Architecture

4.1 Introduction

4.2 Previous Work

4.2.1 How This Work Differs

4.3 Use Cases

4.4 Architecture Considerations

4.5 Understanding the Physical Object

4.5.1 Modeling Considerations

4.6 Digital Twin and IoT

4.7 Digital Twin Solution Architecture

4.7.1 Conceptual Digital Twin Solution Architecture

4.7.2 Infrastructure Platform and IoT Services

4.7.3 Digital Twin Data and Process Model

4.7.4 Digital Twin Services

4.7.5 Digital Twin Applications

4.7.6 Sample Basic Data Flow through Digital Twin.

4.7.7 Sample Data Flow for Exception Handling

4.7.8 Sample Data Flow through Digital Twin Applications

4.7.9 Development Considerations

4.8 Database Considerations

4.9 Messaging

4.10 Interfaces

4.11 User Experience

4.12 Cyber Security

4.13 Use Case Coverage

4.14 Future Direction and Trends

4.15 Conclusion

Chapter 5 Role of Digital Twin Technology in Medical Sector-Toward Ensuring Safe Healthcare

5.1 Introduction to Digital Twin

5.2 Generic Applications of Digital Twin

5.3 Digital Twin Applications in Medical Field

5.3.1 Biosignal and Physiological Parameters Analysis for Body Area Network

5.3.2 Medicinal Drug Delivery

5.3.3 Surgical Preplanning

5.3.4 COVID 19 Screening and Diagnosis

5.4 Ongoing and Future Applications of Digital Twin in Healthcare Sector

5.5 Conclusion

Acknowledgments

Chapter 6 Digital Twin as a Revamping Tool for Construction Industry

6.1 Introduction

6.2 Introduction to Digital Twin

6.3 Overview of Digital Twin in Construction

6.4 The Perks of Digital Twin

6.5 The Evolution of Digital Twin

6.6 Application of Digital Twin Technology in Construction Industry

6.7 Digital Twins Application for Construction Working Personnel Safety

6.8 Digital Twin Applications in Smart City Construction

6.9 Discussion

6.10 Conclusion

Chapter 7 Digital Twin Applications and Challenges in Healthcare

7.1 Introduction

7.2 Digital Twin

7.3 Applications of Digital Twin

7.3.1 Smart Cities

7.3.2 Manufacturing Sector

7.3.3 Healthcare

7.3.4 Aviation

7.3.5 The Disney Park

7.4 Challenges with Digital Twin

7.5 Digital Twin in Healthcare

7.5.1 Digital Twin for Hospital Workflow Management

7.5.2 Digital Twin for a Healthcare Facility.

7.5.3 Digital Twin for Different Medical Product Manufacturing

7.5.4 Cardiovascular Digital Twin

7.5.5 Digital Twin Utilization for Supporting Personalized Treatment

7.5.6 Digital Twin for Multiple Sclerosis (MS)

7.6 Digital Twin Challenges in Healthcare

7.6.1 Need of Training and Knowledge

7.6.2 Cost Factor

7.6.3 Trust Factor

7.7 Conclusion

Chapter 8 Monitoring Structural Health Using Digital Twin

8.1 Introduction

8.1.1 Digital Twin-The Approach and Uses

8.2 Structural Health Monitoring Systems (SHMS)

8.2.1 Criticality and Need for SHMS Approach

8.2.2 Passive and Active SHMS

8.3 Sensor Technology, Digital Twin (DT) and Structural Health Monitoring Systems (SHMS)

8.4 Conclusion

Chapter 9 Role and Advantages of Digital Twin in Oil and Gas Industry

9.1 Introduction

9.2 Digital Twin

9.3 Evolution of Digital Twin Technology

9.4 Various Digital Twins that Can Be Built

9.4.1 Parts Twins

9.4.2 Product Twins or Asset Twins

9.4.3 System Twins or Unit Twins

9.4.4 Process Twins

9.5 Advantage of Digital Twin

9.5.1 Paced Prototypin

9.5.2 Prediction

9.5.3 Enhanced Maintenance

9.5.4 Monitoring

9.5.5 Safety

9.5.6 Reduced Waste

9.6 Applications of Digital Twin

9.6.1 Aerospace

9.6.2 Power-Generation Equipment

9.6.3 Structures and Their Systems

9.6.4 Manufacturing Operations

9.6.5 Healthcare Services

9.6.6 Automotive Industry

9.6.7 Urban Planning and Construction

9.6.8 Smart Cities

9.6.9 Industrial Applications

9.7 Characteristics of Digital Twin

9.7.1 High-Fidelity

9.7.2 Lively

9.7.3 Multidisciplinary

9.7.4 Homogenization

9.7.5 Digital Footprint

9.8 Digital Twin in Oil and Gas Industry

9.9 Role of Digital Twin in the Various Areas of Oil and Gas Industry

9.9.1 Planning of Drilling Process.

9.9.2 Performance Monitoring of Oil Field

9.9.3 Data Analytics and Simulation for Oil Field Production

9.9.4 Improving Field Personnel and Workforce Safety

9.9.5 Predictive Maintenance

9.10 The Advantages of Digital Twin in the Oil and Gas Industry

9.10.1 Production Efficacy

9.10.2 Preemptive Maintenance

9.10.3 Scenario Development

9.10.4 Different Processes Monitoring

9.10.5 Compliance Criteria

9.10.6 Cost Savings

9.10.7 Workplace Safety

9.11 Conclusion

Chapter 10 Digital Twin in Smart Cities: Application and Benefits

10.1 Introduction

10.2 Introduction of Digital Twin in Smart Cities

10.3 Applications of Digital Twin in Smart Cities

10.3.1 Traffic Management

10.3.2 Construction

10.3.3 Structural Health Monitoring

10.3.4 Healthcare

10.3.5 Digital Twin for Drainage System

10.3.6 Digital Twin for Power Grid

10.4 Conclusion

Chapter 11 Digital Twin in Pharmaceutical Industry

11.1 Introduction

11.2 What is Digital Twin?

11.2.1 Digital Twin Prototype (DTP)

11.2.2 Digital Twin Instance

11.2.3 Parts Twins

11.2.4 Product Twins

11.2.5 System Twins

11.2.6 Process Twins

11.3 Digital Twin in the Pharmaceutical Industry

11.4 Digital Twin Applications in Pharmaceutical Industry

11.4.1 Digital Twin of the Pharmaceutical Manufacturing Process

11.4.2 Digital Twin for Pharmaceutical Supply Chains

11.5 Examples of Use of Digital Twin in Pharmaceutical Industry

11.5.1 Digital Twin Simulator for Supporting Scientific Exchange of Views With Expert Physicians

11.5.2 Digital Twin for Medical Products

11.5.3 Digital Twin for Pharmaceutical Companies

11.6 Advantages of Digital Twin in the Pharmaceutical Industry

11.6.1 Wastage Can Be Reduced

11.6.2 Cost Savings

11.6.3 Faster Time to Market

11.6.4 Smooth Management.

11.6.5 Remote Monitoring.

Notes:

Description based on print version record.

Includes bibliographical references and index.

Other Format:

Print version: Vohra, Manisha Digital Twin Technology

ISBN:

9781119842316

111984231X

9781119842309

1119842301

OCLC:

1353242946