Robotic Process Automation.

Format:

Book

Author/Creator:

Rawat, Romil.

Contributor:

Chakrawarti, Rajesh Kumar.

Sarangi, Sanjaya Kumar.

Choudhary, Rahul.

Gadwal, Anand Singh.

Bhardwaj, Vivek.

Language:

English

Subjects (All):

Automation.

Physical Description:

1 online resource (452 pages)

Edition:

1st ed.

Place of Publication:

Newark : John Wiley & Sons, Incorporated, 2023.

Summary:

ROBOTIC PROCESS AUTOMATION Presenting the latest technologies and practices in this ever-changing field, this groundbreaking new volume covers the theoretical challenges and practical solutions for using robotics across a variety of industries, encompassing many disciplines, including mathematics, computer science, electrical engineering, information technology, mechatronics, electronics, bioengineering, and command and software engineering. Robotics is the study of creating devices that can take the place of people and mimic their behaviors. Mechanical engineering, electrical engineering, information engineering, mechatronics, electronics, bioengineering, computer engineering, control engineering, software engineering, mathematics, and other subjects are all included in robotics. Robots can be employed in a variety of scenarios and for a variety of objectives, but many are now being used in hazardous areas (such as radioactive material inspection, bomb detection, and deactivation), manufacturing operations, or in conditions where humans are unable to live (e.g. in space, underwater, in high heat, and clean up and containment of hazardous materials and radiation). Walking, lifting, speaking, cognition, and any other human activity are all attempted by robots. Many of today's robots are influenced by nature, making bio-inspired robotics a growing area. Defusing explosives, seeking survivors in unstable ruins, and investigating mines and shipwrecks are just a few of the activities that robots are designed to undertake. This groundbreaking new volume presents a Robotic Process Automation (RPA) software technique that makes it simple to create, deploy, and manage software robots that mimic human movements while dealing with digital systems and software. Software robots can interpret what's on a screen, type the correct keystrokes, traverse systems, locate and extract data, and do a wide variety of predetermined operations, much like people. Software robots can do it quicker and more reliably than humans, without having to stand up and stretch or take a coffee break.

Contents:

Cover

Title Page

Copyright Page

Contents

Preface

Chapter 1 A Comprehensive Study on Cloud Computing and its Security Protocols and Performance Enhancement Using Artificial Intelligence

1.1 Introduction

1.2 Aim of the Study

1.3 Architecture of Cloud Computing

1.4 The Impact of Cloud Computing on Business

1.5 The Benefits of Cloud Computing on Business

1.6 Generic Security Protocol Features

1.7 Cloud Computing Security Protocol Design

1.7.1 Protocol for File Transfer (FTP)

1.7.2 Local User Authentication Protocol (LUAP)

1.7.3 Protocol for Consumption

1.7.4 Remote User Authentication Protocol

1.7.5 Secure Cloud Transmission Protocol

1.7.6 Protocol for Cloud Trust

1.7.7 Protocol for Secure Single-Sign-On

1.7.8 Secure Session Protocol (SSP)

1.7.9 Protocol for Authorization

1.7.10 Protocol for Key Management

1.8 AI Based Cloud Security

1.8.1 Event Detection and Prevention

1.8.2 Delegate to Automated Technology

1.8.3 Machine Learning Algorithms in Cloud Computing

1.9 Various Neuronal Network Architectures and Their Types

1.10 Conclusion

Acknowledgement

References

Chapter 2 The Role of Machine Learning and Artificial Intelligence in Detecting the Malicious Use of Cyber Space

2.1 Introduction

2.2 Aim of the Study

2.3 Motivation for the Study

2.4 Detecting the Dark Web

2.5 Preventing the Dark Web

2.6 Recommendations

2.7 Conclusion

Chapter 3 Advanced Rival Combatant LIDAR-Guided Directed Energy Weapon Application System Using Hybrid Machine Learning

3.1 Introduction

3.2 Aim of the Study

3.3 Motivation for the Study

3.4 Nature of LASERS

3.5 Ongoing Laser Weapon Projects

3.6 Directed Energy Weapons (DEWs)

3.7 LIDAR Guided LASER Weapon System (LaWS) Requirements

3.8 Methodology.

3.9 Conclusion

Chapter 4 An Impact on Strategical Advancement and Its Analysis of Training the Autonomous Unmanned Aerial Vehicles in Warfare [Theme - RPA and Machine Learning]

4.1 Introduction

4.2 Aim of the Study

4.3 Motivation for the Study

4.4 Supervised and Unsupervised Machine Learning for UAVs

4.4.1 Supervised Learning Overview

4.4.2 Overview of Unsupervised Learning

4.4.3 Supervised and Unsupervised UAV-Based Solution Problems

4.5 Unsupervised Solution

4.5.1 Estimation of Channel

4.5.2 Detection of UAVs

4.5.3 Imaging for Unmanned Aerial Vehicles

4.6 Conclusion

4.7 Scope for the Future Work

Chapter 5 FLASH: Web-Form's Logical Analysis &amp

Session Handling Automatic Form Classification and Filling on Surface and Dark Web

5.1 Introduction

5.2 Literature Review

5.2.1 Notable Approaches

5.2.1.1 Crawling the Hidden Web

5.2.1.2 Google's Deep Web Crawl

5.2.1.3 Other Approaches

5.3 How FLASH Offers Better Results

5.4 Methodology

5.4.1 Form Identification and Field Extraction

5.4.1.1 Form Identification

5.4.1.2 Extraction of Fields

5.4.2 Form HTML Tag Interpretation

5.4.2.1 Identification of Form Type

5.4.2.2 Identification of Request Method

5.4.3 Interpretation of Form Fields

5.4.4 Form Classification

5.4.5 Generation and Sending of Request with Appropriate Data

5.4.5.1 Generation of the Request

5.4.5.2 Sending the Request

5.5 Results

5.5.1 Classification of Forms

5.5.2 Dataset

5.5.2.1 Manual

5.5.2.2 Automated

5.5.3 Accuracy Measures

5.5.4 Manual Dataset

5.5.4.1 Form Classification

5.5.4.2 Form Filling

5.5.5 Automated Datasets

5.5.5.1 Form Classification

5.5.5.2 Form Input-Tag Inference

5.6 Limitations and Future Work

5.6.1 Limitations.

5.6.2 Future Work

5.7 Conclusion

Chapter 6 Performance Analysis of Terahertz Microstrip Antenna Designs: A Review

6.1 Introduction

6.2 Microstrip Antenna Design

6.2.1 Feeding Methods

6.3 Challenges of Terahertz Antenna Development

6.4 Antenna Performance Attributes

6.5 Comparative Analysis of Microstrip THZ Antennas

6.6 Conclusion

Chapter 7 Smart Antenna for Home Automation Systems

7.1 Introduction

7.2 Home Automation Antenna Geometry and Robotics Process Automation

7.3 Results for Home Automation Smart Antenna

7.4 Conclusion

Chapter 8 Special Military Application Antenna for Robotics Process Automation

8.1 Introduction

8.2 Special Military Application Antenna for Robotics Process Automation

8.3 Results for Special Military Application Antenna

8.4 Conclusion

Chapter 9 Blockchain Based Humans-Agents Interactions/Human-Robot Interactions: A Systematic Literature Review and Research Agenda

9.1 Introduction

9.2 Conceptual Foundation

9.2.1 Blockchains

9.2.2 Cryptocurrencies

9.2.3 Smart Contracts

9.2.4 Decentralized Identity

9.3 Motivation

9.4 Blockchain and Robotics Overview

9.5 Human-Robot Interaction

9.5.1 Games

9.5.2 Commitment Strategies and Conditioning

9.6 Applications of HRI

9.6.1 HRI Application in Industry

9.6.2 HRI in Rehabilitation and Medical

9.6.3 HRI in Agriculture

9.6.4 Robochains

9.7 Transactions between Robots and Human Beings

9.7.1 A Ledger that is Decentralized, Immutable, and Publicly Verifiable

9.7.2 Contracts

9.8 Escrow Services

9.9 Challenges for HRI

9.9.1 Task Dynamic Analysis

9.9.2 Teaching a Robot and Avoiding Unintended Consequences

9.9.3 Connecting Mutual "Mental" Models to Prevent Working in Conflict

9.9.4 Role of Robots in Education.

9.9.5 Lifestyle, Fears, and Human Values

9.10 Discussion and Future Work

9.11 Conclusion

Chapter 10 Secured Automation in Business Processes

10.1 Introduction

10.2 Literature Survey

10.3 Background

10.4 Proposed Model

10.4.1 Disadvantages of Previous System

10.5 Analysis of the Work

10.6 Conclusion

Chapter 11 Future of Business Organizations Based on Robotic Process Automation: A Review

11.1 Introduction

11.2 Literature Review

11.3 Technology: A Need of Robotic Process Automation

11.3.1 Benefits of Robotic Process Automation

11.3.2 Drawbacks of Robotic Process Automation

11.4 Business Enterprise

11.5 Conclusion and Future Scope

Chapter 12 Comparative Overview of FER Methods for Human-Robot Interaction Using Review Analysis

12.1 Introduction

12.2 FER Method Review Based Analysis

12.2.1 AdaBoost Method

12.3 Feature Extraction Techniques

12.3.1 Haar Classifier Method

12.3.2 Geometric-Based Method

12.3.3 Appearance-Based Method

12.4 Conclusion

Chapter 13 Impact of Artificial Intelligence on Medical Science Post Covid 19 Pandemic

13.1 Introduction

13.2 Types of AI Relevant to Healthcare

13.2.1 Machine Learning - Neural Networks and Deep Learning

13.2.2 Natural Language Processing

13.2.3 Rule-Based Expert System

13.2.4 Physical Robots

13.2.5 Robotic Process Automation

13.3 Diagnosis and Treatment Application

13.4 Limitation of Artificial Intelligence in Medical Science

13.4.1 Data Availability

13.4.2 One-Sided Data

13.4.3 Data Preprocessing

13.4.4 Selection of Model

13.4.5 Presenting Biased Model

13.4.6 Fragmented Data

13.4.7 Black Boxes

13.5 The Future of AI in Healthcare

13.6 Conclusion

References.

Chapter 14 Revolutionizing Modern Automated Technology with WEB 3.0

14.1 Introduction

14.2 What is WEB 3.0: Definitions

14.3 Features &amp

Characteristics

14.3.1 Rewarding Cryptocurreny

14.3.2 Interconnection-Exchange &amp

Use of Info

14.3.3 Metaverse

14.3.4 Personalization

14.3.5 Semantic Web

14.4 Implementation

14.4.1 The Three Dimensional Web

14.4.2 Decentralized Technology

14.4.3 The Social Web

14.4.4 Prevalent and Omnipresent WEB

14.4.5 Multi-Media Web

14.5 Inventions around Modern Technology

14.5.1 A.I. Powered Search Engine

14.5.2 Touring and Travelling

14.5.3 Gaming Advancements

14.5.4 E-Learning with Virtual Documentary

14.6 Conclusion

Chapter 15 The Role of Artificial Intelligence, Blockchain, and Internet of Things in Next Generation Machine Based Communication

15.1 Introduction

15.2 Blockchain

15.3 Internet of Things

15.4 Convergence of Blockchain, Internet of Things, and Artificial Intelligence

15.5 Block Chain for Vehicular IoT

15.6 Convergence of IoT with Cyber-Physical Systems

15.7 Conclusion

Chapter 16 Robots, Cyborgs, and Modern Society: Future of Society 5.0

16.1 Introduction

16.2 Comparing Humans, Cyborgs, and Robots

16.3 Some Philosophical Aspects

16.4 Reproduction or Replication

16.5 Future of our Society

16.5.1 Eugenics or Genetic Engineered Humans

16.5.2 Why Do We Need Cyborgs?

16.6 Implications

16.6.1 Opportunity vs Exploitation

16.6.2 Utopia vs Dystopia

16.6.3 Emancipation vs Extermination

16.7 Conclusion

Chapter 17 Security and Privacy of Blockchain-Based Robotics System

17.1 Introduction

17.2 Security and Privacy Concerns

17.2.1 Double Spending

17.2.2 Vulnerable Wallets

17.2.3 Cyber-Attacks

17.2.4 Sybil Attack.

17.2.5 Selfish Mining.

Notes:

5.3 How FLASH Offers Better Results

Description based on publisher supplied metadata and other sources.

ISBN:

9781394166954

1394166958

9781394166947

139416694X

OCLC:

1392346965