AI and IoT-Based Intelligent Automation in Robotics. Группа авторов
Читать онлайн книгу.href="#ulink_3a46b3b1-e766-58f4-b0ea-d0f4322a847a">8.8 Process Automation 8.9 Robots and Robotic Automation 8.10 Architecture of the Internet of Robotic Things 8.11 Basic Abilities 8.12 More Elevated Level Capacities 8.13 Conclusion References
13 9 An Artificial Intelligence-Based Smart Task Responder: Android Robot for Human Instruction Using LSTM Technique 9.1 Introduction 9.2 Literature Review 9.3 Proposed System 9.4 Results and Discussion 9.5 Conclusion References
14 10 AI, IoT and Robotics in the Medical and Healthcare Field 10.1 Introduction 10.2 A Survey of Robots and AI Used in the Health Sector 10.3 Sociotechnical Considerations 10.4 Legal Considerations 10.5 Regulating Robotics, AI and IoT as Medical Devices 10.6 Conclusion References
15 11 Real-Time Mild and Moderate COVID-19 Human Body Temperature Detection Using Artificial Intelligence 11.1 Introduction 11.2 Contactless Temperature 11.3 Fever Detection Camera 11.4 Simulation and Analysis 11.5 Conclusion References
16 12 Drones in Smart Cities 12.1 Introduction 12.2 Utilization of UAVs for Wireless Network 12.3 Introduced Framework 12.4 UAV IoT Applications 12.5 Conclusion References
17 13 UAVs in Agriculture 13.1 Introduction 13.2 UAVs in Smart Farming and Take-Off Panel 13.3 Introduction to UGV Systems and Planning 13.4 UAV-Hyperspectral for Agriculture 13.5 UAV-Based Multisensors for Precision Agriculture 13.6 Automation in Agriculture 13.7 Conclusion References
18 14 Semi-Automated Parking System Using DSDV and RFID 14.1 Introduction 14.2 Ad Hoc Network 14.3 Radio Frequency Identification (RFID) 14.4 Problem Identification 14.5 Survey of the Literature 14.6 PANet Architecture 14.7 Conclusion References
19 15 Survey of Various Technologies Involved in Vehicle-to-Vehicle Communication 15.1 Introduction 15.2 Survey of the Literature 15.3 Brief Description of the Techniques 15.4 Various Technologies Involved in V2V Communication 15.5 Results and Analysis 15.6 Conclusion References
20 16 Smart Wheelchair 16.1 Background 16.2 System Overview 16.3 Health-Monitoring System Using IoT 16.4 Driver Circuit of Wheelchair Interfaced with Amazon Alexa 16.5 MATLAB Simulations 16.6 Conclusion 16.7 Future Work Acknowledgment References
21 17 Defaulter List Using Facial Recognition 17.1 Introduction