1.6 Case Studies of Successful IoT Applications.1.5.10 IoT Outputs: Protocols for Data Monetization.1.5.9 IoT Outputs: Protocols for Repurposing Data.1.5.8 IoT Outputs: Streamlining Operations.1.5.6 Select/Develop the Required Data Analytics (DA) Algorithms.1.5.5 Networking Configuration and Setup.1.5.4 Design the IoT Devices, the Things.1.5 The Effective Implementation of IoT: The Detailed Procedure.1.4.1 The Multidisciplinary Nature of IoT.1.4 Challenges of Implementing Effective IoT Systems.1.3.3 IoT Potential: Data Monetization (Data as a Commodity).1.3.1 IoT Potential: Streamlining Operations.
#RASPBERRY PI GEANY FULL#
1.3 Understanding the FULL Potential of IoT.1.2.1 A Brief Refresher on the Internet.1.1.2 A New Design Paradigm: Design from IoT.1.1.1 A New Design Paradigm: Design for IoT.1.1 A New Design Paradigm: The Internet of Things.
This book aims at Researchers, Graduate students in Mechanical Engineering, Computer Programming, Automobile, Robotics, and Industry 4.0/automation.
Combines theory and practice including relevant terminologies and hands-on.Presents exclusive material on application of IoT in mechanical engineering.Further, it explains IoT systems and hands-on training modules, implementation, and execution of IoT Systems.
Divided into three sections named IoT Strategies, IoT Foundation topics, and IoT system development, the volume covers introduction to IoT framework, its components, advantages, challenges, and practical process for effective implementation of IoT from mechanical engineering perspective. This book provides knowledge, skills, and strategies an engineer requires to effectively integrate Internet of Things (IoT) into the field of mechanical engineering.
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