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Designing IoT Applications with Serverless Concepts and Open Source Tools

Autor Shajulin Benedict
en Limba Engleză Hardback – 28 dec 2026
This work explains step-by-step development and implementation of serverless functions at sensor, edge, and cloud levels for IoT-enabled applications, addressing data privacy, cost inefficiency, and scalability challenges. It discusses the systematic deployment of serverless functions across sensor nodes, edge clusters, and cloud infrastructure using open-source tools such as ESP-IDF, WasmEdge, and OpenFaaS. It covers key topics, including edge-fog-cloud computing, IoT communication protocols (MQTT, LoRa, Zigbee), benchmarking methods, and performance comparisons. It highlights the integration of serverless concepts to build efficient computing platforms, drawing on insights from collaborative research with leading universities.
 
  • Discusses the application of serverless functions on edge-enabled clusters, such as Raspberry Pi clusters mounted at our research labs.
  • Details exploration of IoT communication protocols and offers benchmarking methodologies for evaluating serverless IoT systems.
  • Expresses the utilisation of open-source tools and frameworks to activate serverless functions in IoT-enabled applications.
  • Explains future directions for scalable and efficient IoT application development.
 
This book is for professionals, academicians, and students interested in IoT-enabled applications.
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Specificații

ISBN-13: 9781041256427
ISBN-10: 1041256426
Pagini: 312
Ilustrații: 58
Dimensiuni: 156 x 234 mm
Ediția:1
Editura: CRC Press
Colecția Chapman and Hall/CRC

Public țintă

Academic

Cuprins

Section I: Foundations and Tools  1. Foundations of IoT and Serverless Computing  2. AI/ML/DL for IoT  3. Programming Serverless    4. Edge-level Devices  Section II: Architectures and System Design  5. Serverless IoT  6. Decentralized Serverless Architectures  7. Resource Allocation Strategies  8. Distributed Scheduling in Serverless IoT  9. Serverless Workflows  Section III: Performance Aspects  10. Energy, Scalability, and Latency-Aware Serverless  11. Performance Optimization in Serverless IoT  12. Benchmarking Serverless IoT  13. Acceleration Strategies  Section IV: Applications and Future Directions  14. Serverless IoT Platforms  15. Serverless IoT-Enabled Applications  16. Conclusion and Future Directions

Notă biografică

Shajulin Benedict is currently affiliated to the Indian Institute of Information Technology Kottayam, Kerala, India, an institute of national importance of India. Additionally, he serves as the Director/PI/Representative Officer of AIC-IIIT Kottayam Foundation (Sec.8 Company) for nourishing young entrepreneurs of India in IoT-related topics. He graduated in 2001. In 2004, he received his M.E Degree in Digital Communication and Computer Networking from A.K.C.E, Anna University, Chennai. He is the University second rank holder for his masters. He completed his Ph.D in Grid scheduling under Anna University, Chennai (Supervisor - Dr. V. Vasudevan, Director, Software Technologies Group of TIFAC Core in Network Engineering). After his Ph.D award, he joined a research team in Germany to become a Post Doctorate under the guidance of Prof. Gerndt. He served as a Professor at SXCCE Research Centre of Anna University-Chennai. Later, he visited TUM Germany to teach Cloud Computing and Internet of Things as Guest Professor of TUM-Germany. His research interests include IoT Cloud, Performance Analysis, Scheduling, Edge Analytics, and so forth.

Descriere

This work explains step-by-step development and implementation of serverless functions at sensor, edge, and cloud levels for IoT-enabled applications, addressing data privacy, cost inefficiency, and scalability challenges.