EHIOT1: Energy Harvesting Enabling IOT |
Submission link | https://easychair.org/conferences/?conf=ehiot1 |
Abstract registration deadline | December 15, 2021 |
Submission deadline | December 15, 2021 |
CALL FOR BOOK CHAPTERS IN CRC PRESS Taylor & Francis BOOK Series
BOOK TITLE: Energy Harvesting – Enabling IoT Transformations
In today’s era of emerging technologies, IoT (Internet of Things) is playing a pivotal role by enabling the interaction of global machine networks where the connected devices interact with each other and act as a support system for Organizations and further perform analytics for their business. As a result of its significance, various Industries are adopting IoT technology for cutting edge innovative solutions and maintaining a competitive advantage over their competitors. With the emergence of IoT technology, the effectiveness and efficiency of Wireless Sensor Nodes (WSN – It is one the main building blocks of an IoT enabled device and functions by fetching the data from its surroundings) is becoming one of the most critical factors to be considered by the applications i.e. traffic management, health care systems, environmental monitoring, and smart buildings.
Mostly the IoT devices are powered by the batteries which have a limitation of finite battery life. When the connected nodes interact with each other, a large amount of energy is consumed by the nodes for effective communication due to which the devices operate only for a limited duration. A promising alternative with no dependency on battery life is Energy Harvesting. EH is the process of taking the energy from various different sources i.e. Solar Energy, Wind Energy, Thermal Energy, Radiant Energy (Radio Frequency), Mechanical Energy (Motion), Finer Motion, Footfalls, Breathing, Vibrations etc. Once the energy is received from these sources, it is accumulated and further converted into usable electrical energy. This harvested electrical energy is used to power-on the IoT devices and also increases the overall efficiency, durability & lifetime of the IoT devices. Though Energy Harvesting plays a very significant role by increasing the efficiency and lifetime of the IoT devices but EH systems have got some limitations also such as low amount of energy harvested, dependency on the source of energy from which the energy is supposed to be harvested, inefficiency of the harvesting system etc. Additional to these, there is one critical problem of power management that impacts the storage of the batteries. In order to mitigate this problem, power management integrated circuits were introduced to provide better power management to IoT devices. Over a period of time efforts have been made to overcome these limitations and new models of energy harvesting have been introduced. The Governments and Public Sector Organizations have a key role to play in promoting the Energy Harvesting techniques and their significance when used in combination with IoT devices. In order to boost the prospect, all such companies developing Energy Harvesters need the funding, support and investment in R&D which the Governments should provide. There are still many product based organizations working on IoT devices which do not know the principle of energy harvesting & the benefits they achieve by using this technology. Organizations should allot sufficient marketing budget & drive public awareness programs to educate and emphasize the significance of EH systems and the benefits they provide when combined with IoT devices.
Submission Guidelines
All book chapters must be original and not simultaneously submitted to another journal or conference. The book Chapter must strictly follow the guidelines given in the given link https://www.routledge.com/our-customers/authors/publishing-guidelines
CHAPTERS MUST INCLUDE THE FOLLOWING DOMAINS:
RECOMMENDED CHAPTERS:
Chapter 1- Energy harvesting based Architecture in IoT: Basics of Energy Harvesting, Need of IoT, Challenges of IoT in terms of energy and power consumption, Importance of Energy Harvesting in IoT
Chapter 2- Potential Ambient Energy Harvesting: Sources and Techniques
Chapter 3- Energy Harvesting: Key technology for enhancing the life of IoT devices
Chapter 4- Power management and storage for EH based Wireless Sensor Network
Chapter 5- Case studies on Energy Harvesting approaches from Solar, Thermal, and RF Sources
Chapter 6- IoT based architecture leading into a paradigm shift in Biomedical Industry
Chapter 7- Harnessing Energy for the implantable biomedical instruments with IoT network: Implementation and challenges
Chapter 8- Practices involved in Solar Power Harvesting for Agriculture Sector
Chapter 9- EH-IoT technology empowering Automobile Market
Chapter 10- EH-IoT Applications generating Entrepreneur Opportunities
Chapter 11- Global initiatives and Government policies promoting Energy Harvesting
Chapter 12- Recent advances and futuristic trends of IoT based devices
Committees
Program Committee
- Dr Kimmi Verma
- Dr Deepti Agarwal
- Dr Shabana Urooj
Organizing committee
- Dr Kimmi Verma
- Dr Deepti Agarwal
- Dr Shabana Urooj
Contact
All questions about submissions should be emailed to ...cfp.eceresearch@gmail.com