EcoFlex DC-DC Converter Optimization Using a Stochastic-Heap Hybrid Optimizer and IoT Technology | Chapter 12 | Research and Developments in Engineering Research Vol. 7

The climbing need for energy-efficient capacity electronics in Internet of Things (IoT)-authorized devices requires the invention of advanced optimization methods. The EcoFlex DC-DC converter, a new energy-effective solution, is received in this chapter, in addition to a proposal for its growth using an IoT-integrated theory of probability-heap hybrid optimizer (SHHO). The main aims are to produce an eco-friendly DC-DC preacher, an IoT-based switching control bettering, and a low-capacity converter. The widespread use of Internet of Things (IoT) designs in recent years has raised demand for power electronics schemes that meet networked intelligent maneuvers' varied and changing strength requirements. Innovative power administration systems that can affect a balance between energy frugality, agility, and environmental knowledge are urgently needed as IoT uses continue to evolve. A prospective solution to these questions is the EcoFlex DC-DC converter, which this stage covers. It is meant to maximize strength use while allowing for the vacillating load requirements of IoT-enabled supplies. The Stochastic-Heap Hybrid Optimizer (SHHO), which combines the benefits of guessed exploration accompanying heap-based exploitation, is used to reach this. Improving the EcoFlex DC-DC converter's effectiveness is the basic goal of this work. The SHHO optimizes the EcoFlex preacher's settings to obtain high energy effectiveness, which lowers total energy payments and promotes tenable operation. The chapter's second aim is to use IoT technologies to reinforce EcoFlex converter control.In this book chapter, investigators and engineers may test the EcoFlex converter's potential as a high-efficiency power management alternative for the developing IoT system countryside. These results and conclusions prepare the way for further investigation into optimizing power camcorders and support the growth of environmentally friendly and strength-efficient IoT ploys.

Author(s) Details:

Praveen Mande,
Department of EECE, GITAM University, Vishakhapatnam, India.

Budidi Udaya Kumar,
Department of EECE, GITAM University, Vishakhapatnam, India.

S. V. Bharath Kumar Reddy,
Department of EECE, GITAM University, Vishakhapatnam, India.

Sreenivasulu Ummadisetty,
Department of EECE, GITAM University, Vishakhapatnam, India.

I. E. S. Naidu,
Department of EECE, GITAM University, Vishakhapatnam, India.

Please see the link here: https://stm.bookpi.org/RADER-V7/article/view/11712