Research and Applications: Embedded System (e-ISSN:2582-2993)

As wireless sensor networks have become more widespread, the monitoring capabilities of these technologies now encompass many areas of our daily lives. Their use not only enables the collection but also the comprehension, assessment, and ultimate inference of environmental data obtained from natural sources. Increasingly, sensors connected to the Internet of things (IoT) have increased their growth rate. By allowing detectors and selector devices to communicate with each other through perfect connectivity, the Internet of effects has become the foundation of our contemporary society. The evolution of IoT is leading to the creation of smarter, more efficient, and simpler systems.  IoT systems encompass smart cities, smart homes, connected buildings, wearable sensors, artificial intelligence, and intelligent retail systems, among other things  more. Several experiments have been undertaken to design IoT-based gadgets. Some of the notable implementations include intelligent ventilation, automatic indoor lighting and decisions based on tone.

Tanveer Ahmad and Dongdong Zhang. 2021. Using the internet of effects in smart energy systems and net-works. Sustainable metropolises and Society 68( 2021), 102783.

Daghash K Alqahtani, Muhammad Aamir Cheema, and Adel N Toosi. 2024. Benchmarking deep learning models for object discovery on edge computing bias. In International Conference on Service acquainted Comput-ing. Springer, 142 – 150.

Andrea Apicella, Pasquale Arpaia, Francesco Caputo, Luigi Capobianco, Antonella Cioffi, Antonio Esposito, Rosanna Manzo, Nicola Moccaldi, Danilo Pau, Francesco Isgrò, et al. 2025. Energy Consumption Assessment in Bedded Ai Metrological Improvements Of marks for Edge bias. Available at SSRN 5218907( 2025).

Oroos Arshi, Akanksha Rai, Gauri Gupta, Jitendra Kumar Pandey, and Surajit Mondal. 2024. IoT in energy a comprehensive review of technologies, operations, and unborn directions. Peer- to- Peer Networking and opera-tions 17, 5( 01 Sep 2024), 2830 – 2869.

Colby Banbury, Chuteng Zhou, Igor Fedorov, Ramon Matas, Urmish Thakker, Dibakar Gope, Vijay Janapa Reddi, Matthew Mattina, and Paul Whatmough. 2021. Micronets Neural network infrastructures for planting tinyml op-erations on commodity microcontrollers. Proceedings of machine literacy and systems 3( 2021), 517 – 532.

Meriam Ben Ammar, Imed Ben Dhaou, Dhouha El Houssaini, Salwa Sahnoun, Ahmed Fakhfakh, and Olfa Kanoun. 2022. Conditions for energy- harvesting- driven edge bias using task- unpacking approaches. Electronics 11, 3( 2022), 383.

Chengbin Chen, Jin Xiang, Zhuoya Ye, Wanyi Yan, Suiling Wang, Zhensheng Wang, Pingping Chen, and Min Xiao. 2022. Deep literacy- grounded energy optimization for edge device in UAV- backed dispatches. Drones 6, 6( 2022), 139.

Mike Davies, Narayan Srinivasa, Tsung- Han Lin, Gautham Chinya, Yongqiang Cao, Sri Harsha Choday, Georgios Dimou, Prasad Joshi, Nabil Imam, Shweta Jain, et al. 2018. Loihi A neuromorphic manycore processor with on- chip literacy. Ieee Micro 38, 1( 2018), 82 – 99.

Alex De Vries. 2023. The growing energy footmark of artificial intelligence. Joule 7, 10( 2023), 2191 – 2194.

Statista Research Department. 2024. Per capita elec-tricity consumption in Europe from 2000 to 2023.