An energy-aware and Q-learning-based area coverage for oil pipeline
To ensure appropriate coverage on pipeline monitoring systems, one solution is to design a scheduling mechanism for nodes to reduce energy consumption.
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500kwh Hybrid Energy System
A flow type piezoelectric-electromagnetic hybrid energy harvesting for
This article introduces a novel hybrid flow energy harvester that combines electromagnetic and piezoelectric transduction methods to capture the kinetic energy of a fluid flowing through a
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Modeling the Performance of a Multi-Hop LoRaWAN
Additionally, this type of deployment introduces many challenges, such as high signal delays, low reliability, and high sensor energy consumption
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An integrated fluid flow and solar hybrid energy
This study introduces an innovative hybrid energy harvester that combines solar and flow energy sources to power Internet of Things enabled
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A hybrid flow energy harvester using combined piezoelectric and
The voltage and power levels attained by the energy harvester can provide an easy solution for powering wireless sensor nodes mounted on a pipeline network for condition monitoring.
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A hybrid flow energy harvester using combined piezoelectric and
An energy harvester that employs both electromagnetic and piezoelectric effects to convert fluid flow energy in the pipeline into electrical energy for powering wireless sensor nodes
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Zigbee and Long-Range Architecture Based Monitoring
The Internet of Things (IoT) provides an opportunity for realizing the real-time monitoring system by deploying the IoT-enabled end devices on the oil
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A hybrid piezoelectric and electromagnetic energy harvester for
This research proposes an innovative approach for energy harvesting and flow velocity monitoring in fluid pipelines, contributing to the advancement of intelligent fluid monitoring systems.
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A novel pipeline VIV-based synergetic hybrid renewable energy
In conclusion, the mechanically simple and economically feasible pipeline VIV-based dual-functional hybrid energy harvesting configuration proposed in present study is intended to further
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An integrated fluid flow and solar hybrid energy
This study introduces a novel hybrid energy harvester that effectively integrates solar and flow energy sources to provide a sustainable power solution
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Solar-Powered Pipeline Monitoring: Siemens Solar''s Oil
Siemens Solar''s systems for pipeline monitoring are engineered to withstand the extreme conditions typical of oil and gas environments—high
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Enhanced Long-Range Network Performance of an Oil
Enhanced Long-Range Network Performance of an Oil Pipeline Monitoring System Using a Hybrid Deep Extreme Learning Machine Model
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Petroleum pipeline monitoring using an internet of things
The increasing need for efficient and real-time monitoring of petroleum pipelines has highlighted the limitations of traditional inspection methods, which
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Enhancing Security and Efficiency in IoT-Based Oil
This study presents a novel framework for IoT-based oil and gas pipeline monitoring, designed to bolster security, data accuracy, and operational
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A hybrid piezoelectric and electromagnetic energy harvester for
Abstract The power supply issue of flow velocity sensors is a major obstacle limiting their widespread application in fields such as remote environmental monitoring and industrial process
Get Quote Smart IoT SCADA System for Hybrid Power Monitoring
This paper presents an Internet of Things (IoT)-based, open-source SCADA architecture designed to monitor a Hybrid Power System (HPS) at a
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Smart Pipeline Monitoring Systems for Oil & Gas
Smart Pipeline Monitoring: The Future of Oil & Gas Infrastructure In today''s dynamic energy landscape, the need for smarter and safer pipeline infrastructure has never been greater. With the surge in oil
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Enhanced long-range network performance of an oil pipeline monitoring
HIGHLIGHTS What: The study showed that the average energy consumption and lifespan of a battery are affected by a decreasing sensing interval and an increasing spreading factor of the standard
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Solar-powered Surveillance Systems for Oil Pipeline
Deploy off-grid solar-powered surveillance systems for oil pipeline protection. Discover hybrid solar-wind kits, PTZ cameras, and OEM-ready monitoring
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Zigbee and Long-Range Architecture Based Monitoring
In this study, we propose a hybrid architecture based on 2.4 GHz-based Zigbee and LoRa communication for oil pipeline monitoring. Moreover, customized end
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A Hybrid Flow Energy Harvester to Power an IoT-Based Wireless
This study presents a novel energy harvesting device that combines piezoelectric and electromagnetic transduction to extract energy from fluid flow within pipelines to supply power to
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Hybrid piezoelectric–electromagnetic flow energy harvester for self
This study presents a hybrid flow energy harvester that powers IoT-based wireless sensor networks for pipeline monitoring, eliminating battery dependence and enabling continuous, low
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Zigbee and Long-Range Architecture Based Monitoring
Causes of oil pipeline failure. Hybrid Architecture of LoRa and Zigbee modem for pipeline parameters monitoring in Oil field. Schematic representation
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A secure smart monitoring network for hybrid energy systems
This research study analyzes the design and implementation of a secure and smart monitoring network for hybrid energy systems using two of the most widely known Internet of Things
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Enhanced Long-Range Network Performance of an Oil
Leak detection in oil and gas pipeline networks is a climacteric and frequent issue in the oil and gas field. Many establishments have long depended
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Enhanced Long-Range Network Performance of an Oil Pipeline Monitoring
The accuracy and eficiency of a real-time transient model (RTTM)-based LoRa WAN oil pipeline leak detection system is maintained and increased in terms of continued monitoring and a quick
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Energy-Aware Pipeline Monitoring System Using Piezoelectric Sensor
The system consists of wireless impedence nodes that are operated with energy-aware software techniques. The experiments conducted in a real pipeline test bed show that the proposed
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