Ameen Awwad scite author profile

Ameen Awwad

5Publications

12Citation Statements Received

76Citation Statements Given

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Affiliations

American University of Sharjah

Publications

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Communication Network for Ultrasonic Acoustic Water Leakage Detectors

et al. 2020

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Water leaks in the distribution network produce significant losses and cause serious economic inconvenience especially in areas with water shortage. In this paper, the operational aspects of the most popular offline detection technologies, ground penetrating radars (GPR's), infrared (IR) cameras, and acoustic detectors, were compared. The authors also studied the potential of using the recent Terahertz imaging technology for the same application. Acoustic detectors were found the most suitable technology for the atmosphere in UAE, where the levels of humidity and, consequently, soil moisture are high, because both of GPRs and IR cameras operational capability to detect leaks tend to decrease sharply as soil moisture increases. On the other side, a conventional acoustic detector has very limited scope of detection. This paper presents a method of expanding the sensing component of acoustic detectors by connecting acoustic sensors through a digital communication system using the 3G/4G networks to a monitoring center with an acoustic spectrum analyzer. The novelty of this system is its ability to provide offline detection of leakages in the underground water pipelines remotely without deforming the surrounding environment or adjusting the acoustic detector's analyzing system. Simulation results proves the ability of the system to reconstruct the input noise signal at the end of the proposed network which is to be connected to the acoustic analyzer.

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Remote Thermal Water Leakage Sensor With a Laser Communication System

et al. 2020

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The change in the temperature of an underground water pipeline and its surrounding environment caused by a leakage has been detected by a variety of devices. Among the most popular technologies are infrared cameras, distributed temperature sensing using fiber optic cables, and analog active temperature sensors. In this paper, a novel low-cost leakage detection system composed of two analog active temperature sensors is presented. The proposed system detects water leakages by comparing the readings of two analog active temperature sensors, one at the surface at a depth of 2 cm of a sand layer covering a buried water pipeline and the other is adjacent to the first sensor at the same depth in a thermally insulated portion by a polystyrene barrier. The results of the heat flow simulation developed with FEMM (Finite Element Method Magnetics) 4.2, which is free, open source, cross-platform capable of solving heat flow problems, showed that the addition of the insulation is expected to increase the difference between the readings of the sensors from 0.011 to 0.063 K ( o C) when there is a leakage, and thus the addition of the insulation can be effective in making the effect of leaked water on the surface temperature more detectable. Experimental results indicated the capability of the proposed system in detecting water leakage which caused a temperature difference of 1.47 o C after 30 minutes of running a leaking water system. Furthermore, a laser communication system was built to allow for the transmission of an alarm signal from the sensing node above the underground pipeline to a master node which should have an internet connection to upload information to a cloud storage which can be accessed by different users.INDEX TERMS Laser communication, leakage detection, Sustainable Development Goals (SDGs), temperature sensors, underground water pipeline. I. LITERATURE REVIEWLeakages in water distribution networks (WDNs) cause significant losses of treated water. The amount of lost water from WDNs in GCC (Gulf Cooperation Council) countries,

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Employing Robotics and Deep Learning in Underground Leak Detection

et al. 2023

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Modeling and Optimization of a Range-Selective Digital Array Radar

Awwad

Mir

Albasha

2022

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AMIMO Microwave Wireless Power Transfer

Awwad

AlKhadem

Albasha

2019

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Ameen Awwad

Communication Network for Ultrasonic Acoustic Water Leakage Detectors

Remote Thermal Water Leakage Sensor With a Laser Communication System

Employing Robotics and Deep Learning in Underground Leak Detection

Modeling and Optimization of a Range-Selective Digital Array Radar

AMIMO Microwave Wireless Power Transfer

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