بكالوريوس هندسة تقنية الكترونيك والسيطرة

Sep 1, 2005 - Sep 1, 2008

بكالوريوس هندسة تقنية إلكترونيك وسيطرة الذي يركز على تصميم وتطوير وصيانة الأنظمة الإلكترونية وأنظمة التحكم. يدمج التخصص بين مبادئ الهندسة الكهربائية والإلكترونية مع تقنيات التحكم الحديثة، يكسب مهارات في برمجة الأنظمة المدمجة، تصميم الدوائر الإلكترونية، التحكم الآلي، ومعالجة الإشارات، ما يؤهله للعمل في مجالات مثل الأتمتة الصناعية، الاتصالات، والأنظمة الذكية.

ماجستير هندسة كهرباء \الكترون

Sep 1, 2012 - Sep 1, 2015

ماجستير هندسة كهرباء/إلكترون يركز على التعمق في تصميم وتطوير الأنظمة الكهربائية والإلكترونية. يشمل التخصص دراسة متقدمة في مجالات مثل الدوائر الإلكترونية، أنظمة الاتصالات، الطاقة الكهربائية، والإلكترونيات الدقيقة. يكسب مهارات تحليل وتصميم الأنظمة الكهربائية والإلكترونية المعقدة، مما يؤهل للعمل في البحث والتطوير، التصميم الهندسي، والصناعات التقنية.

دكتوراه هندسة كهرباء\الكترون

Sep 1, 2021 - Sep 1, 2025

دكتوراه هندسة كهرباء/إلكترون هو برنامج دراسات عليا متقدم يهدف إلى تطوير المعرفة والبحث في مجالات الهندسة الكهربائية والإلكترونية. يركز على إجراء أبحاث مبتكرة في تصميم الأنظمة الكهربائية، الإلكترونيات الدقيقة، أنظمة الاتصالات، والطاقة. يكسب مهارات تحليلية متقدمة، القدرة على تطوير حلول تقنية جديدة، والمساهمة في التقدم العلمي والتكنولوجي. تؤهل الدرجة حاملها للعمل في الأوساط الأكاديمية، البحث العلمي، والصناعات التقنية المتقدمة.

شؤون الطلبة [خبرة ادارية في وحدة الشؤون الطلبة والوثائق .]

Aug 27, 2009 - May 1, 2016

خبرة إدارية في وحدة شؤون الطلبة والوثائق، مما أتاح لي العمل على تنظيم الملفات الأكاديمية ومتابعة شؤون الطلبة والعمل على الماستر شيتات وتدقيقها بكفاءة عالية

Deep neural remote sensing and Sentinel-2 satellite image processing of Kirkuk City, Iraq for sustainable prospective

Aug 23, 2025

Journal Journal of Optics and Photonics Research

DOI https://doi.org/10.47852/bonviewJOPR42022920

Volume 3

Sentinel-2 satellites, equipped with board-mounted multispectral payloads, provide images of the Earth in the wavelengths of the electromagnetic spectrum. These sensors can be used on Earth's surface to observe it with a very high spatial resolution, and there is a wide range of near-infrared and non-infrared spectral bands. These spectral ranges allow for a wide array of purposes, like assessing vegetation health land use and land cover changes, coastal and inland water quality assessment, and making disaster maps. In this case study, we mapped and analyzed different types of Sentinel-2 images that imaged Kirkuk city landscape in Iraq. The methodology is based on Artificial Intelligence (AI) analyzing patterns of Sentinel hub data and geographic information systems (GIS)-based mapping. Furthermore, minimum noise fraction (MNF) and pixel purity index (PPI) were applied on each image to enhance the spectral unmixing accuracy which provides higher precise endmember spectra. A deep neural remote sensing has been used for 10 m resolution Sentinel-2 image segmentation of Kirkuk. This produces such a result where features are exactly distinguished and identified. This is performed by automatically detecting and classifying features on the image to provide better identification and estimation. Analyzing received data through Sentinel-2 provides us with the basis to identify such patterns, trends, and insights as key facts supporting urban planning, environmental sustainability, and so much more.

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Advanced Techniques for Enhancing Low-Noise Amplifier Performance: A Review.

Mar 1, 2024

Journal Al-Rafadain Engineering Journal

Volume 29

This paper reviews prior investigations into low noise amplifier (LNA) design. In this work, various modern LNA architectures will be examined, with a focus on five technologies: Cascode Distributed LNA, Coupled-Line Feedback in 0.15 m GaAs pHEMT Technology, Dual-Band CMOS LNA in 65-nm CMOS, CMOS LNA Using Post-distortion technique and 22 nm FD-SOI CMOS. In this review, Low power dissipation rate, input and output synchronization, high gain, and low noise levels are examined. In order to design a new successful LNA, each topology's performance is then examined. Future research will be conducted based on comparisons of these five topologies

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Design of Multi-gas Monitoring Device for Indoor Air Quality

Feb 24, 2023

Journal Journal of Electronic & Information Systems

publisher Bilingual Publishing Co.

DOI https://doi.org/10.30564/jeis.v5i1.5390

Issue 1

Volume 5

Besides the need for low-cost instruments for air pollution measurement and detection, nowadays there are many concerns about air pollution due to the fast changes and used technologies. This research was applied using an MQ2 gas detector, and microcontroller/Arduino-Uno. The design steps included bonding and connecting readymade sensors, coding, and finally testing the device. Testing has been conducted in Environment and Pollution Engineering Department laboratories, at the Technical Engineering College of Kirkuk. This study proposed the use of an MQ2 sensor for multi-gas rate detection which can exist indoors. The system uses also a DHT22 sensor for measuring environment temperature and humidity. The sensors are connected to Arduino and LCD to present data on LCD by powering the system with external power. Overall, the testing was conducted, and the device served as a measuring tool for indoor air as an accurate multigas rate detector.

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Realization of fractional-order proportional-integral-derivative controller using fractance circuit

Jan 1, 2018

Journal JEA JOURNAL OF ELECTRICAL ENGINEERING

Issue 1

Volume 2

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Realization of fractional order pid controller using OPAMP circuit

May 16, 2017

Journal Electrical and Electronics Engineering Conference (JIEEEC), 2017 10th Jordanian International

publisher IEEE

DOI 10.1109/JIEEEC.2017.8051417

Issue 2

This paper concerned with realization of fractional order PID (FPID) by electronic circuit utilizing the syntheses of a fractance circuit that can be connected on operational amplifier either in the input or the output feedback of operational amplifier (OPAMP) circuit. Where the fractional order derivative (FD) and fractional order integral (FI) have been approximated to integer order rational transfer function depending on Carlson method. The continuous fractional expansion (CFE) and partial fraction expansion (PE) have been utilized on the (FI) and FD approximated transfer function to synthesis the fractance circuit. The analogue electronic circuit has been simulated using Circuit Wizard to realize the FD, FI and FPID circuits. The time domain response has been tested with sine wave input. The Bode plot for both real FD and FI with that the approximated one has been drawn

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Realization of fractional order differentiator by analogue electronic circuit

Feb 1, 2015

Journal International Journal of Advances in Engineering & Technology

Issue 1

Volume 8

The aim of this paper is to realize fractional order derivative (FD) with electronic circuit utilizing the syntheses of a fractance circuit. The realization has been done via synthesis of two type of fractances as passive RC circuits connected in operational amplifier. The continuous fractional expansion (CFE) and partial fraction expansion (PE) have been utilized on the (FD) transfer function which has been approximated to integer order rational transfer function depending on Carlson, Caurer and Foster method through special Matlab instructions. As case of study FD raised to order 0.9 has been implemented with electronic realization. The analogue electronic circuit has been simulated using Circuit Wizard to realize the derivative function. The time, frequency domain response has been tested for both real fractional order derivative and the

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