Msc

Jan 1, 2007 - Oct 1, 2009

Master of Computer Technology Eng.

BSc

Oct 1, 1999 - Aug 3, 2003

Computer Technology Eng.

Computer Technology Engineering [Lecturer]

Oct 20, 2011 - Present

Lecturer

Implementation of WSN based smart irrigation system

Jun 1, 2023

Journal Przeglad Elektrotechniczny

publisher PRZEGLĄD ELEKTROTECHNICZNY

DOI 10.15199/48.2023.06.06

This research paper introduces a real-time, fully automated wireless sensor network (WSN) prototype for irrigation systems in agricultural fields. This automated WSN depends on the soil conditions, like the soil moisture, and takes action accordingly. The WSN is based on the ZigBee protocol represented in the XBee module. The aim is to protect the crops from over/under watering resulting in better crop quality and quantity. Also, this WSN reduces human intervention costs and eliminates or reduces water waste to the minimum acceptable extent. The WSN nodes are classified into three types, the coordinator node, the sensing node, and the relaying node. Sleep mode is used in the sensing node while inactive to achieve the best possible energy savings strategy. Four zones are to be considered in this experimental study. Results showed that the water flows only about 35% of the time of the six observation hours on average in the four zones

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Development of a dynamic intelligent recognition system for a real-time tracking robot

Sep 3, 2021

Journal IAES International Journal of Robotics and Automation (IJRA)

publisher IAES International Journal of Robotics and Automation (IJRA)

DOI 10.11591/ijra.v10i3.pp161-169

Issue 3

Volume 10

Nowadays, the development of computer vision technology help to overcome track and identify humans within a location in the complex environment through mobile robots, which gives the motivation to presents a vision-based approach to a mobile security robot. The proposed system utilizes a wireless camera to detect the objects in the field of robot view. Principle component analysis (PCA) algorithm and filters are used to implement and demonstrate the process of the images. This gives the designed system the ability to recognize objects independently from current light conditions. Frame tracking in the images uses an attention system to get an estimate of the position of a person. This estimate helps the applied camera to identify objects with changing background lighting conditions such as a fire inside a building. By using this estimate, the applied camera could identify objects with changing background lighting conditions such as a fire inside premises. The system has been tested using the MATLAB environment, and the empirical performance explains the efficiency and strongness of the suggested device.

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Smart Infant Incubator Based On Mega Microcontroller

Feb 27, 2020

Journal 2019 2nd International Conference on Engineering Technology and its Applications (IICETA)

publisher IEEE

DOI 10.1109/IICETA47481.2019.9013004

This manuscript was carried out to design and implementation an infant smart care system based on At Mega Microcontroller. A preterm infant need a special environment conditions that like conditions of the uterus, else it will be threatening for his life so the infant incubator was invented to support special contour for the babies through offer controlling and monitoring on the temperature and humidity inside it. The controlling temperature and humidity are adjusted according to pre-set values similar to uterus environment values, as well monitoring the oxygen level through measure CO2 level. The proposed system is consist of Arduino microcontroller (At mega), sensors for measure the temperature and humidity, the CO2 percent and water reservoir level, in addition an actuators used as switching on/off for the heater and fan devices. In addition verification on the temperature sensing values had been done via comparison the temperature sensor readings with a mercury thermometer, which showed similarity in their readings. The overall finding indicates the proposed design are able to provide an environment conditions matching to the uterus environment, however an error noticed in the humidity graph during shield the microcontroller to mat-lab program. In brief this work provided new methods for design a reliable infant incubator using UNO microcontroller.

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Design and implementation of single bit error correction linear block code system based on FPGA

Aug 1, 2019

Journal TELKOMNIKA (Telecommunication Computing Electronics and Control)

publisher TELKOMNIKA (Telecommunication Computing Electronics and Control)

DOI 10.12928/telkomnika.v17i4.12033

Issue 4

Volume 17

Linear block code (LBC) is an error detection and correction code that is widely used in communication systems. In this paper a special type of LBC called Hamming code was implemented and debugged using FPGA kit with integrated software environments ISE for simulation and tests the results of the hardware system. The implemented system has the ability to correct single bit error and detect two bits error. The data segments length was considered to give high reliability to the system and make an aggregation between the speed of processing and the hardware ability to be implemented. An adaptive length of input data has been consider, up to 248 bits of information can be handled using Spartan 3E500 with 43% as a maximum slices utilization. Input/output data buses in FPGA have been customized to meet the requirements where 34% of input/output resources have been used as maximum ratio. The overall hardware design can be considerable to give an optimum hardware size for the suitable information rate.

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Scheduling lecturer system based on FPGA

Jun 4, 2018

Journal 2018 International Conference on Advance of Sustainable Engineering and its Application (ICASEA)

publisher IEEE

DOI 10.1109/ICASEA.2018.8370955

The work is intended to automatically organize the lecture time length and break interval between lectures in schools. Its replaces manual organization and switching by automatic controlled system to perform the mission. The designed system determine accurately the scheduling time of the classes in the school according to the calendar. The system allows the user to reprogram the scheduling mode according to the user requirements. The system designed using VHDL language and configured on Spartan 3E FPGA slice using integrated software environments (ISE). The system performance is debugged using the tool kit with FPGA device.

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