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Article
Wirelessly Controlled Irrigation System

Author: Zain-Aldeen S. A.Rhman
Journal: Iraqi Journal for Electrical And Electronic Engineering المجلة العراقية للهندسة الكهربائية والالكترونية ISSN: 18145892 Year: 2014 Volume: 10 Issue: 2 Pages: 89-99
Publisher: Basrah University جامعة البصرة

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Abstract

In the city of Basrah, there is an urgent need to use the water for irrigation process more efficiently for many reasons: one of them, the high temperature in long summer season and the other is the lack of sources fresh water sources. In this work, a smart irrigation system based wireless sensor networks (WSNs) is implemented. This system consists of the main unit that represented by an Arduino Uno board which include an ATmega328 microcontroller, different sensors as moisture sensors, temperature sensors, humidity sensors, XBee modules and solenoid valve. Zigbee technology is used in this project for implementing wireless technology. This system has two modes one manual mode, the other is a smart mode. The set points must be changed manually according to the specified season to satisfy the given conditions for the property irrigation, and the smart operation of the system will be according to these set points.

Keywords

Smart irrigation --- WSN --- Arduino Uno --- Moisture.


Article
Design Secured Smart Door Lock Based on Jaro Winkler Algorithm
تصميم قفل باب ذكي اَمن معتمد على خوارزمية جارو وينكلر

Author: Sura Mahmood Abdullah سرى محمود عبد الله
Journal: Tikrit Journal of Pure Science مجلة تكريت للعلوم الصرفة ISSN: 18131662 Year: 2016 Volume: 21 Issue: 6 Pages: 154-159
Publisher: Tikrit University جامعة تكريت

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Abstract

The security nowadays considered as significant topic specifically in design smart home. This paper is dedicated on an authentication problem in design smart door lock authentication using string matching technique based on password string.This work contains two main parts, Android application (remote control) and control circuit using Arduino UNO, plus the communication medium based on Bluetooth technology which is used to send and receive information and commands in this work.The main purpose of design smart door lock, using Jaro Winkler algorithm is to compare the registered password security with each entered password which may contain some wrong or swapped characters. The results show more strength authentication for access in real-time.

يعتبر الأمن في الوقت الحاضر إحدى المواضيع المهمة وعلى وجه التحديد في تصميم المنازل الذكية, في هذا البحث, تم تكريس العمل على موضوع الموثوقية في تصميم قفل باب ذكي باستخدام تقنية مطابقة النص بالاعتماد على نص كلمة المرور.يحتوي هذا العمل على جزئيين اساسيين وهما برنامج الاندرويد الذي يعمل كمتحكم عن بعد ودائرة التحكم باستخدام اردوينو اونو, بالأضافة الى ذلك وسيلة الاتصال هي البلوتوث لغرض إرسال و استلام المعلومات و الأوامر.الغرض الرئيسي من تصميم قفل الباب الذكي باستخدام خوارزمية جارو وينكلر هو مقارنة كلمة المرور المسجلة مع كل كلمة مرور مدخلة و التي قد تحتوي على بعض الأحرف الغير الصحيحة او لها موقع يختلف عن ما موجود في كلمة المرور المسجلة .أظهرت النتائج موثوقية عالية في الولوج في الوقت الحقيقي.


Article
Design and Implementation of WLAN Based ZigBee for Personal Identification

Authors: Mahmood F. Mosleh --- Zahraa I. Saber
Journal: Engineering and Technology Journal مجلة الهندسة والتكنولوجيا ISSN: 16816900 24120758 Year: 2018 Volume: 36 Issue: 8 Part (A) Engineering Pages: 919-924
Publisher: University of Technology الجامعة التكنولوجية

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Abstract

In this research, a novel Wireless Local Area Network (WLAN) that can be used for personal identification has been proposed in order to control the entering of any building or facility for safety applications. The network consists of three parts; node carrying by authorized persons, Base Station (BS) to control the entering and gate controller. A Personal Computer (PC), which represented the BS, will display automatically some information like picture and state about the person that entered when he/she becomes in BS coverage area. The gate controller of protected building is received a command of PC after matching the data onto entire person and open by a period to allow only one person to pass the gate after being sensed by Human sensor of controller. While preventing any other body by maintaining the gate in case of closure and show alarm. For the experimental purpose, the control of the gate is virtually assumed as Light-Emitting Diode (LED) to represent the opening and closing by lighting and closing the LED respectively. An Arduino Uno is used as microcontroller and ZigBee S2 is used for communication link, because of their simplicity, small size and low cost. Results of running the proposed model confirmed that it could effectively and accurately control the entry and exit of people authorized to enter the important formation and recording the date and time of entry and exit form the need for intervention by people. On the other hand, it can easily review any person files and show his/her daily attendance.


Article
Efficient Control System Based on Hand Nerve Signals

Authors: Ahmed Majid Abdel Abbas --- Muayad Sadik Croock
Journal: IRAQI JOURNAL OF COMPUTERS,COMMUNICATION AND CONTROL & SYSTEMS ENGINEERING المجلة العراقية لهندسة الحاسبات والاتصالات والسيطرة والنظم ISSN: 18119212 Year: 2019 Volume: 19 Issue: 3 Pages: 27-39
Publisher: University of Technology الجامعة التكنولوجية

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Abstract

Recent advances in the control applications based on hand nerve signals are able to meet the needs of users who suffer from restrictions in limb movement and also provide high performance control for those paralyzed people. These signals are represented as Electromyography (EMG) signals, which are biomedical ones, used for clinical/biomedical applications. In this work, a control signals generation system is proposed based on hand EMG measurements. The process of acquisition and processing of EMG signals is performed by only one channel surface EMG electrodes with one EMG processing unit as a muscle sensor. In this work, Arduino UNO is adopted as an analog to digital converter for these hand nerve signals to be easily analyzed in the classification process. These signals are measured from the skin surface of forearm and biceps muscles in two suggested case studies to be used in generating signals based on ten muscles movements. The main features that crystallized this research is building a smart control algorithm which increases the flexibility of generating precise control signals based on contracted hand movements with high simplicity of use and the low cost. The obtained results are compared to other systems results to show the ability of achieving 93.81% classification rate or accuracy among other systems.


Article
Design and Implementation Smart Traffic Light

Author: Thaar A.Kareem, Mays Kareem Jabbar
Journal: Iraqi Journal for Computers and Informatics المجلة العراقية للحاسبات والمعلوماتية ISSN: 2313190X 25204912 Year: 2018 Volume: 44 Issue: 2 Pages: 11-15
Publisher: University Of Information Technology And Communications جامعة تكنولوجيا المعلومات والاتصالات

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Abstract

The increasing in the number of vehicles on streetshas led to traffic congestion. In order to reduce the waiting timein cases of emergency, the idea of this work is suggested. Thiswork is divided into two parts, the particular part and softwarepart. The first circular particular part is a model which consistsof four lanes junction of a traffic light, it also has GSM system (Global System for Mobile Communications). The GSM andlamps of the traffic light are connected to Arduino UNO. TheArduino controls every signal which is coming from the inputs(GSM) to software and display to the outputs (lamps) Thesecond circular particular part is a model which consist samecomponents the first circuit except replace the GSM withIR(infrared Remote).The goal from this work is to help us in theemergence cases, the opening and closing of the traffic light arecontrolled by using GSM system and IR, the time of each lane,is controlled that means reduce the crowding.

Keywords

TRAFFIC LIGHT --- ARDUINO UNO --- GSM --- IR


Article
Bluetooth Based Smart Home Automation System using Arduino UNO Microcontroller
نظام اتمتة المنزل الذكي اعتمادا على البلوتوث باستخدام المسيطر الدقيق Arduino UNO

Author: Abdul Kareem Kasim Abdul Raheem عبدالكريم قاسم عبدالرحيم
Journal: AL-MANSOUR JOURNAL مجلة المنصور ISSN: 18196489 Year: 2017 Issue: 27 Pages: 139-156
Publisher: Private Mansour college كلية المنصور الاهلية

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Abstract

There are different methods in wireless technology such as Bluetooth, WIFI, and GSM. In this paper, new design and different home appliances are presented. Bluetooth Based Home Automation System using Arduino UNO Microcontroller is design and implemented. PWM technique on Arduino is used to control the DC motor speed depending on the width of the Pulses and H-Bridge driver circuit is used to control the direction of the motor. The home automation applications that has presented in this paper is the ability to control the DC motor speed and its direction, bulb, fan and heater using a smart phone application with Bluetooth wireless technology. The relays is used to connect these appliances to the input/ output ports of the board .The design is a low cost, flexible and using a modern technology and devices for this application. Application of wireless Bluetooth connection in control board enables a simplified way to system installation. The system has been built and operated successfully

هناك طرق مختلفة في التكنولوجيا اللاسلكية مثل بلوتوث، WIFI وGSM في هذا البحث، تم عرض تصميم جديد وتطبيقات منزلية مختلفة. تم تمثيل نظام اتمتة منزلي يعتمد على البلوتوث باستخدام المسيطر الدقيق Arduino UNO . تم استخدام تقنية تضمين عرض النبضة في ال Arduinoللسيطرة على سرعة الماطور اعتماداعلى عرض النبضات وتم استخدام دائرة سوقH-Bridgeللسيطرة على اتجاه الماطور .ان التطبيقات المنزلية المعروضة في هذا البحث هي القدرة على السيطرة على اتجاه وسرعة ماطور تيار مستمر ، مصباح ، مروحة ومدفأة حرارية باستخدام تطبيق تلفون ذكي مع تكنولوجيا بلوتوث لاسلكي . تربط هذه التطبيقات الى اطراف الادخال والاخراج للبطاقة بواسطة مرحلات .ان التصميم منخفض التكاليف ، مرن ، وتم استخدام اجهزة وتكنولوجيا حديثة لهذا التطبيق . ان تطبيق ربط بلوتوث لاسلكي في لوحة السيطرة يعطي طريقة مبسطة في التركيب . تم بناء المنظومة وتشغيلها بنجاح.


Article
ARDUINO Microcontroller Based Building Security System

Authors: I. Abdul-Rahman --- J.N. Shehab --- H.R. Hatem
Journal: Engineering and Technology Journal مجلة الهندسة والتكنولوجيا ISSN: 16816900 24120758 Year: 2017 Volume: 35 Issue: 5 Part (A) Engineering Pages: 532-536
Publisher: University of Technology الجامعة التكنولوجية

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Abstract

This work aims to protect homes against danger, damage, and any criminal activity using Passive Infrared (PIR) and LASER sensors. Depending on cutting beam that emitted from the laser source or from PIR, there are three cases to warn; the first case (without GSM (Global System Mobile)) to issue a warning aerobically by sound. The second case (with GSM modem and Arduino), will be sent a warning SMS (Short Message Service) directly to the user through GSM Networks. In addition, final case with GSM and Arduino, gives the order to the phone (Nokia 6500) snapped a picture and is sent to the user depending on GSM networking MMS (Multimedia Message Service). The LASER sensor is used to detect any move depending on cutting beam. The PIR is used to detect a human body. In addition, the devise cannot work until activated by the user through the password (to activate protection device) as well as confidential in the same way it is closed. This system is built with open source hardware (Arduino uno 328). Beside to software has been the use of Micro C language in programming microcontroller (Arduino uno 328) addition to Proteus program to simulate the work of Ardino.


Article
The Effect of Speed Smart Control System SSCS on the Performance of Hydropower System

Authors: T.Z. Farge --- A.J. Owaid --- M.A. Qasim
Journal: Engineering and Technology Journal مجلة الهندسة والتكنولوجيا ISSN: 16816900 24120758 Year: 2017 Volume: 35 Issue: 6 Part (A) Engineering Pages: 602-608
Publisher: University of Technology الجامعة التكنولوجية

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Abstract

In this work, the speed smart control system is designed and implemented to improve and enhance the performance of hydropower system, where Arduino Uno R3 microcontroller is used for this propose. The speed smart control system is used to control the volume flow rate of water with respect to the load applied to the Pelton turbine shaft at optimum range of speed. Using nozzle outlet diameter of 8.87 mm. A water pump is used to generate the volume flow rate and pressure head. The results show that the maximum reduction in the hydraulic power was observed at zero torque, where the percentage reduction in the hydraulic power was equal to 87.33% when using speed smart control system. Also the optimum torque for maximum brake power and efficiency of Pelton turbine system have been increased when using a speed smart control system, where the percentage increasing was about 28.15%.Comparing result with and without using smart control system shows the percentage increased in the brake power and efficiency of Pelton turbine system were 26.3% and 35% respectively at the optimum torque for maximum brake power and efficiency of Pelton turbine system. Time response was four seconds to achieve a steady state for the rotational speed of Pelton turbine.


Article
Design and Implementation of Approach Can Track Sunlight using Arduino-uno
تصميم وتنفيذ منظومة تتبع ضوء الشمس باستخداماوردوينو- اونو

Author: Nasseer K. Bachache نصير قاسم حمودي
Journal: AL-yarmouk Journall مجلة كلية اليرموك الجامعة ISSN: 20752954 Year: 2017 Volume: 9 Issue: 9 Pages: 122-129
Publisher: College Yarmouk University كلية اليرموك الجامعة

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Abstract

The aims of this work are how to develop approach can track the light of sun using Arduino type uno to achieve the maximum efficiency. The project is divided into two stages: they are hardware and software maturity. In hardware development there are four sensors work as a light dependent resistor (LDR), which has been used for capturing the deliver maximum intensity of light. Two DC motors have been used (one for vertical motions other for horizontal motions) to move the solar panel at maximum light source location sensing by LDR. The results show that the designed system of tracking light has a low cost with efficient solar energy system. Enlargement the system has been simulated by MATLAB to demonstrate the performance of the system has superior performance compared with static solar panel.

ان الهدف الرئيسي لهذا العمل هو كيفية تطوير المنظومة يمكنها أن تتبع ضوء الشمس باستخدام مسيطر رقمي اردوينو نوع (أونو) وذلك للحصول على اقصى قدر من كفاءة. وينقسم المشروع إلى مرحلتين، وهما بناء الأجهزة ثم كتابة برمجيات. المنظومة تشمل أربعة أجهزة استشعارمبدأ عملها عبارة عن مقاومة كهربائية تعتمد قيمتها على شدة ضوء LDR، وقد تم استخدام هذه (المتحسسات) للاستشعار باتجاه أقصى شدة للضوء. وقد استخدمت المنظومة اثنين من محركات التيار المستمر (الاول للتحكم بالحركات الرأسية والاخر للحركات الأفقية) لتحريك الألواح الشمسية وتوجيهها بالاتجاه الذي تم الاستشعار به من قبل LDR وهو مصدر ضوء. توضح النتائج ان النظام المصمم كان بتكلفة منخفضة في حين ان تتبع شدة الضوء ذو كفاءة كبيرة لاستخدام الطاقة الشمسية. بالاضافة تصميم وتنفيذ المنظومة فقد قمنا بمحاكاة النظام بواسطة MATLAB لبرهنة افضلية أداء المنظومة المتحركة بالمقارنة مع الألواح الشمسية ثابتة.


Article
DESIGN AND STUDY OF A SMART PARK SYSTEM: UNIVERSITY OF KUFA AS A CASE STUDY

Authors: Salam A. Alabassi --- Hamid A. Al-Jameel
Journal: KUFA JOURNAL OF ENGINEERING مجلة الكوفة الهندسية ISSN: 25230018 Year: 2018 Volume: 9 Issue: 4 Pages: 128-145
Publisher: University of Kufa جامعة الكوفة

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Abstract

Finding a vacant parking space nowadays is time and fuel consuming. This problem may cause drivers to get frustrated and eventually improper parking will appear. The universities, in particular, are one of these places, which needs more attention for providing parking services. Therefore, this study has focused on finding the parking required for such facilities and the benefit of applying smart parking services there. The main campus of the University of Kufa has been evaluated by collecting parking data for both on-street and off-street parking. The results of field data show a clear lack of parking space for most of the faculties in the main campus. The required additional parking spaces are 260.This study has suggested using the smart parks. The model of smart park system has been introduced by this study as a solution to the parking problem, especially in the university and generally in other places. Arduino and ultrasonic sensors were used to detect the empty places in a park and display this status to the screen. The model has been applied at the park of College of Engineering with encouraging results.

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