Military Technical CollegeThe International Conference on Electrical Engineering2636-44331010th International Conference on Electrical Engineering ICEENG 201620160401REALIZATION OF KHN AND TT FILTERS USING DDCCTA BLOCK1153025210.21608/iceeng.2016.30252ENN. A.KHALILR. F.AHMEDR. A.ABULSOUDA. M.SOLIMANJournal Article20190416A new active building block for analog signal processing, namely, Differential Difference Current Conveyor Transconductance Amplifier (DDCCTA) provides the possibility of inbuilt electronic tuning of the parameters of the analog function circuits to be implemented. This block is modified and the performance is checked through PSPICE simulations. A modified block is utilized to realize the KHN and TT filters. The proposed realizations use three DDCCTA for the KHN filter and only one DDCCTA for the TT filter circuit. Also, the resulted realizations are tested via PSPICE simulations.Military Technical CollegeThe International Conference on Electrical Engineering2636-44331010th International Conference on Electrical Engineering ICEENG 201620160401A FILTER-DESIGN METHOD BASED ON ELECTRICAL-LINE GRIDS FOR SINGLE-PHASE TOPOLOGIES USING BPL1103025410.21608/iceeng.2016.30254ENOctavio J. SalcedoParraIntelligent Internet Research Group
Universidad Distrital “Francisco Jose de Caldas” Facultad Ingeniería
Bogotá DC, Colombia.Rafael Enrique BalagueraHernándezIntelligent Internet Research Group
Universidad Distrital “Francisco Jose de Caldas” Facultad Ingeniería
Bogotá DC, Colombia.Brayan S. ReyesDazaIntelligent Internet Research Group
Universidad Distrital “Francisco Jose de Caldas” Facultad Ingeniería
Bogotá DC, Colombia.Journal Article20190416The present work aims to determine a method for modeling and designing different types of filters that exist between nodes in a single phase topology with BPL technology for housing. The filter design objectives are to control the spectral power density, with the effect of the BPL transmission power is optimized and significant offset voltage variations that occur in the connection and disconnection of electric charges, both effects are presented in a phase topology that is used as the communication channel. The results are reflected in the attenuation of electromagnetic compatibility (noise, attenuation, distortion, and coupling) relevant variables that cause problems on the communication channel of a system with BPL technology.Military Technical CollegeThe International Conference on Electrical Engineering2636-44331010th International Conference on Electrical Engineering ICEENG 201620160401LDPC PERFORMANCE OVER THE 802.11n PROTOCOL173025510.21608/iceeng.2016.30255ENJournal Article20190416LDPC (Low Density Parity Check Codes) is a set of algorithms that send, receive and correct in a noise environment, frames transmitted in a LAN environment. This article demonstrates the high performance of the LDPC in environments of noise, compared to the CRC error detection code highly currently implemented, in this way the efficiency of LDPC is shown specifically over the 802. 11n protocol.Military Technical CollegeThe International Conference on Electrical Engineering2636-44331010th International Conference on Electrical Engineering ICEENG 201620160401Design and Implementation of Impulse Radio Ultra-Wideband Transmitter1123025710.21608/iceeng.2016.30257ENOsama Hassan HusseinAlyArab Academy for Science, Technology and Maritime Transport, Cairo, Egypt.IhabAdlyCEO, Tegrom, Egypt.Khaled A.ShehataArab Academy for Science, Technology and Maritime Transport, Cairo, Egypt.Hani F.RagaiElectronics and Communications Department, Faculty of Engineering, Ain
Shams University.Journal Article20190416This paper illustrates the simulation, implementation and testing of an UWB transmitter based on Step Recovery Diode (SRD). For testing purposes, a square wave generator has been also implemented based on Colpitts oscillator and a clipping circuit that was used to trigger the monocycle pulse generator. The simulated output is a monocycle pulse waveform with 300 ps pulse width and acceptable symmetry in both amplitude and shape. Integrating the UWB transmitter and the Colpitts oscillator, the achieved output from this integration after implementation is a monocycle pulse waveform with 420 ps pulse width and acceptable symmetry in both amplitude and shape.Military Technical CollegeThe International Conference on Electrical Engineering2636-44331010th International Conference on Electrical Engineering ICEENG 201620160401Acquisition and Analysis of Electrocardiogram Waveforms with Diagnosis Transmission through Short Message Service Communication System1153025810.21608/iceeng.2016.30258ENB.Yu JecoDepartment of Electrical Engineering and Information Systems,
The University of Tokyo, 4-6-1 Komaba, Meguro-ku, Tokyo 153-8904, Japan.R.DomaDepartment of Electronics Engineering, University of Santo Tomas, Manila, PH.M.MoralesDepartment of Electronics Engineering, University of Santo Tomas, Manila, PH.E.TarrozaDepartment of Electronics Engineering, University of Santo Tomas, Manila, PH.M.VillafloresDepartment of Electronics Engineering, University of Santo Tomas, Manila, PH.A.Dela CruzDepartment of Electronics Engineering, University of Santo Tomas, Manila, PH.E.GuevaraDepartment of Electronics Engineering, University of Santo Tomas, Manila, PH.R.VicerraDepartment of Electronics Engineering, University of Santo Tomas, Manila, PH.M.AsiloDepartment of Electronics Engineering, University of Santo Tomas, Manila, PH.Journal Article20190416In this study, we integrated the electrocardiogram waveform acquisition, analysis and diagnosis transmission into a single monitoring system. The electrocardiogram monitoring system is divided into 3 stages, namely the data acquisition stage, the decision making stage and the alerting system stage. We used a low-pass Butterworth filter in the data acquisition stage for removing the artifacts that introduce noise to the electrocardiogram waveform after the analog-to-digital conversion. In the decisionmaking stage, we implemented the zero crossing algorithm for measuring the different segments of the electrocardiogram waveform. And in the alerting system stage, the diagnosis was transmitted to a mobile phone capable of recognizing attention commands via short messaging system. In this study, the integration of the electrocardiogram waveforms acquisition, analysis and diagnosis transmission into a single monitoring system has been successfully implemented. This monitoring system has demonstrated the capability to measure and detect heart rate and heart rhythm respectively. In a bigger picture, an individual can implement this improvised monitoring system using a<br />personal computer interfaced with a mobile phone.Military Technical CollegeThe International Conference on Electrical Engineering2636-44331010th International Conference on Electrical Engineering ICEENG 201620160401A Microcontroller-Based Heart Sounds and Murmurs Generator Using Discrete Wavelet Transform1113025910.21608/iceeng.2016.30259ENM. E.KararFaculty of Electronic Engineering (FEE), Menoufia University.Journal Article20190416The most important problem of biomedical engineering either for teaching or research activities is how to obtain data of patients with different clinical situations, because it is difficult to find unhealthy volunteers and also to get ethical approval for any experimental test on patients. Hence, this paper presents a practical generator of heart sounds and murmurs for educational and research purposes. The developed generator produces graphical representations of normal and two abnormal heart sounds, which are aortic stenosis and mitral insufficient. Three datasets of real heart sounds have been preprocessed using discrete wavelet transform, in order to reduce the noise and decompose these cardiac signals to the third approximated level based on Daubechies four-coefficient wavelet. For designation and implementation of the heart sounds generator, the ATmega 2560 microcontroller was carefully chosen to produce the output of all preprocessed datasets. The developed microcontroller-based generator showed successfully different cases of the heart sounds and murmurs, allowing to be used further for testing new automatic classification methods of cardiac valve<br />diseases.Military Technical CollegeThe International Conference on Electrical Engineering2636-44331010th International Conference on Electrical Engineering ICEENG 201620160401AN ARDUINO BASED HOME AUTOMATION SYSTEM133026010.21608/iceeng.2016.30260ENM.HarishDepartment of ECE, Amrita Vishwa Vidyapeetham, Bangalore.K. Neeraja SantoshiLakshmiDepartment of ECE, Amrita Vishwa Vidyapeetham, Bangalore.T.NiharikaDepartment of ECE, Amrita Vishwa Vidyapeetham, Bangalore.Journal Article20190416Security is becoming an important issue everywhere. Home security is becoming necessary nowadays as the possibilities of intrusion are increasing day by day. Safety from theft, leaking of raw gas and fire are the most important requirements of home security system for people. A traditional home security system gives the signals in terms of alarm. However, the GSM (Global System for Mobile communications) based security systems provides enhanced security as whenever a signal from sensor occurs, a text message is sent to a desired number to take necessary actions. This project mainly focuses on the security of a home when the user is away from the place.Military Technical CollegeThe International Conference on Electrical Engineering2636-44331010th International Conference on Electrical Engineering ICEENG 201620160401A Low-Power Low-Noise Neural recording Bioamplifier193026110.21608/iceeng.2016.30261ENTamerFaroukDepartment of electronic engineering, Military technical college, Cairo, Egypt.MohamedElkhatibDepartment of electronic engineering
Military technical college, Cairo, Egypt.MohamedDessoukyECE department, Ain shams university, Cairo, Egypt.Journal Article20190416This paper presents a low-voltage low-power low-noise amplifier suitable for neural recording applications. The amplifier is able to operate under a 1V supply by alleviating the tradeoff between the noise and the voltage headroom. The amplifier is based on a gm-cell, such that its effective transconductance is not a function of the bias current. As a result the noise contribution of the output transistors can be decreased without increasing the bias current. This bioamplifier rejects DC offset voltage using active low frequency suppression instead of AC coupling capacitors to achieve reduced-size and higher input impedance. The bioamplifier is designed for neural recording of action potentials and simulated in a 130 nm CMOS process. The amplifier consumes 5.2 μW from 1V supply voltage. The input referred noise is 4.7 μVrms. The amplifier has a Bandwidth (BW) from 110 Hz to 9.7 kHz.Military Technical CollegeThe International Conference on Electrical Engineering2636-44331010th International Conference on Electrical Engineering ICEENG 201620160401Wireless Networked - Monitoring and Control of Pressure Process Analyser183026210.21608/iceeng.2016.30262ENSwapna .P(M.E), Sri Ramakrishna Engineering College, Coimbatore, Tamilnadu, India.B.SharmilaM.E., Ph.d., Sri Ramakrishna Engineering College, Coimbatore, Tamilnadu, IndiaJournal Article20190416Wireless Network Control System (WNCS) has received considerable attention with advances in control and communication technologies. This paper presents the stability analysis of real time PI controller design and Smith Predictor control strategy for the compensation of assumed delay in the plant. Mathematical modelling of the plant is obtained and the parameter estimation of the traditional controller design is obtained by IMC tuning relationship which is a comprehensive model-based design method. Real time laboratory test demonstrates the mobile based wireless control of the plant with the help of the application Data Dashboard for LabVIEW that enables the creation of custom user interface that can monitor and control LabVIEW applications remotely. Comparative chart for the performance of the plant with and without wireless network for the various control designs is also made.Military Technical CollegeThe International Conference on Electrical Engineering2636-44331010th International Conference on Electrical Engineering ICEENG 201620160401Sigma Delta Modulator Based Multi-Standard Transmitter Design For Wireless Communication Applications1133026310.21608/iceeng.2016.30263ENMayar A.MohammedAziza I.HusseinGerges M.SalamaFaroukAlgeldawyJournal Article20190416This paper presents a sigma delta modulator (ƩΔM) based transmitter that is suitable for digital multi-standard wireless applications especially for software defined radio (SDR) systems. The proposed transmitter mainly consists of a sigma-delta modulator and a switching-mode power amplifier. In the proposed design, a third order low-pass ƩΔM is implemented to produce a high frequency digital-like signals that is used to drive a high efficient class-E switching mode power amplifier. The target technology for fabrication is TSMC180nm CMOS process. The proposed design is tested for different standards such as Global System for Mobile Communications (GSM), Universal Mobile Telecommunications System (UMTS), Wi-Fi and Long Term Evolution (LTE) with frequency bands of (1.8GHz, 2.1GHz, 2.4GHz, (1.9, 2.6GHz)) respectively. The class-E power amplifier has shown peak power added efficiency (PAE) and peak output power of 62/58.7/60/52/47% and 27.7/27.5/27.6/27/26.7dBm, respectively, at the mentioned standards. Moreover, the proposed power amplifier can cover a wide range of frequency from 1.8GHz to 2.6GHz maintaining high efficiency.Military Technical CollegeThe International Conference on Electrical Engineering2636-44331010th International Conference on Electrical Engineering ICEENG 201620160401Submarine Very Low Frequency(VLF)Communication163026410.21608/iceeng.2016.30264ENJournal Article20190416Submarine,as one of the most important undersea strategic weapon platform,has the advantage of mobility and disguise. Therefore, receiving command signal must be completed under water. Navies around world mostly complete orders and target steering in this band due to VLF has the ability of penetrating seawater. This paper mainly focuses on the prospect of transmitting, receiving and antenna feeder of the latest generation of VLF Communication System.Military Technical CollegeThe International Conference on Electrical Engineering2636-44331010th International Conference on Electrical Engineering ICEENG 201620160401Target Signatures and Pose Estimation173026510.21608/iceeng.2016.30265ENMigdat I.HodzicAmerican University in Bosnia and Herzegovina
International University of Sarajevo, FENS
Sarajevo, Bosnia & Hercegovina.TarikNamasFaculty of Engineering & Natural Sciences, EE Program
International University of Sarajevo
Sarajevo, Bosnia & Hercegovina.Journal Article20190416The paper discusses an important class of defense and commercial applications in the context of Ground Target (Object) Identification, Classification, and Tracking. The data base of target digital signatures is assembled and formed for a full spatial circle (360 degrees) analysis from such sources as High Resolution Radar and Synthetic Aperture Radar. These digital signatures are analized from which various spatial as well as frequency (wavelet) characteristics of the targets are formed and interpreted, in order to make good estimate of target pose angle. This angle is key for tracking maneouvering targets. Various statistical measures are obtained from digital signatures to assist in pose angle estimation. We also use certain geometrical considerations to determine an initial pose estimate which is the refined using a variety of correlation coefficients. Expected precision of pose estimate is within few degrees, i.e. within few neighboring target signatures. The paper presents several real life ground target signatures as well as several simulated signatures to illustrate our approach.Military Technical CollegeThe International Conference on Electrical Engineering2636-44331010th International Conference on Electrical Engineering ICEENG 201620160401Multiple Targets Tracking Method Based on Finite-Set Statistics in radar system1133026610.21608/iceeng.2016.30266ENXuJianDepartment 8th, Nanjing Research Institute of Electronic Engineering, Nanjing,
China, 210014.This work was supported by National Natural Science Foundation 61403352.HuangZhiliangDepartment 8th, Nanjing Research Institute of Electronic Engineering, Nanjing,
China, 210014.This work was supported by National Natural Science Foundation 61403352.HuangFangmingDepartment 8th, Nanjing Research Institute of Electronic Engineering, Nanjing,
China, 210014.This work was supported by National Natural Science Foundation 61403352.WangYifengDepartment 8th, Nanjing Research Institute of Electronic Engineering, Nanjing,
China, 210014.This work was supported by National Natural Science Foundation 61403352.SunYishenDepartment 8th, Nanjing Research Institute of Electronic Engineering, Nanjing,
China, 210014.This work was supported by National Natural Science Foundation 61403352.Journal Article20190416The multiple targets tracking method based on probability hypothesis density filter and its application results in radar system are given. First of all, the theory background of the PHD filtering was introduced. Secondly, the basic concepts and algorithm framework of PHD filtering are reviewed. Then the deficiencies in the engineering application are pointed out, and the Multi-targets tracking method based on PHD filter in radar system is presented. Finally, the results for engineering applications of the multiple target tracking based on PHD filtering in radar system are introduced. Results showed that the PHD filter can effectively solve the problems of Track initiation, organizing batch, and so on, under the condition of low detection probability.Military Technical CollegeThe International Conference on Electrical Engineering2636-44331010th International Conference on Electrical Engineering ICEENG 201620160401Design and Implementation of Algorithm of Wireless Communication Data Frame Recognition1103026810.21608/iceeng.2016.30268ENZHANGYi-jia1. Science and Technology on Communication Information Security Control
Laboratory, Jiaxing, China.+Jiangnan Electronic Communication Research Institute, Jiaxing, China.LIURui-yingCollege of Mechanical and Electrical Engineering, Jiaxing University,Jiaxing, China.Journal Article20190416This paper analyses several typical data-frames of wireless communication, proposes an algorithm of data-frame recognition, which is based on tagged word of data-frames, and analyses the performance of algorithm. This paper resolves problems of protocol type analyzing and data frame recognizing, which are for date link layer (DDL) of wireless communication, by the algorithm of data-frame recognition.Military Technical CollegeThe International Conference on Electrical Engineering2636-44331010th International Conference on Electrical Engineering ICEENG 201620160401Cognitive Radio and Spectrum Scanning Optimization183026910.21608/iceeng.2016.30269ENReshuSharmaEgyptian Armed Forces.SandhyaChaudharyEgyptian Armed Forces.Journal Article20190416Cognitive radio can intelligently detect whether any portion of the spectrum is in use or not and can temporarily use it without interfering with the transmission of licensed users. In this paper firstly a brief discussion of various option of spectrum analyzing technique has done and secondly an optimized technique of scanning spectrum, that is bilateral scanning method has been analyzed using mat lab and compared with linear scanning on the basis of time taken in scanning and allotting the free gap to cognitive radio.Military Technical CollegeThe International Conference on Electrical Engineering2636-44331010th International Conference on Electrical Engineering ICEENG 201620160401A Real Time Control System Simulation Model Based on LabVIEW Graphical Programming Language1113029410.21608/iceeng.2016.30294ENM.AHMEDGraduate Student, Elec. Dept., MTC, Cairo, Egypt.H. S.TAHAAssistant Professor, Army Research & Development Center, Cairo, Egypt.A.SAAIDProfessor, Elec. Dept., MTC, Cairo, Egypt.M.TAREKAssistant Professor, Elec. Dept., MTC, Cairo, Egypt.Journal Article20190417Embedded control system typically requires an architecture that is designed for reliability and deterministic performance. As a result, real time control system requires processes dedicated to system status monitoring, error handling and watchdog timers. This paper present a six degree-of-freedom (6-DOF) missile model implemented using structured graphical model building blocks. This model illustrates how a graphical representation of a missile model leads to a much clearer representation of the original mathematical model. The LabVIEW graphical programming software and collocate the Real Time/ (6-DOF) model software module are used to establish the missile behavior and nature which integrate the software and hardware equipment. LabVIEW includes tools for low-level system debugging and precise execution timing so that it can increase the flexibility and development of the missiles. Real time simulation is growing in its importance to the success of these systems.A validation of the developed model design is performed through software in loop simulation (SIL). This is to ensure the safety and economics, as the real flight test cannot easily be done.Military Technical CollegeThe International Conference on Electrical Engineering2636-44331010th International Conference on Electrical Engineering ICEENG 201620160401Smart Plastic Bottles Collection Machine Based on the Principle of Gambling Slot Machines193029510.21608/iceeng.2016.30295ENR.AmroPalestine Polytechnic University.R.QutainehPalestine Polytechnic University.A.QaudPalestine Polytechnic University.Journal Article20190417This paper presents the design and implementation of a fully automated plastic bottles collection machine based on the idea of the luck slot machines. However instead of inserting coins, our machine accepts only empty plastic bottles. Once the inserted item is accepted by the machine, three wheels with fruit logos start to rotate. After the rotation times are over and in case that the three wheels stop at similar fruit logo the user wins.Military Technical CollegeThe International Conference on Electrical Engineering2636-44331010th International Conference on Electrical Engineering ICEENG 201620160401Enhanced Leveled DAG Prioritized Task Scheduling Algorithm in Distributed Computing System1133029610.21608/iceeng.2016.30296ENAmalEL-NATTATComputer Science and Engineering Department, Faculty of Electronic Engineering, Menoufia University.Nirmeen A.El-BahnasawyComputer Science and Engineering Department, Faculty of Electronic Engineering, Menoufia University.AymanEL-SAYEDComputer Science and Engineering Department, Faculty of Electronic Engineering, Menoufia University.Journal Article20190417In distributed computing environment, efficient task scheduling is essential to obtain high performance. A vital role of designing and development of task scheduling algorithms is to achieve better makespan. Several task scheduling algorithms have been developed for homogeneous and heterogeneous distributed computing systems. In this paper, we proposed a static task scheduling algorithm that optimizes the performance of Leveled DAG Prioritized Task (LDPT) algorithm; namely ELDPT; to efficiently schedule tasks on homogeneous distributed computing systems. ELDPT algorithm aims to improve the performance of the system by minimizing the schedule length.Military Technical CollegeThe International Conference on Electrical Engineering2636-44331010th International Conference on Electrical Engineering ICEENG 201620160401A new Algorithm for Traffic Congestion Detection using Vehicular Ad hoc Networks183029710.21608/iceeng.2016.30297ENHebaEL-SERSYComputer Science & Eng. Dept. Faculty of Electronic Eng., Menouf 32952, Egypt.AymanEL-SAYEDIEEE Senior Member
Computer Science & Eng. Dept.
Faculty of Electronic Eng.
Menouf 32952, Egypt.Journal Article20190417Traffic Congestion in Egypt roads is the same problem facing many cities around the world where traffic congestion is a<br />well-known economic and social problem generating significant costs and safety challenges, and increasing pollution in the cities. Current Conventional infrastructure based solutions to detect traffic congestion, such as surveillance cameras and road surface inductive loops, have the limitations of high deployment costs and limited coverage. This paper contributes towards the development of distributed and cooperative vehicular traffic congestion detection by proposing a new vehicle-to-vehicle (V2V) congestion detection algorithm based on the IEEE 802.11p standard. The new algorithm allows vehicles to be self-aware of the traffic in the city roads, performing congestion detection based on speed monitoring and exchanging traffic information with the surrounding vehicles. Exchanging is achieved using adaptive single-hop broadcasting which depends on the level of congestion. The paper presents the congestion detection algorithm and the cooperative communication in detail, and presents performance evaluation using large-scale simulation in Veins framework based on OMNeT++ simulator and SUMO vehicular mobility simulator. Results show that precise congestion detection and quantification can be achieved using a significantly decreased number of exchanged messages allowing more vehicles to be aware of congestion and be able to avoid it.Military Technical CollegeThe International Conference on Electrical Engineering2636-44331010th International Conference on Electrical Engineering ICEENG 201620160401Survey of Business Perception Based on Sentiment Analysis through Deep Neuronal Networks for Natural Language Processing183029910.21608/iceeng.2016.30299ENMónica Patricia PinedaVargasIng., Universidad Distrital Francisco José de Caldas, Universidad Nacional de Colombia, Bogotá D.C., ColombiaMiguel Alexander ChitivaDíazIng., Universidad Distrital Francisco José de Caldas, Universidad Nacional de Colombia, Bogotá D.C., ColombiaBrayan S. ReyesDazaIng., Universidad Distrital Francisco José de Caldas, Universidad Nacional de Colombia, Bogotá D.C., ColombiaOctavio J. SalcedoParraIng. PhD., Universidad Distrital Francisco José de Caldas, Universidad Nacional de Colombia, Bogotá D.C., ColombiaJournal Article20190417In recent years, the machine-learning field, deep neural networks has been an important topic of research, used in several disciplines such as pattern recognition, information retrieval, classification and natural language processing. Is in the last that this paper it’s going to be our principal topic, in this branch exist an specific task that in literature is called Sentiment Analysis were the principal function is to detect if an opinion is positive or negative. The paper shows how use this subset of the machine learning knowledge and use it for give us an insight in the question: what is the perception in a business or a product by means of the opinion of the consumers in social networks?Military Technical CollegeThe International Conference on Electrical Engineering2636-44331010th International Conference on Electrical Engineering ICEENG 201620160401Spyware Detection by Extracting and Selecting Features in Executable Files1203030110.21608/iceeng.2016.30301ENMohamed AdelShetaPh.D. Student, Department of Computer Engineering, Military Technical College, Egypt.MohamedZakiProf. of Computer and System Engineering, Al-Azhar University, Egypt.Kamel Abd El SalamEl HadadDr., Department of Computer Engineering, Military Technical College, Egypt.H. AboelseoudMDr., Department of Computer Engineering, Military Technical College, Egypt.Journal Article20190417Spyware detection techniques have been presented using three approaches; signature-based, behavior-based, and specification-based. These approaches failed in detecting new spyware. Data mining is a new approach in detecting spyware that has the ability to detect new spyware or mutated effects of existing spyware. The main challenges in designing anti-spyware systems using data mining techniques are in extracting and selecting the most strong and significant features from spyware data set. In this paper a new approach of extracting and selecting features is proposed. In this approach, the unique features are extracted from all executable files in each class type. Then the selection of the strongest features is done based on the occurrence or the frequency of the features in the data set. The experimental results of the proposed approach outperform all the previous competing approaches.Military Technical CollegeThe International Conference on Electrical Engineering2636-44331010th International Conference on Electrical Engineering ICEENG 201620160401Global Social Event Extraction and Analysis by Processing Online News1113030310.21608/iceeng.2016.30303ENBingZhuScience and Technology on Information Systems Engineering Lab, Nanjing, China
Nanjing Research Institute of Electronics Engineering, Nanjing, China.YuWangScience and Technology on Information Systems Engineering Lab, Nanjing, China
Nanjing Research Institute of Electronics Engineering, Nanjing, China.ChenglongHeScience and Technology on Information Systems Engineering Lab, Nanjing, China
Nanjing Research Institute of Electronics Engineering, Nanjing, China.Journal Article20190417The understanding of global social pattern can benefit the society operation a lot, including the domestic social governance, international situation awareness, risk assessment and forecasting, conflict resolution, crisis response and future policy planning. As the development of Internet, hundreds of millions of news could be found online every day, reporting the social events around the world, including political events, diplomatic events, cultural events, natural disasters, etc. However, by manual reading and analyzing, it is too difficult to deal with the vast amount of data and obtain valuable information quickly. Thus, in this paper we investigate the global social event extraction and analysis method based on the automatic processing of online news, including 1) event model building, 2) event information extraction and automatic classification based on English news text, 3) global social dynamic analysis and visualization based on event data. Finally, we constructed the method on the real global news data collected from more than 200 sites<br />to evaluate their performance and interpret some underlying insights of the results.Military Technical CollegeThe International Conference on Electrical Engineering2636-44331010th International Conference on Electrical Engineering ICEENG 201620160401Research on Task-focused Massive Multi-source Heterogeneous Information Sharing & Utilizing Method1103030410.21608/iceeng.2016.30304ENWUShan-shanScience and Technology on Information Systems Engineering Laboratory,
Nanjing Research Institute of Electronics Engineering, Nanjing, China.ZongShi-qiangJournal Article20190417Nowadays the famous search engine companies are all providing the keyword web search capabilities. No one provides the high accurate & efficient user-requirementsoriented information Services. The task-focused massive multi-source heterogeneous information sharing & utilizing method and system is introduced in this paper. This paper presents the general metadata description model of heterogeneous information resource, the metadata extraction method of information resource, the service encapsulation method and registration publication mechanism of information resource,<br />in order to standard the sharing process of large amounts of heterogeneous information resource. And then, the implement mechanism of information collection and index construction for huge amounts of information resource is given in the paper, by designing the optimized algorithm based on the map-reduce mechanism. Finally, the task-focused massive multi-source heterogeneous information precision searching mechanism is given in the paper in order to realize the information sharing and effective user of resources.Military Technical CollegeThe International Conference on Electrical Engineering2636-44331010th International Conference on Electrical Engineering ICEENG 201620160401Smart Transmit abnormal Condition in High Voltage Substation by SCADA System between Protection Equipment’s and National Control Center1193030510.21608/iceeng.2016.30305ENAmer Nasr A.ElghaffarResearchers, Electrical Engineering Department, Minia University, Cairo University.Karim M.IbrahimResearchers, Electrical Engineering Department, Minia University, Cairo University.Yehia Sayed M.AliProfessor Electrical Engineering Department, Minia University, Minia, Egypt.Adel A.ElbasetMohamedProfessor Electrical Engineering Department, Minia University, Minia, Egypt.Journal Article20190417In high voltage substation it’s important to fast simulate and analysis any fault or disturbed in the substation, SCADA system allow to faster analysis of real time and high resolution for the data which allows the operator to take faster decisions at any fault or abnormal condition in the substation. This paper will discuss Supervisory Control and Data Acquisition (SCADA), where the accuracy meaning is a control system with applications in managing large-scale for<br />industrial operations. The remote substation consists of protection and high voltage equipment that are directly interfaced to supervision center national control; fiber optical connection consists of high quality and fast transmitter data from the protection equipment by SCADA system, power system supervision and power Systems control all working in a coordinated automatic fashion. Data acquisition refers to collecting data in the form of measured analog current or voltages values or the Open or closed status of contact points. Power system supervision is carried out by Operators and maintenance engineers through this acquired data either at a remote site represented by computer displays and graphically wall displays or locally, at the Device site, in the form of frontpanel displays and laptop computers.Military Technical CollegeThe International Conference on Electrical Engineering2636-44331010th International Conference on Electrical Engineering ICEENG 201620160401Speed Control of Micro Gas Turbine with PMSG using Evolutionary Computational Techniques1163030610.21608/iceeng.2016.30306ENI. A.MoustafaGulf of Suez Petroleum Company (GUPCO)
Red Sea, Egypt.M. A. MoustafaHassanDepartment of Electrical Power and Machines
Faculty of Engineering
Cairo University, Giza, Egypt.Journal Article20190417This paper studies speed control of Micro Gas Turbine with PD controller. The article investigate the behavior of Micro Gas turbine with PMSG under load variations using different controllers .Most of these controllers are based on Evolutionary<br />Computational Techniques (ECT), among these Evolutionary Computational Techniques, Genetic Algorithm (GA), Particle Swarm Optimization (PSO), and Adaptive Accelerated Coefficients Particle Swarm Optimization (AACPSO). In this study, PD parameters are defined using a conventional PD controller is tuned by Ziegler-Nicholas technique. The conventional controller compared with (ECT). Simulation results show that the response of the PSO-Fuzzy like PD, AACPSO-Fuzzy like PD, and AACPSO- PD controller is effectively improved compared with other controllers. The effectiveness of the proposed scheme is confirmed via extensive study using MATLAB-Simulink software. The obtained results are promising.Military Technical CollegeThe International Conference on Electrical Engineering2636-44331010th International Conference on Electrical Engineering ICEENG 201620160401Low energy building design: Heating, ventilation and air conditioning1193030710.21608/iceeng.2016.30307ENAbdeen MustafaOmerForest Road West, Nottingham NG7 4EU, UK.Journal Article20190417The move towards a de-carbonised world, driven partly by climate science and partly by the business opportunities it offers, will need the promotion of environmentally friendly alternatives, if an acceptable stabilisation level of atmospheric carbon dioxide is to be achieved. This requires the harnessing and use of natural resources that produce no air<br />pollution or greenhouse gases and provides comfortable coexistence of human, livestock, and plants. This study reviews the energy-using technologies based on natural resources, which are available to and applicable in the farming industry. Integral concept for buildings with both excellent indoor environment control and sustainable environmental impact are reported in the present communication. Techniques considered are hybrid (controlled natural and mechanical) ventilation including night ventilation, thermo-active building mass systems with free cooling in a cooling tower, and air intake via ground heat exchangers. Special emphasis is put on ventilation concepts utilising ambient energy from air ground and other renewable energy sources, and on the interaction with heating and cooling. It has been observed that for both<br />residential and office buildings, the electricity demand of ventilation systems is related to the overall demand of the building and the potential of photovoltaic systems and advanced cogeneration units. The focus of the world’s attention on environmental issues in recent years has stimulated response in many countries, which have led to a closer examination of energy conservation strategies for conventional fossil fuels. One way of reducing building energy consumption is to design buildings, which are more economical in their use of energy for heating, lighting, cooling, ventilation and hot water supply. Passive measures, particularly natural or hybrid ventilation rather than air-conditioning, can dramatically reduce primary energy consumption. However, exploitation of renewable energy in buildings and agricultural greenhouses can, also, significantly contribute towards reducing dependency on fossil fuels. This article describes various designs of low energy buildings. It also, outlines the effect of dense urban building nature on energy consumption, and its contribution to climate change. Measures, which would help to save energy in buildings, are also presented.Military Technical CollegeThe International Conference on Electrical Engineering2636-44331010th International Conference on Electrical Engineering ICEENG 201620160401Prediction of Output Solar Power Generation using Neural Network Time Series Method153030810.21608/iceeng.2016.30308ENGarimaSharmaM.Tech student, Dept. of Electrical Eng., RCEW, Jaipur., Rajasthan, India.AlokPandeyAssociate Professor., Sine International Institute of Engineeering., Jaipur, Rajasthan, India.PraveshChaudharyAssociate Professor., Sine International Institute of Engineeering., Jaipur, Rajasthan, India.Journal Article20190417artificial neural networks (ANN) are used for many years to optimize the results of various problems in various sectors<br />and disciplines like, Engineering, Industrial applications, Finance, Medical applications, Economy, Forecasts, etc. The training ability of ANN has capability to deal with nonlinear and complicated issues termed for its utilization to solve projection troubles. In this paper we have developed a nonlinear auto regressive or NARX model with exogenous input, for the forecasting of AC system output of a solar power plant placed in RCEW college jaipur (Rajasthan) for the year 2014. In this system for the purpose of forecasting, the Levenberg-Marquardt (LM) optimization approach was utilized as it aids the finest training rate pursued as a back propagation algorithm for the multilayer feed forward ANN model using MATLAB® R2013 ANN time series toolbox. The outcome of the model concluded that the preferred procedure is powerful in prediction of forthcoming future energy generation demands for the daily operational planning of solar power generation.Military Technical CollegeThe International Conference on Electrical Engineering2636-44331010th International Conference on Electrical Engineering ICEENG 201620160401DESIGN, CONSTRUCTION AND STUDY OF SMALL SCALE VERTICAL AXIS WIND TURBINE BASED ON MAGNETICALLY LEVITATED AXIAL FLUX PERMANENT MAGNET GENERATOR173030910.21608/iceeng.2016.30309ENGhulamAhmadElectrical Engineering& Technology,
University of Gujrat, Gujrat, Pakistan.SuhailAftabElectrical Engineering
University of Engineering & Technology, Pakistan.Journal Article20190417Abstract<br />A small scale vertical axis wind turbine (VAWT) with<br />axial flux permanent magnet (AFPM) generator has been<br />designed and magnetic levitation method is used to<br />increase the efficiency of this type of wind turbine [1].<br />Magnetic levitation is inserted by using rare earth<br />permanent magnets, the repelling force of magnets are<br />used to suspend the rotating part of both turbine and<br />generator. Moreover, design of simple generator which<br />can easily drive without geared mechanism, lessen cost<br />and the complexity of the system by reducing the<br />quantity of driving components. Three phase output is<br />obtained from designed generator which is converted into<br />direct current through three-phase rectifier to charge the<br />batteries. The performance of proposed prototype is also<br />tested experimentally. The turbine performs as predicted<br />by the design process.Military Technical CollegeThe International Conference on Electrical Engineering2636-44331010th International Conference on Electrical Engineering ICEENG 201620160401Nuclear Reactors Safety Core Parameters Prediction using Artificial Neural Networks173031110.21608/iceeng.2016.30311ENAmany S.SaberNuclear Research Center, Atomic Energy Authority, Cairo, Egypt.Moustafa S.El-KolielNuclear Research Center, Atomic Energy Authority, Cairo, Egypt.Mohamed A.El-RashidyFaculty of Electronic Engineering,
Menoufiya University, Cairo, Egypt.Taha E.TahaFaculty of Electronic Engineering,
Menoufiya University, Cairo, Egypt.Journal Article20190417Abstract -
The present work investigates an appropriate<br />algorithm based on Multilayer Perceptron Neural Network<br />(MPNN), Apriori association rules and Particle Swarm<br />Optimization (PSO) models for predicting two significant core<br />safety parameters; the multiplication factor Keff and the power<br />peaking factor Pmax of the benchmark 10 MW IAEA LEU<br />research reactor. It provides a comprehensive analytic method<br />for establishing an Artificial Neural Network (ANN) with selforganizing<br />architecture by finding an optimal number of<br />hidden layers and their neurons, a less number of effective<br />features of data set and the most appropriate topology for<br />internal connections. The performance of the proposed<br />algorithm is evaluated using the 2-Dimensional neutronic<br />diffusion code MUDICO-2D to obtain the data required for the<br />training of the neural networks. Simulation results<br />demonstrate the effectiveness and the notability of the<br />proposed algorithm comparing with Trainlm-LM, quasi-<br />Newton (Trainbfg-BFGS), and Resilient Propagation (trainrp-<br />RPROP) algorithms.Military Technical CollegeThe International Conference on Electrical Engineering2636-44331010th International Conference on Electrical Engineering ICEENG 201620160401Clean Energies Development and Sustainable Development1163031210.21608/iceeng.2016.30312ENAbdeen MustafaOmerEnergy Research Institute (ERI), Forest Road West, Nottingham NG7 4EU, UK.Journal Article20190417The move towards a de-carbonised world, driven partly by climate science and partly by the business opportunities it offers, will need the promotion of environmentally friendly alternatives, if an acceptable stabilisation level of atmospheric carbon dioxide is to be achieved. This requires the harnessing and use of natural resources that produce no air pollution or greenhouse gases and provides comfortable coexistence of human, livestock, and plants. This article presents a comprehensive review of energy sources, the development of sustainable technologies to explore these energy sources. It also includes potential renewable energy technologies, energy efficiency systems, energy savings techniques and other mitigation measures necessary to reduce climate change. The article concludes with the technical status of the GSHP<br />technologies.Military Technical CollegeThe International Conference on Electrical Engineering2636-44331010th International Conference on Electrical Engineering ICEENG 201620160401Design and Construction of Photovoltaic Biomass Hybrid Energy Power System to Supply A Residence in Egypt1103031310.21608/iceeng.2016.30313ENA.GADODr.Eng., Higher Institute of Engineering and Technology –gharbia - tanta.Journal Article20190417Hybrid energy system has been seen as an excellent solution for electrification of rural place where the grid extension is difficult and economically not feasible. The use of renewable energy sources is becoming very necessary due to the limited reserves of fossil fuels and global environmental concerns for the production of electrical power generation and utilization. Solar energy is the most type of RESS pertaining the meteorological conditions of Egypt. This is due to the sunrise from 3000- 4000 hours/year with average insulations of 5-7 kwh/m2/day in all regions of Egypt. Also, photovoltaic (PV) power system is one of the most technologies used for conversion solar energy into electricity. Also, Biomass resources in Egypt that can be used for energy production are classified into the following categories: non- Plantation biomass, fuel crops (energy plantations) and municipal waste. The estimated total amount of biomass is of the order of 60 million ton/y; their gross calorific value is about 855 million GJ, which is equivalent to about 20 million toe/y. On the other hand, the energy storage (ES) is also incorporated which could help cut electricity demand during peak periods and smoothing variations in power generation by variable solar power. Solar PV and biomass with battery and converter are considered for the hybrid system. A case study was done in a rural village in Egypt. The main task is to find the suitable<br />component size and operation strategy for system which results would lead to the design and planning a hybrid energy system.<br />The above concerns led to a desire to investigate the feasibility study of PV-biomassbattery<br />storage based generator connected to grid, A study was conducted by collecting<br />the solar radiation data, an average annual solar radiation was compared and a ranking<br />system was performed. This system has a number of advantages over conventional<br />power generation technologies. <br /> This paper depicts the different system components and their optimal combination for<br />the efficient generation of electrical energy exploiting locally available resources.<br />In this paper, a proposed approach has been introduced and applied for planning of PVbiomass<br />systems on the electric utility of residential load in Egypt.<br />This approach includes a model for sizing of PV-biomass-battery storage systemsinteractive<br />the electric utility grid and evaluating the generation of these systems. Also,<br />a suggested model is presented and applied to assess the impact of this generation the<br />capacity and energy displacement of conventional power supply (CPS), reduction in<br />pollution and energy tariffs of the study electric utility. Learning mechanism utilizes a<br />reference model that describes the desired performance. Finally, comparative analysis<br />between the two developed controllers is conducted. It discusses the advantages and<br />disadvantages of each controller algorithm.Military Technical CollegeThe International Conference on Electrical Engineering2636-44331010th International Conference on Electrical Engineering ICEENG 201620160401Voltage Stability Investigation of the Egyptian Grid With High Penetration Level of Wind Energy During Steady State and Transient183031410.21608/iceeng.2016.30314ENHamdy S. K.El-GohareyDepartment of Electrical Power and Machines, Faculty of Engineering, Ain-Shams University, Cairo, Egypt.Walid A.OmranDepartment of Electrical Power and Machines, Faculty of Engineering, Ain-Shams University, Cairo, Egypt.Adel T. M.TahaDepartment of Electrical Power and Machines, Faculty of Engineering, Ain-Shams University, Cairo, Egypt.Salwa M.El-SamanoudyEgyptian Electricity Holding Company (EEHC), Cairo, Egypt.Journal Article20190417The large penetration level of wind farms might have deleterious effects on the voltage stability of the electric network.<br />This is because wind farms absorb reactive power from the transmission network and an observable drop in bus voltages<br />occur. To mitigate this effect, system must be studied under steady-state and transient conditions. The main objective of this study is to analyze the voltage stability of the Egyptian Electrical Network with large scale wind power under normal condition, under single contingency (N-1) and under transient condition. The single contingency is defined as the<br />loss of any transmission line, transformer, or generator. In addition, the paper determines the size of reactive power<br />compensation devices (capacitors or STATCOM) that should be installed at weak buses to prevent the voltage collapse during normal and transient states.Military Technical CollegeThe International Conference on Electrical Engineering2636-44331010th International Conference on Electrical Engineering ICEENG 201620160401Innovative Design & Manufacturing Techniques for Cost Effective & Superior Performance Power Transformers163031610.21608/iceeng.2016.30316ENSuhail AftabQureshiDr., Electrical Engineering, University of Engineering & Technology. Pak Elecktron Limited, PEL Ltd., Lahore, Pakistan.UzmaAminElectrical Engineering, University of South Asia., Electrical Engineering, University of Gujrat., Lahore, Pakistan.AzeemTalibElectrical Engineering, University of Engineering & Technology., Pak Elecktron Limited, PEL Ltd., Lahore, Pakistan.GhulamAhmadElectrical Engineering, University of South Asia., Electrical Engineering, University of Gujrat., Lahore, Pakistan.Journal Article20190417The critical importance of power transformers in any power system can never be over emphasized. The transformer design and manufacturing techniques have remained more or less the same for almost 150 years. But in recent times continuous efforts to achieve energy efficiency and cost effectiveness without compromising the electrical performance of the system has compelled power engineers to move ahead from conventional transformer design and manufacturing techniques to next generation concepts thus achieving a balance of long term monetary savings and superior performance which was not possible a couple of decades ago. The aim of this research paper is to introduce new design and manufacturing techniques which are evolving to give rise of smarter use of new materials thereby changing the physical construction of traditional transformer. The paper also presents the practical advantages of the emerging<br />designs and manufacturing techniques through theoretical design calculations and practical case studies.Military Technical CollegeThe International Conference on Electrical Engineering2636-44331010th International Conference on Electrical Engineering ICEENG 201620160401Impact of SVC on Voltage Stability of HWF Wind Farm during Grid Disturbance1193031810.21608/iceeng.2016.30318ENAhmedRashadUniversity of Jaén, 23700 EPS Linares, Jaén, Spain.SalahKamelDepartment of Electrical Engineering, Faculty of Engineering, Aswan University, 81542
Aswan, Egypt.FranciscoJuradoDepartment of Electrical Engineering, University of Jaén, 23700 EPS Linares, Jaén, Spain.Journal Article20190417The continuous increase in the pollution level and fuel price lead to increase the using of renewable energy sources especially wind energy. Due to the increase in wind energy penetration into electrical grid, installing wind farms faces many challenges. Continuity of wind farms connection to grid or at least reconnected after clearance of grid faults is<br />important challenge. To overcome these challenges Flexible AC transmission systems (FACTS) elements are used as auxiliary equipment. This paper studies the impact of static var compensator (SVC) as one of FACTS family members on voltage stability of hybrid wind farm (HWF) during some grid disturbance such as over voltage, voltage sage, single to ground fault and three phase faults. This hybrid wind farm is consisting of an equal number of Squirrel Cage Induction Generator (SCIG) and Double Fed Induction Generator (DFIG). With this combination, the main benefits of SCIG and<br />DFIG are collected. Where, SCIG is considered cheap with great effect on system stability especially when it operates without shunt compensator while DFIG can be operated with more stability contributes in the stability of interconnected grid. But DFIG is considered very expensive comparing with SCIG. The current paper presents a comprehensive comparison of recent hybrid wind farm with and without SVC during different types of grid disturbance. All test cases are carried out using MATLAB SIMULINK program.Military Technical CollegeThe International Conference on Electrical Engineering2636-44331010th International Conference on Electrical Engineering ICEENG 201620160401Water Supply163031910.21608/iceeng.2016.30319ENVegaTupiñoUniversidad De Ciencias Y Humanidades, Lima, Perú.GiancarloGiancarloUniversidad De Ciencias Y Humanidades, Lima, Perú.VargasCuentasUniversidad De Ciencias Y Humanidades, Lima, Perú.NataliaNataliaUniversidad De Ciencias Y Humanidades, Lima, Perú.Journal Article20190417The problem of drinking water is that it does not have a permanent solution, so you need to always look for new forms and sources of supply, conducting hydrological studies geohydrological or to use it to benefit the people. From the Industrial Revolution to the present, automation has been the best tool to make an indispensable work going on to compete in the global market tool. In these times no company can omit the automation of its industrial processes to enhance product quality, increase production, reduce production time, reduce the risk of damage or disaster, perform complex tasks, reduce waste and bad parts especially manufactured and increase profitability.Military Technical CollegeThe International Conference on Electrical Engineering2636-44331010th International Conference on Electrical Engineering ICEENG 201620160401Integrated Chip Current Mode DC-DC Buck Converter for Wireless Power Receiver1113032010.21608/iceeng.2016.30320ENSe YongKimKyungpook National University.Tae YangKimKyungpook National University.Jun RimChoiKyungpook National University.Journal Article20190417In this paper, we propose integrated chip DC-DC buck converter for wireless power receiver. The control of DC-DC buck converter is designed by current-mode technique. The DC-DC converter is an essential power management circuit that adjusts the output voltage based on portable electronic device applications. In addition, it reduces the energy loss due to thermal degradation and noise generated at power transmission. Therefore, DC-DC converter that operates at high efficiency is a major design constraint for wide input voltage variation. The proposed DC-DC converter is implemented and<br />fabricated using 0.18μm BCD process. The DC-DC converter comprises of OTA, compensator, current sensing circuit, clock and ramp signal generator and a comparator. It is designed for 85% peak efficiency with a 1MHz switching frequency, 5.5V to 10V input voltage and 400mA maximum load current. The maximum accuracy for sensing current reaches 99%.Military Technical CollegeThe International Conference on Electrical Engineering2636-44331010th International Conference on Electrical Engineering ICEENG 201620160401Modeling and Design of an Energy Harnessing Electric Powered RC Aircraft143032110.21608/iceeng.2016.30321ENMuzamilBostanDepartment of Electronic Engineering,
Faculty of Engineering and Technology,
International Islamic university Islamabad Pakistan.AsimMustafaDepartment of Electronic Engineering,
Faculty of Engineering and Technology,
International Islamic university Islamabad Pakistan.Syed AliSajjadDepartment of Electronic Engineering,
Faculty of Engineering and Technology,
International Islamic university Islamabad Pakistan.Muhammad AliBangashDepartment of Electronic Engineering,
Faculty of Engineering and Technology,
International Islamic university Islamabad Pakistan.AdilFarooqDepartment of Electronic Engineering,
Faculty of Engineering and Technology,
International Islamic university Islamabad Pakistan.Journal Article20190417This paper presents the harnessing of environmental friendly solar energy and its application to the Electric battery powered RC Aircraft. Main purpose was to establish highly efficient solar RC aircraft system with improved flight time. Designed aircraft is capable to fly on solar energy having increased flight time. To ensure lesser energy consumption and economic in cost, aircraft was considered to be light weight. Therefore several precautions were taken in terms of material and the basic geometry. A 3D model of RC aircraft with limitations was designed. Specific number of solar cells is installed on wing solely dependent on onboard load. Maximum power is provided by solar cells to increase its flight time. Likewise different mathematical calculations were carried out to make it energy efficient.Military Technical CollegeThe International Conference on Electrical Engineering2636-44331010th International Conference on Electrical Engineering ICEENG 201620160401Energy Efficiency Based Resource Allocation Scheme for Cooperative Cognitive Radio Networks183032210.21608/iceeng.2016.30322ENDenisBilibashiKey Lab of Mobile Communication Technology
Chongqing University of Posts and Telecommunications
Chongqing, 400065, P.R. China.RongChaiKey Lab of Mobile Communication Technology
Chongqing University of Posts and Telecommunications
Chongqing, 400065, P.R. China.Journal Article20190417Cooperative communication in cognitive radio networks has been introduced as an important and efficient technique<br />to improve the transmission performance of PUs or SUs. In this paper, we consider a cooperative cognitive radio network<br />(CCRN) consisting of multiple primary users (PUs) and multiple secondary users (SUs), where each PU can choose one SU<br />as its relay node. To encourage the forwarding behavior of the SUs, PUs lease a fraction of their allocated spectrum to<br />the corresponding relay SUs, so that the SUs are capable of transmitting their own data packets. A centralized resource<br />management architecture is introduced and an energy efficiency based relay selection and power allocation scheme is proposed for the PUs and SUs. The optimization problem is formulated and solved based on a modified Kuhn-Munkres bipartite matching algorithm. Simulation results demonstrate the effectiveness of the proposed scheme.Military Technical CollegeThe International Conference on Electrical Engineering2636-44331010th International Conference on Electrical Engineering ICEENG 201620160401A HYBRID APPROACH TO CHARGE MOBILE PHONE BATTERY BY SOUND ENERGY153032310.21608/iceeng.2016.30323ENVikram-SrivastavaDEPARTMENT OF ELECTRICAL AND ELECTRONICS ENGINEERING, SRM – UNIVERSITY RAMAPURAM CAMPUS, CHENNAI -600089.Journal Article20190417This paper describes charging of mobile phones by making use of sound. Basically here the sound energy is converted into electrical energy; the main principle involved in this project is piezoelectric effect which is the conversion of mechanical force or stress into electrical energy. The Zinc Oxide strands are interceded between two electrodes in this system. The sound absorption pad is placed upon the interceded zinc oxide electrodes. When the generated mechanical waves in the form of sound waves strike the sound absorption pad, vibration occurs. This results in the flexing of the zinc oxide wires. The compressions and rare fractions are due to the sensitivity of the Zno. A nano generator is placed between the sandwiched zinc oxide electrodes. The compressions and rare fractions are given to the nano generator. The nanogenerator converts the given mechanical energy into electrical energy. The generated electrical energy is used to charge the battery.Military Technical CollegeThe International Conference on Electrical Engineering2636-44331010th International Conference on Electrical Engineering ICEENG 201620160401Radiating/One Way Non-Radiating Currents1123033510.21608/iceeng.2016.30335ENE. A. M.El FayomeMinistry of Interior.A. H.KamelAdvanced Industrial, Technical and Engineering Center.H. S.ElHennawyElectronics and Communications Department, Faculty of Engineering, Ain
Shams University.Journal Article20190418A new formulation for solving Maxwell's equations is presented. It is based on combining radiating/one way non-radiating currents with volume integral equations. The results of the proposed scheme are compared with those for a number of cases with known analytical solutions. The accuracy and convergence properties of the proposed scheme are reported and the advantages and limitations are detailed.Military Technical CollegeThe International Conference on Electrical Engineering2636-44331010th International Conference on Electrical Engineering ICEENG 201620160401Application of a Global Minimization Technique for Depth Profile Inversion1123033610.21608/iceeng.2016.30336ENE. A. M.El FayomeMinistry of Interior.A. H.KamelAdvanced Industrial, Technical and Engineering Center.H. S.ElHennawyElectronics and Communications Department, Faculty of Engineering, Ain
Shams University.Journal Article20190418Three simulated annealing cooling schedules (exponential, fast and Boltzmann) are designed, implemented and compared for performance on a depth profile inversion problem. The analysis of the performance results proves that the simulated annealing technique is able to solve nontrivial inverse problems.Military Technical CollegeThe International Conference on Electrical Engineering2636-44331010th International Conference on Electrical Engineering ICEENG 201620160401Target Localization from a UAV Using 3D Terrain Engine1163033710.21608/iceeng.2016.30337ENAliAbbasCorresponding Author is a PhD candidate at
the Department of Electromechanic Systems, HIAST.AssefJafarDepartment of Electromechanic Systems, HIAST.ZouhairDahroujDepartment of Informatics, HIAST Higher Institute for Applied Science and Technology,
Damascus, P.O.box: 31983, Syria.Journal Article20190416We present a new approach for localizing a ground target from a UAV using 3D terrain engine. We use inaccurate auxiliary sensors on the UAV to obtain an approximate measurement of the camera pose, we use this pose to move the virtual camera inside the engine, and then automatically we find multiple matches between the two images to find the 3D coordinates of the matches using 3D terrain engine. Finally, we test the coplanarity of the 3D points under the camera, depending on this test, we use coplanar or non-coplanar algorithm to estimate accurate global camera pose. The accurate pose is used for localizing targets seen in the image by transmitting a virtual ray from a pixel according to the camera pose until intersect the 3D terrain model in the requested point. We tested the proposed approach on a synthetic and real data. Experimental results proved the feasibility and robustness of the proposed approach and the precision is the<br />same order as the 3D terrain engine.Military Technical CollegeThe International Conference on Electrical Engineering2636-44331010th International Conference on Electrical Engineering ICEENG 201620160401On Frequency Tuning of Inverted F Antenna133033810.21608/iceeng.2016.30338ENAmin H.Al Ka’biAustralian College of Kuwait, Kuwait.Journal Article20190418Internal antennas are widely used in mobile wireless communication devices like smart phones, which have been a major incentive of internal antenna research and design during the last decade, where new designs with wider frequency bands have been introduced; single-band devices have developed into multiband and multimode terminals. Although the average terminal size has decreased drastically, the internal antennas have been designed into standard solutions, to meet the new design requirements, taking into consideration the strict limitations set on the energy absorbed by the users of mobile devices. In this paper, a model for frequency tunable ferrite-based Inverted F Antenna is proposed by altering the permeability of the ferrite material.Military Technical CollegeThe International Conference on Electrical Engineering2636-44331010th International Conference on Electrical Engineering ICEENG 201620160401Controlling the Combustion Process of Thermal Power Plants to Reduce the Amount of Carbon Dioxide Produced1123033910.21608/iceeng.2016.30339ENRoshdy AbolAzayemAbdelRassoulArab Academy for Science, Technology and Maritime Transport, Alexandria, Egypt.S. M.IEEEArab Academy for Science, Technology and Maritime Transport, Alexandria, Egypt.Mohamed SaadZaghloulArab Academy for Science, Technology and Maritime Transport, Alexandria, Egypt.Mohamed M. M.OmarArab Academy for Science, Technology and Maritime Transport, Alexandria, Egypt.Islam YoussryEl AdlyArab Academy for Science, Technology and Maritime Transport, Alexandria, Egypt.Journal Article20190418In this paper we discuss the increasing of power plant efficiency by enhancement the operation of the combustion chamber and controlling the amount of injected air to combustion chamber and the amount of fuel used to minimize the heat rate of the power plant and decrease the fuel consumption to reduce the amount of the exhaust produced from the operation, the gas optical sensor used to detect the amount of exhaust gases, the design , how it work and way of using output data from the sensor to control the operation and reduce the amount of exhaust produced for less heat rate and fuel consumption and more power plant efficiency.Military Technical CollegeThe International Conference on Electrical Engineering2636-44331010th International Conference on Electrical Engineering ICEENG 201620160401Error Control for a Designed State Estimator Function Block of Foundation Fieldbus1103034010.21608/iceeng.2016.30340ENM.MahmoudElectrical And Control Engineering, AASTMT, Cairo, Egypt.N.El-AmaryElectrical And Control Engineering, AASTMT, Cairo, Egypt.H.IssaElectrical And Control Engineering, AASTMT, Cairo, Egypt.Journal Article20190418Design and simulation of a Foundation Fieldbus State Estimator Function Block (FFSEFB), which can control and minimize the system estimated states' error is proposed in this paper. Due to the importance of the foundation fieldbus systems in manufacturing field, there is a great need for extending their uploaded signals data capacity with high accuracy. A state estimator function block is designed, simulated and analyzed using Matlab/Simulink program to be adapted with a foundation fieldbus of any dynamic system. The designed block contains an adapted PI controller to eliminate the estimated error and ensures a smooth stable block response. The adapted controller block is added in different locations to eliminate the error results from the estate estimator. The controller parameters are changed according to the system input signal to ensure over-damped estimated output signal with zero error. Artificial Neural Network (ANN) technique is utilized in controller parameters determination. The developed intelligent controlled state estimator function block is tested on a 3rd order dynamic system, and the results presents satisfying output. The block design and optimization using Matlab/Simulink and is implemented to an impeded system.Military Technical CollegeThe International Conference on Electrical Engineering2636-44331010th International Conference on Electrical Engineering ICEENG 201620160401Patrolling Operation Using Functional Heterogeneous Two-Wheeled Mobile Robots and Viewpoints1133034110.21608/iceeng.2016.30341ENWalaaeldin AhmedGhadiryEgyptian Armed Forces.Journal Article20190418In this paper, the patrolling operation using two-wheeled mobile robots for monitoring a given area is considered. The two-wheeled mobile robots are considered to be functionally heterogeneous while visiting a set of viewpoints which are considered heterogeneous as well. The problem is typically related to the well-known Travelling Salesman Problem.<br />The functionally heterogeneous two-wheeled mobile robots will only be able to visit the view points that correspond to their heterogeneous functionalities. This could be related to their heterogeneous monitoring capabilities. It is required to obtain the optimal overall minimum travel distance while preserving the constraints of the heterogeneous monitoring functionality to have the most efficient patrolling performance. A new formulation is introduced using mixed-integer programing with simulations to present the exact optimal trajectories that can represent such problems.Military Technical CollegeThe International Conference on Electrical Engineering2636-44331010th International Conference on Electrical Engineering ICEENG 201620160401Swinging Tension sensor and Control Structure for Gyroscope Fiber Winding Process1173034210.21608/iceeng.2016.30342ENAhmed S.EldessoukyMoshera A.MohamedJournal Article20190418One of the common applications of optical fiber coils is optical gyroscope in which optical fiber has tiny cross-section (order of 100 micro meters). Accordingly, with such characteristics, it is required to maintain tension forces applied to fiber during winding process within very low limits. This paper proposes tension sensor and control structure to achieve high precision of fiber tension during winding process. The advantage of the proposed structure of tension sensing and control mechanism is to relax the control objective. Hence, the proposed mechanism allows the use of high torque motors with slow dynamics and large time constant (required for driving large inertia supply spool), yet achieve high transient performance. In this paper, the proposed tension sensing and control mechanism is introduced, its mathematical model is developed and model accuracy is discussed. A conventional PID controller is introduced in tension control loop to verify the developed model transient performance. The simulation results are presented. The results show the validity of the proposed mechanism and it mathematical model.Military Technical CollegeThe International Conference on Electrical Engineering2636-44331010th International Conference on Electrical Engineering ICEENG 201620160401Pyroelectric Parameters Measurement of Infrared Sensor Based on PANICSA/ PVDF/BaTiO3 Composite Films193034310.21608/iceeng.2016.30343ENMazhar B.TayelDepartment of Electrical Engineering, Faculty of Engineering, Alexandria University, lofty Elsied, Alexandria, Egypt, 11432.Moataz B.SolimanMaterials Science Department, Institute of Graduate Studies and Research, Alexandria University, 163 Horrya, Alexandria, Egypt, 21526.Shaker M.EbrahimMaterials Science Department, Institute of Graduate Studies and Research, Alexandria University, 163 Horrya, Alexandria, Egypt, 21526.Ahmed M.El-ShaerDepartment of Electrical Engineering, Faculty of Engineering, Alexandria University, lofty Elsied, Alexandria, Egypt, 11432.Journal Article20190418An infrared sensor based on composite of polyaniline/polyvinylidene fluoride (PANI/PVDF)/ barium titanate (BaTiO3) with different weight percentages (25, 50, 70 and 100) of BaTiO3 has been fabricated. PANI doped with camphor sulfonic acid (CSA) was prepared chemically. Electrical measurements such as electrical conductivity and pyroelectric current and coefficient of these composites were performed. It was found that the pyroelectric coefficient increases with increasing of the weight percentage of BaTiO3. The behavior of electrical conductivity of PANI-CSA/PVDF/BaTiO3 composite films with different weight percentages of BaTiO3 was followed up the percolation theory. The percolation threshold value of PANICSA/PVDF/BaTiO3 composite films was found at 25 wt.% of BaTiO3. The conductivity of the composite films was increased from 4.08×10-8 S/cm 0 wt.% of BaTiO3 to 8.84×10-6 S/cm at 100 wt.% of BaTiO3. The pyroelectric coefficient values were enhanced from 2.35×10-5 to 1.27×10-3 C/m2˚C at 0 wt.% and 100 wt.% of BaTiO3, respectively.Military Technical CollegeThe International Conference on Electrical Engineering2636-44331010th International Conference on Electrical Engineering ICEENG 201620160401AUTOMATIC SELECTION OF OVERLAPPING STRIP PAIRS/REGIONS FOR OPTIMIZED LIDAR SYSTEM CALIBRATION1163034410.21608/iceeng.2016.30344ENEssam Hassan HamzaHassanPh.D., Department of Electrical and Computer Engineering, Military Technical Collage, Kobry Elkobbah, Cairo, Egypt.Journal Article20190418Recently, laser scanning systems (airborne and terrestrial mobile mapping systems) have been established as a leading technology for collecting high density 3D information from an object's surface. The availability of generated surface models is very important for various industrial, military, environmental, and public applications. The accuracy of the derived point cloud coordinates from a LiDAR system is affected by inherent systematic and random errors. The impact of random errors depends on the precision of the system’s measurements, which comprise position and orientation information from the GPS/INS unit, mirror angles, and ranges. On the other hand, systematic errors are mainly caused by biases in the mounting parameters (i.e., lever arm offset and boresight angles) relating the system components as well as biases in the system measurements (e.g., ranges and mirror angles). In order to ensure the geometric quality of the collected point cloud, the LiDAR systems should undergo a rigorous calibration procedure to estimate the system parameters that minimize the discrepancies between conjugate surface elements in overlapping LiDAR strips. The main objective of this paper is to look into an existing LiDAR system calibration technique, which is based on manual selection of overlapping regions between LiDAR strips and how to increase the efficiency of this technique by automatic selection of appropriate overlapping strip pairs, which should achieve the minimum optimal flight configuration that maximizes the impact of the discrepancies among conjugate surface elements in overlapping strips as well as automatic selection of regions within the appropriate overlapping strip pairs. The methodology of the proposed technique can be summarized as follows: first, the LiDAR strip pairs are grouped based on the flight configuration; second, appropriate overlapping strip pairs from each group is automatically selected; third, regions within the appropriate overlapping strip pairs are automatically selected based on their angles (slopes and aspects) and distribution; finally, the calibration procedure is applied. Theexperimental results have shown that the quality of the estimated parameters using the automatic selection are quite comparable to the estimated parameters using the manual selection while the proposed method is fully automated, and much faster.Military Technical CollegeThe International Conference on Electrical Engineering2636-44331010th International Conference on Electrical Engineering ICEENG 201620160401Electrical and Optical Characterization of SMOLED and PLED1123034710.21608/iceeng.2016.30347ENOlaMostafaFaculty of Engineering, AAST, Cairo, Egypt.Hanady H.IssaFaculty of Engineering, AAST, Cairo, Egypt.Khaled A.ShehataFaculty of Engineering, AAST, Cairo, Egypt.AhmedEl-BaklyFaculty of Engineering, AAST, Cairo, Egypt.Journal Article20190418Organic Light-Emitting Diode (OLED) is one of the most interesting areas of scientific research in the field of optoelectronic devices. The aim of this paper is to model the two types of Organic LED which are polymer LEDs (PLED) and OLEDs made with small molecules (SMOLED). The electrical and optical characteristics of the two devices are studied. The simulation tool used is ATLAS-SILVACO. Some parameters are swept in the device to optimize the OLED performance, such as thickness of layers and number of layers. PLED has higher luminance and current density than SMOLED.Military Technical CollegeThe International Conference on Electrical Engineering2636-44331010th International Conference on Electrical Engineering ICEENG 201620160401Collaboration Change Management strategy163034810.21608/iceeng.2016.30348ENMorcous Massoud YassaMassoudJournal Article20190418This paper focuses on the relationship between globalization and collaboration technologies. Collaboration technologies are changing the business landscape, understanding those new technologies implications is a key to enable researchers and practitioners to face these new challenges to the domain of collaborative business processes. This paper examines the impacts of Collaboration Network Organization (CNO) globalization on collaborative business, as well as, illustrates some key challenges for research in the area of CNOs. This paper also, argues that there is a convergence of interoperability of Cloud Computing, Service Oriented Architecture and Grid ComputingMilitary Technical CollegeThe International Conference on Electrical Engineering2636-44331010th International Conference on Electrical Engineering ICEENG 201620160401Voltage Responsivity Measurements for PANI-DBSA/PVDF Infrared Sensor Using Electrical Chopped Circuit1103034910.21608/iceeng.2016.30349ENMazhar B.TayelDepartment of Electrical Engineering, Faculty of Engineering, Alexandria University, lofty Elsied, Alexandria, Egypt, 11432.Moataz B.SolimanMaterials Science Department, Institute of Graduate Studies and Research, Alexandria University, 163 Horrya, Alexandria, Egypt, 21526.Shaker M.EbrahimMaterials Science Department, Institute of Graduate Studies and Research, Alexandria University, 163 Horrya, Alexandria, Egypt, 21526.Ahmed M.El-ShaerDepartment of Electrical Engineering, Faculty of Engineering, Alexandria University, lofty Elsied, Alexandria, Egypt, 11432.Journal Article20190418The pyroelectrical response of infrared sensor dodycylbenzene sulfonic acid (DBSA) doped polyaniline (PANI) and polyvinylidene fluoride (PVDF) blend films was reported in this work. Modulation frequency dependence of the pyroelectric response of PANIDBSA/PVDF blend films with different weight percentages (0, 10, and 20) of PANI has been investigated using the proposed an electrical chopped circuit. The electrical chopped circuit is composed of computerized Arduino board to generate the chopped frequency and shielded with the transmitting circuit, infrared sensor blend film, and the amplification circuit. The PANI-DBSA/PVDF blend film with 10 wt.% of PANI showed the optimum the pyroelectric response. The voltage responsivity (Rv) of PANIDBSA/PVDF with 10 wt.% of PANI was 158 V/W at 0.2 Hz and the noise equivalent power (NEP) of was 2.8×10-7 W/Hz1/2 at 100 Hz. The results indicated that the PANIDBSA/PVDF blend film with 10 wt.% of PANI are suitable as an active material for pyroelectric infrared sensor.Military Technical CollegeThe International Conference on Electrical Engineering2636-44331010th International Conference on Electrical Engineering ICEENG 201620160401Laser Indirect Exposure Method for Treatment of Nanomaterials1133035010.21608/iceeng.2016.30350ENHebatalrahmanHebatalrahmanDr.eng. Consultant in materials sciences & materials applications, Egypt.Journal Article20190418Method to improve the mechanical properties of nano materials, micromaterials and short fibers by indirect exposure to laser irradiations. The method was done by dipping powder materials in transparent plastics to allow the passage of a laser beam through it without being absorbed or interact with transparent material. The laser affect the structure of powder and improve properties, After exposure organic solvent is used to dissociate the transparent plastics , the treated nanomaterials or short fibers were collected. The method is a physical process free of pollutants and exhaust, it do not cause economic losses in the amount of material treated.Military Technical CollegeThe International Conference on Electrical Engineering2636-44331010th International Conference on Electrical Engineering ICEENG 201620160401Nanotechnology applied to Reneweable Energy163035110.21608/iceeng.2016.30351ENJuan Alberto ArgüelloGarcía-PertusaUNIVERSIDAD EUROPEA DE MADRID. Departamento Óptica Universidad Europea - Escuela Politécnica C/ Tajo s/n. 28670 Villaviciosa de Odón. Madrid,- España. Tfno. (+34) 91- 211 5658.MohammedAlanbariUNIVERSIDAD EUROPEA DE MADRID, Departamento INGENIERÍA INDUSTRIAL Universidad Europea - Escuela Politécnica C/ Tajo s/n. 28670 Villaviciosa de Odón. Madrid,- España.Tfno. (+34) 91- 211
5658.ArisbelCerpaUNIVERSIDAD EUROPEA DE MADRID, Departamento INGENIERÍA INDUSTRIAL Universidad Europea - Escuela Politécnica C/ Tajo s/n. 28670 Villaviciosa de Odón. Madrid,- España.Tfno. (+34) 91- 211
5658Journal Article20190418Lately, an important application for Nanotechnology is renewable energy. Scientists and engineers have discovered that by using this technology efficiency, cost, size, and weight are improved directly, and the environment and green energy are improved indirectly. Benefits such as these make the investment of capital in the research and development of nanotechnology a top priority element, such as in the strategic European plan. An important subfield of nanotechnology related to energy is nanofabrication. Nanofabrication is the process of designing and creating devices on the nanoscale. Creating devices smaller than 100 nanometers opens many doors for the development of new ways to capture, store, and transfer energy. The inherent level of control that nanofabrication could give scientists and engineers would be critical in<br />solving many of the problems the world is facing today with the current generation of energy technologies. Another current problem is the cost of nanofabrication.Military Technical CollegeThe International Conference on Electrical Engineering2636-44331010th International Conference on Electrical Engineering ICEENG 201620160401Chemically Reduced Graphene Oxide as Electrodes for Energy Storage Applications1113035210.21608/iceeng.2016.30352ENMazhar B.TayelDepartment of Electrical Engineering, Faculty of Engineering, Alexandria University.Moataz M.SolimanDepartment of Materials Science, Institute of Graduate Studies and Research, Alexandria University.ShakerEbrahimDepartment of Materials Science, Institute of Graduate Studies and Research, Alexandria University.Mohamed E.HarbDepartment of Electrical Engineering, Faculty of Engineering, Alexandria University.Journal Article20190418Supercapacitors have attracted increasing attention due to their widespread applications, such as hybrid electric vehicles, power tools, portable electronic equipment and other devices. Using larger surface area of graphene electrodes and thinner dielectrics to achieve larger capacitances is a new trend for increasing capacitance of supercapacitors. This allows for energy densities greater than those of conventional capacitors and power densities greater than those of batteries.. In this paper, graphene oxide was synthesized by improved Hummers method. polyaniline PANI/grapheneoxide (GO) nanocomposite electrode materials were prepared from aniline (ANI), GO and ammoniumpersulfate (APS) by insitu chemical polymerization in ice bath. GO in composite was reduced for 5h and 20h. The crystal structure and the surface topography of all materials were characterized by Fourier transform infrared spectroscopy (FTIR) and Raman spectroscopy. The electrochemical properties were evaluated by cyclic voltammetry (CV), charge-discharge measurements, electrical impedance spectroscopy (EIS) and a four-point probe, respectively. The results show that with increasing reduction time, the oxygen content on the surface of GO was decreased, leading to increased ID/IG ratio in the Raman spectra of GO and increased conductivity of composite. Consequently, the capacitance properties of RGO/PANI composites could be significantly improved by the reduction of GO for 20h. The GO /PANI composite reduced for 20h had a specific capacitance as high as 1405.68 F/g at scan rate of 1 mV/s compared with 291.73 F/g for pristine graphene film.Military Technical CollegeThe International Conference on Electrical Engineering2636-44331010th International Conference on Electrical Engineering ICEENG 201620160401Fabrication of Asymmetric Supercapacitor Using Aqueous and Polymer Electrolytes for Energy Storage1123035310.21608/iceeng.2016.30353ENMazhar B.TayelDepartment of Electrical Engineering, Faculty of Engineering, Alexandria University.Moataz M.SolimanDepartment of Materials Science, Institute of Graduate Studies and Research, Alexandria University.ShakerEbrahimDepartment of Materials Science, Institute of Graduate Studies and Research, Alexandria University.Mohamed E.HarbDepartment of Electrical Engineering, Faculty of Engineering, Alexandria University.Journal Article20190418Supercapacitors represent an attractive alternative for portable electronics and automotive applications due to their high capacitance, specific power and extended life. In fact, the growing demand of portable systems and hybrid electric vehicles, memory protection in CMOS, logic circuit, VCRs, CD players, PCs, UPS in security alarm systems, remote sensing, smoke detectors, etc. require high power in short-term pulses. So, in the last 20 years, supercapacitors have been required for the development of large and small devices driven by electrical power. In this paper, asymmetric supercapacitors with high energy density were successfully fabricated using graphene as negative electrode and polyaniline as positive electrode. The weight of active material was 5.6 mg. The surface topography was characterized by scanning electron microscopy (SEM). The electrochemical properties of the composite were evaluated by cyclic voltammetry (CV), charge-discharge measurements and electrical impedance spectroscopy (EIS). The separator was a filter paper soaked in aqueous potassium hydroxide (6M).This enhances both the specific capacitance to 620.76 F/g at scan rate of 1 mV/s and the energy density to 86.22Wh/kg. Another low leakage supercapacitor was fabricated using polyvinyl alcohol (PVA) separator and 6 mole potassium hydroxide salt with specific capacitance of 220.35 F/g at scan rate of 1 mV/s.