كتابة النص: الأستاذ الدكتور يوسف أبو العدوس - جامعة جرش قراءة النص: الدكتور أحمد أبو دلو - جامعة اليرموك مونتاج وإخراج : الدكتور محمد أبوشقير، حمزة الناطور، علي ميّاس تصوير : الأستاذ أحمد الصمادي الإشراف العام: الأستاذ الدكتور يوسف أبو العدوس
فيديو بمناسبة الإسراء والمعراج - إحتفال كلية الشريعة بجامعة جرش 2019 - 1440
فيديو بمناسبة ذكرى المولد النبوي الشريف- مونتاج وإخراج الدكتور محمد أبوشقير- كلية تكنولوجيا المعلومات
التميز في مجالات التعليم والبحث العلمي، وخدمة المجتمع، والارتقاء لمصاف الجامعات المرموقة محليا واقليميا وعالميا.
المساهمة في بناء مجتمع المعرفة وتطوره من خلال إيجاد بيئة جامعية، وشراكة مجتمعية محفزة للابداع، وحرية الفكر والتعبير، ومواكبة التطورات التقنية في مجال التعليم، ومن ثم رفد المجتمع بما يحتاجه من موارد بشرية مؤهلة وملائمة لاحتياجات سوق العمل.
تلتزم الجامعة بترسيخ القيم الجوهرية التالية: الإلتزام الإجتماعي والأخلاقي، الإنتماء،العدالة والمساواة، الإبداع، الجودة والتميّز، الشفافية والمحاسبة، الحرية المنظبطة والمستقبلية.
Regard
Prof.Dr. Takialddin Al Smadi ,Member IEEE
Faculty of Engineering/Master of Engineering Management department , Jerash University, Jordan,P.O Box : 311 - Post Code : 26150 Jerash
https://www.researchgate.net/profile/Prof_Takialddin_Al_Smadi
https://www.scopus.com/authid/detail.uri?authorId=58769813700
https://www.webofscience.com/wos/author/record/W-1977-2017
https://orcid.org/my-orcid?orcid=0000-0002-1322-9707
ResearcherID: W-1977-2017
Editor-in-Chief JASET) J. Adv. Sci. Eng. Tech
https://www.jasetj.com/index.php/jaset
Editor-in-Chief
International journal of Electrical and Electronics Research (IJEER) Scopus
https://ijeer.forexjournal.co.in
Chief Editorial Advisor
Tikrit Journal of Engineering Sciences, (Tikrit j. Eng. sci.) (TJES)Scopus
https://tj-es.com/
Full-Professor Electrical and Control Engineering received the B.Sc. degree in electronics/microelectronics from Moscow Power Engineering Institute (Technical University), Russia, in 1999, and the M.Sc. degree in atomization electrical engineering from Kazan State Technological University, Russia, in 2000. He graduated from Kazan State Technological University with the PhD degree in Electrical and Control Engineering. He is currently a professor in the Faculty of Engineering, Jerash University, Jordan. His research interests include fault control systems engineering, neural networks, cognitive and renewable energy systems, and their applications in electrical engineering. He is IEEE member with many
publications in high-ranking journals and conferences.
Head of Computer Science Department, Jerash University 2007-
Organizing Committee Member of The IEEE Conferences
(JASET) J. Adv. Sci. Eng. Technol.
http://jaset.isnra.org/
Editor Tikrit Journal of Engineering Sciences, (Tikrit j. Eng. sci.) (TJES)Scopus
This study addresses the challenge of speed control in permanent magnet synchronous motors (PMSMs), particularly in complex industrial applications. The research investigates the control of rotor speed in an electric-traction drive scenario. The setup involves an 8kW high-voltage battery powering a 35 kW PMSM through a controlled 3-phase (3-φ) converter. Sensor feedback provides torque, currents, and voltage data, while a resolver captures speed and position information. The control strategy employs a two-loop algorithm. The outer loop uses a Proportional-Integral (PI) controller for speed control, while two PI controllers are utilized to govern stator current in the Q and D directions. The input battery is very important in this design to achieve zero steady-state error. During a 0.2-second simulation, the rotor speed demand is incrementally raised from 0 to 1200 RPM. The proposed approach is implemented and …
This article covers the latest fault-tolerant control system (FTCS) developments and applications. FTCSs aim to maintain stability, minimize performance degradation, and compensate for system component faults. These systems benefit from and mission-critical applications where service continuity is crucial. This article describes several sensor and actuator errors. Fault Tolerant Control (FTC) includes active, passive, and hybrid approaches and the latest design techniques. Finally, FTCS stability and reliability analysis and research gaps were reviewed. This study provides current and future FTCS researchers with the latest trends and applications. This study's contribution. System component failures and instability are two major causes of control performance decline. Fault-tolerant control, or FTC, was developed in recent decades to improve control system resiliency. Active and passive FTC techniques exist. This paper examines control system faults, failure causes, and the latest resilience solutions. Fault detection and isolation (FDI) and active fault tolerance control (FTC) advances were examined. Encouraging FTC and FDI research, a comprehensive comparison of several aspects is performed to understand the pros and cons of various FTC techniques.
In this paper, the Jordan's adoption of renewable energy, in general, and the solar energy, in particular, is overviewed. The solar energy development in Jordan, within the last decade, is highlighted from various aspects. Energy consumption and efficiency are major issues for nations such Jordan that have few natural resources and high energy costs, especially in the context of climate change. In Jordan, the industry with the highest energy use is residential construction. Residential building rooftop photovoltaic (PV) systems may address the issue of rising power needs and the need for more sustainable energy systems. This research contrasted present and projected residential household power usage with the potential electricity consumption from PV systems placed on the available roofs of residential structures. Taguchi and Box-Behnken Design (BBD) approaches were used to predict and optimize the yearly power usage using a design tool in Minitab version 18. The findings showed that the yearly energy usage was significantly influenced by solar cumulative installed PV power, sun shine hours, and operation service factors. The investigation revealed that the combined ideal elements and reactions meet the highest demands of the annual power usage of 8.0940 MWh per capita. The annual increase of PV plants, connected to the Jordan electric grid, refer to the availability of this area to adopt more and more PV projects. The available land, moderate climate, and reliable electric grid are encouraging factors to accepting large PV projects. The result showed that the yearly energy usage was significantly influenced by solar cumulative …
This paper explores Robotic Rehabilitation Devices and their ability to help patients overcome injuries limiting and disrupting lower body and upper body movement, even helping with back injuries. This atomization of therapy enables many patients to be treated at the same time and even from home, in a process called tele-rehabilitation. Data can be collected from the biofeedback mechanisms implemented in the devices are used to analyze performance and improvement in the movement of patients. The most valuable aspect of rehabilitation through robotics is that it increases access to therapy, which is usually unavailable due the large demand for treatment....
The renewable energy sector in Jordan is rapidly growing as the government is committed to reducing the country's dependence on fossil fuels and increasing the contribution of renewable energy to its energy mix. However, the effective management of renewable energy projects requires a unique set of skills and expertise that is different from traditional engineering management. The agreement between solar energy yield and electricity demand is compared in terms of daily, monthly and yearly patterns. A special focus is oriented towards the current status of solar energy projects in Jordan area in terms of their sizes, reliability, feasibility and challenges. Finally, concerning the future plans of solar energy in Irbid area, a road map will be introduced to trigger the decision makers to convert Irbid to a green governorate in the next decade and examines the key skills and competencies required for engineering managers to succeed in the renewable energy sector in Jordan, including technical expertise, project management skills, financial and business acumen, and strong communication and leadership skills.
The antenna is a Modified Broadband Butterfly Antenna (MBBA). The technicalparameters of such systems are heavily influenced by the qualities of theantenna feed devices. The aperture theory of antennas uses the representationof the radiation field of the antenna as a superposition of the fields of elementarysources, characterized by their type and amplitude-phase spatial distribution. The radiation field of an antenna of finite dimensions is a superposition ofinhomogeneous spherical waves emitted by the antenna elements. This paper is primarily the study process, Radiation models were calculatedusing the model of the cavity plates, Simple Green model, and the strictcommercial Electromagnetic Simulator. The modified active rectangular patcheswith the Gann diode were combined into arrays of E and H plane. Calculated andmeasured results for these two active arrays the beam scanning, the possibilitieshave been demonstrated for both arrays. The results of an electrodynamicsnumerical simulation were obtained. Broadband and multiband radio systemshave already found widespread practical applications by utilizing basic antennaparameters and characteristics.
Advanced technology developments of the antenna find their place in wireless technology. The increased demand for Internet of Things (IoT) applications in the recent communication system has increased the demand for antennas due to their compatibility. The easy integration into IoT devices is the key benefit of the microstrip antenna. In this chapter, the selection criteria of the antenna are discussed with application in the Internet of Things. An antenna array is also designed considering the parameters for the application in IoT devices.
The nonlinear effect in the control system is so important and it may have a hard or soft effect on the electrical, mechanical, biological, and many other systems. This paper analyzes the describing function (DF) which is the transfer function of the nonlinear (NL) control systems of many NL elements found such as saturation, and backlash. The effect of the NL on the third-order delayed system is considered. The PID controller is considered the heart of the control system and continuously finds the error between input and output, and formulates the desired signal for the actuator to control the plant. Experimental tanning of PID controller with the saturation NL as a case study with buffer Operation Amplifier (Op-Amp) to maintain the gain and phase shift. In addition, a low pass filter (LPF) is used in the feedback to minimize and attenuate the effect of the NL in the closed-loop control system. The Fourier series is used to analyze the DF. The results show the effectiveness of the proposed algorithm.
The antenna is a Modified Broadband Butterfly Antenna (MBBA). The technical parameters of such systems are heavily influenced by the qualities of the antenna feed devices. The aperture theory of antennas uses the representation of the radiation field of the antenna as a superposition of the fields of elementary sources, characterized by their type and amplitude-phase spatial distribution. The radiation field of an antenna of finite dimensions is a superposition of inhomogeneous spherical waves emitted by the antenna elements. This paper is primarily the study process, Radiation models were calculated using the model of the cavity plates, Simple Green model, and the strict commercial Electromagnetic Simulator. The modified active rectangular patches with the Gann diode were combined into arrays of E and H plane. Calculated and measured results for these two active arrays the beam scanning, the possibilities have been demonstrated for both arrays. The results of an electrodynamics numerical simulation were obtained. Broadband and multiband radio systems have already found widespread practical applications by utilizing basic antenna parameters and characteristics.
This paper presents a fully automated stand-alone irrigation system with GSM (Global System for Mobile Communication) module. Solar energy is utilized to power the system and it is aimed to conserve water by reducing water losses. The system is based on a DC water pump that draws energy from solar panels along with automated water flow control using a moisture sensor. It is also fitted with alert and protection system that consists of an ultrasonic sensor and GSM messages sender that transmits signals showing the levels of the water in the reservoir and the battery charge. The control system is designed to stop the water pump from pumping water either when the battery level drops to equal or less than 10% of its full charge, or when the water level becomes less than 10 cm high in the reservoir. The experimental results revealed that the system is appropriate to use in remote areas with water scarcity and away from the national grid.
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