قسم الحاسب الالي

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حول قسم الحاسب الالي

يعد قسم الحاسوب من الأقسام المهم في الجامعة التي أنشأت مع تأسيس كلية التربية طرابلس، وذلك استجابة لمتطلبات سوق العمل، وتوفير الكوادر المؤهلة، في مجالات الحاسب الآلي ومدة الدراسة بالقسم ثمانية فصول دراسية، ويهدف القسم  إلى تخريج متخصصين متمكنين في مجال التربية وعلوم الحاسوب وتطبيقاته الدقيقة وتأهيل الطلاب علمياً وذهنياً في مجال علوم الحاسب بما يتلاءم مع سوق العمل المحلي والدولي، وتزويد الطلاب بقدرات التعليم الذاتي المستمر والقدرة على تحليل المسائل واتخاذ القرارات وإتاحة فرص ومجالات التعليم المستمر لخرجيها في مستويات التعليم العالي، وتنمية المجتمع و بالإضافة إلى تقديم خدمات التدريب والاستشارات والقيام بالأنشطة العلمية الأخرى كاللقاءات العلمية والندوات والمؤتمرات العلمية خدمة للمجتمع  بحيث تتوافق الرؤية العلمية مع الواقع العملي الذي تفرضه متطلبات هذا العصر.

حقائق حول قسم الحاسب الالي

نفتخر بما نقدمه للمجتمع والعالم

4

المنشورات العلمية

198

الطلبة

0

الخريجون

البرامج الدراسية

بكالوريوس في العلوم والتربية
تخصص الحاسوب

يعد قسم الحاسوب من اقسام الجامعة المهمة مدة الدراسة فيه 8 فصول دراسية يتم فيه منح الدارس بكالوريوس في العلوم و التربية بعد اجتياز 136 وحدة بواقع 16 وحدة عامة و 79 وحدة تخصصية و 6 وحدات اختيارية و 11 وحدة داعمة...

التفاصيل

منشورات مختارة

بعض المنشورات التي تم نشرها في قسم الحاسب الالي

Reconstruction of Medical Image Registration and Applications in EIT

Medical image registration is process for determining the correspondence of features between two medical collected at different times and different position or using different imaging modalities, where the aim is to follow changes in two imaging. The aim in Electrical Impedance Tomography (EIT) is to exploit the difference in the passive electrical properties of tissues in order to generate a tomographic image. The advantage of such a technique over other imaging modalities is that it provides a non-invasive and sensitive method of probing the body using non ionizing radiation. This paper will Shows the reconstruction of image registration and application in multi frequency electrical impedance tomography. Using by the determination of the appropriate coordinate transfer function (CTF), the image reconstruction has been improved, and the all information in the image can be obtained.
Amani Soliman, (3-2018)
Publisher's website

Most Common and Reliable Traits for Fusion of Biometrics

Biometrics technologies have been around for quite some time and many have been deployed for different applications all around the world, ranging from small companies' time and attendance systems to access control systems for nuclear facilities. Biometrics offer a reliable solution for the establishment of the distinctiveness of identity based on "who an individual is", rather than what he or she knows or carries. Biometric Systems automatically verify a person's identity based on his anatomical and behavioral characteristics. Biometric traits represent a strong and undeviating link between a person and his identity, these traits cannot be easily lost or forgotten or faked. Since biometric systems require the user to be present at the time of authentication. Some biometric systems are more reliable than others, yet biometric systems are neither secure nor accurate, all biometrics have their strengths and weaknesses. Although some of these systems have shown reliability and solidarity, work still has to be done to improve the quality of service they provide. In this paper we present the most common and reliable known biometric systems suitable for Multimodal Biometrics Fusion, providing highly efficient and secure systems, showing their strengths and weaknesses and also presenting technologies in which may have great benefits for security applications in the near future.
Abdulmonam Omar Ahmed Alaswad, Ihab Meftah Elfituri, Fawzia Elhashmi Mohamad(0-2014)
Publisher's website

Multi-frequency Electrical Impedance Tomography: Image Reconstruction Using Complex Sensitivity Matrix with Finite Element Methods

: Electrical Impedance Tomography (EIT) is a non invasive imaging technique with widespread applications in medicine and industry. It aims to image the conductivity distribution within an object by making electrical measurements on the surface of the volume. Single frequency electrical impedance tomography offers many positive attributes which are now being exploited clinically, but there are also problems which have been identified. Multi-frequency electrical impedance tomography has been proposed to solve this problem by making impedance measurements over a range of frequencies. The reason for this is that the impedance of biological tissues varies with frequency, and the variations are different from tissue to tissue. It is therefore possible, in principle to make static image (i.e. images of the distribution of frequency dependence of the impedance within the body) by measuring tissue impedance over a range of frequencies. In this paper new method concerning multi-frequency electrical impedance tomography have been developed. In the this new developed method; current density and finite element method have been used for the derivation of the complex sensitivity matrix. The new developed method was applied in some models and acceptable results were found. By using these method it possible to produce improvement and fast image reconstructions.
Amani SOLIMAN(3-2012)
Publisher's website