التصوير باستخدام طريقة المعاوقة الكهربائية كتقنية تستخدم لأخذ صورة مقطعية وذلك من خلال قياس الموصلية على سطح الجسم , بحيث تكون القيمة التقريبية لتوزيع المقاومة النوعية الداخلية مبنية عن طريق حساب فرق الجهد والتيار الكهربائي. التصوير المقطعي بالمعاوقة الكهربائية عند تردد معين يسمح بتصوير التغيرات فقط في الجزء الحقيقي من الموصلية ويهمل الجزء التخيلي منها والقيم المطلقة. وقد أقترح حلاً لهذه المشكلة باستخدام التصوير المقطعي متعدد التردد التصوير المقطعي بالمعوقة الكهربائية متعددة التردد يعطي صورة ثابتة بواسطة تكوين صورة لتغيير مقاومة الأنسجة مع التردد, ولغرض الحصول على كل المعلومات تم الأخذ في الاعتبار الجزء الحقيقي والتخيلي للموصلية في هذا البحت تم تطوير طريقة جديدة للتصوير الطبقي بالمعاوقة الكهربائية متعددة التردد باستخدام دوال لاجير الثنائية , وحيث أن تحسين صورة التصوير المقطعي بالمعاوقة الكهربائية يعتمد على كمية المعلومات التي يمكن الحصول عليها من القياسات الحدودية تم الأخذ في الاعتبار الجزء الحقيقي والتخيلي للموصلية لقد تم تطبيق هذه الطريقة والحصول على نتائج جيدة من حيث جودة الصورة مقارنة بنتائج تم الحصول عليها في أبحاث سابقة. Abstract Electrical Impedance Tomography (EIT) is a technique which allows cross- sectional image related to the electrical impedance within an object to be reconstructed from a set of measurements made on the object surface. EIT aims to image the conductivity distribution within a test object by making electrical measurements on the surface of the object. In single frequency Electrical Impedance Tomography only the change in the real part of the conductivity can be imaged and not those of the imaginary part of the conductivity or of the absolute values. Multi-frequency Electrical Impedance Tomography has been proposed to solve this problem. In this thesis, there is a new method using Laguerre function in multi-frequency Electrical Impedance Tomography which has been developed, and full information contained in the complex tissue conductivity can be obtained.
جلال مفتاح مهلهل (2009)

In this paper, a customized Auto-Encoder Complex Valued Convolutional Neural Network (AE-CV-CNN) that has been developed in a prior work is applied to Single Symbol Generalized Spatial Modulation (SS-GSM) scheme with new extracted features. The achieved reductions in the computational complexity at the receiver is at least 63.64% for M-PSK schemes compared to the complexity of Maximum Likelihood (ML) detection algorithm. This Fast detection algorithm is based on a proposed Low Complexity ML (LC-ML) detector that affords a complexity reduction of at least 40.91%. With these proposed algorithms, the complexity is reduced as the spatial constellation size increases. Furthermore, in comparison to other sub optimal detection algorithms, the computational complexity in terms of real valued multiplications of the AE-CV-CNN applied to LC-ML is independent of the spatial spectrum efficiency which means that the total spectrum efficiency increases with larger spatial constellation size at no additional complexity.
Akram A. Marseet , Taissir Y. Elganimi(10-2019)

Abstract Most of the controllers used in industries are of PID type, this is because they have simple structure and their usage is well known among industrial specialists. The tuning of controllers is the crucial issue in the overall control loop design in order to obtain a satisfactory performance response. Over the past decades many tuning techniques were developed to adjust the controller parameters. Most of these techniques have the disadvantages of giving a combination of heavy oscillatory response, large overshoot, and long settling and rise time. This work presents a fuzzy logic-PID scheme, the basic concept behind this scheme is to combine the conventional PID controller with the use of fuzzy logic concept. The PID controller regulates the process, while the fuzzy logic part adjusts the proportional gain of the controller. This scheme will be used to overcome the previous disadvantages and to improve the performance of the conventional controller. The effectiveness of fuzzy logic-PID scheme has been analyzed through computer simulation using MATLAB. The results have been compared with those of Ziegler-Nichols, Chien-Hrones-Reswick, Cohen-Coon, Optimum PID controller and a PID with constant and variable weighting factor. This comparison has shown a considerable improvement in the performance of the transient response for different simulated processes
علي عبدالرحمن بن عاشور (2008)