Your search keyword '"Shertil, Mahmud"' showing total 3 results

1. Applying the genetic algorithm in nanotechnology for particle optimal space nano measurement.

Author

Amarif, Mabroukah, Elssaedi, Mosbah, Abubaker, Abuagila, Elsherif, Adnan, and Shertil, Mahmud

Subjects

SCIENTIFIC method, ARTIFICIAL intelligence, GENETIC algorithms, FUZZY logic, RESEARCH personnel

Abstract

Nanotechnology invades all fields of the science to become the focus of attention of the researchers over the entire wild world. This technique allows the controlling of the atom and being able to move it freely and easily within an element or compound. Upon these operations, the properties of materials may change and it is possible to obtain new compounds that cannot be obtained by the available scientific methods. It also focuses on the processes of separating, combining, and reforming materials with a single atom or part. Artificial intelligence applications have played an important role in accelerating the space of nanoscale measurements of elements and various algorithms have been proposed in order to improve that. The neural networks, which are used for image recognition, fuzzy logic which is used for prediction and the Genetic Algorithm (GA) for optimization are the most known one. In addition, GA has the ability to improve a set of solutions in order to obtain the optimal one according to tuning of the specific parameters. This paper aims to propose an algorithm based on the original GA to enable reconfiguration of the particles of an element in order to obtain the largest possible space between the particles or atoms of the elements. The available space within an atomic element or molecule is estimated in nanometers. This gives the opportunity for the possibility of proper exploitation of such spaces in more clear and accurate industries manners according to the properties of the resulting material. [ABSTRACT FROM AUTHOR]

Published

2024

2. On the importance of sluggish state memory for learning long term dependency

Author

Tepper, Jonathan A., Shertil, Mahmud S., and Powell, Heather M.

Published

2016

3. Appliying neural networks to character recognition

Author

Shertil, Mahmud Saad, Sebetci, Ali, and Diğer

Subjects

Computer Engineering and Computer Science and Control, Bilgisayar Mühendisliği Bilimleri-Bilgisayar ve Kontrol

Abstract

ÖZ SINIR AĞLARININ KARAKTER TANIMLAMASINDA UYGULANMASI Mahmud Saad Shertil Yüksek Lisans, Bilgisayar Mühendisliği Tez Yöneticisi: Asst. Prof. Dr. Ali SEBETCİ Haziran 2005, 79 Sayfa Optiksel karakter tanımlaması (OKM) atomik model tanımlamasında dünyada en yaygın kullanılan uygulamalardan biridir ve 1950'li yıllardan bu yana oldukça aktif bir araştırma alanına sahiptir. Günümüzde bu alanda kullanılmakta olan bir takım algoritmalar ve bu algoritmalarında her birinin kendine özgü zayıf ve güçlü yanları mevcuttur.Bu tez çalışmasında katman sayısı ve her katmanda bulunan sinir sayısı göz önünde bulundurularak ve geri dağılım şebekesine 2 farklı yaklaşımda bulunularak 2 farklı veri kümesi oluşturduk ve bu yolla sinir ağlan için en iyi topolojiyi araştırdık. Daha sonra sonuçlan karşılaştırarak elde edilen optimum parametre kümesinin hem el yazısı hem de bilgisayar karakter çıktısı için geçerli olduğunu gösterdik. Sözü geçen karakter veri kümesi 16 farklı özellikli 20000 örnek ve 26 sınıftan oluşmaktadır.Burada sonuçlarımızı doğrudan etkileyen sınıf sayısının özellik sayısından sayıca daha fazla olduğu görünmektedir. El yazımı karakterlerden oluşan 2. veri kümesi ise 64 özellikli 5620 örnek ve 10 farklı sınıftan oluşmaktadır.Buradan sonuçların birinci veri kümesinden daha iyi olduğunu gözlemliyoruz. Anahtar Kelimeler: Optiksel karakter Tanımlaması, Sinir Ağlan, Ağ Optimizasyonu, Geri dağılım. iv ABSTRACT APPLYING NEURAL NETWORKS TO CHARACTER RECOGNITION Mahmud Saad Shertil Ms, Department of Computer Engineering Supervisor: Asst. Prof. Dr. Ali SEBETCÎ June 2005, 79 Pages Optical Character Recognition (OCR) is one of the most widely used applications of automatic pattern recognition and it is a very active research field since the 50's. Today there are numerous algorithms that perform this task, each with its own strengths and weaknesses. In this thesis we explore neural networks to find the best topology regarding the number of layers and the number of neurons at each layer by classifying two different datasets using backpropagation networks with two different approaches. We then compare the results between them and show that the obtained optimum set of parameters is valid for both printed letter and the handwritten digits. Moreover the letter dataset consists of sixteen features with 20000 samples and twenty-six classes. Here we see that the number of classes is more than the number of features which affects our results. The second dataset which is handwritten digits consists of sixty-four features with 5620 samples and ten classes. Here we see that the results are better than the first dataset Key words: Optical Character Recognition, Neural Networks, Network optimization, Backpropagation iii 95

Published

2005