Text classification is one of the important areas in natural language processing. The classification problem has been widely studied in data extraction, automated learning, database, and information retrieval with applications in many diverse fields,
such as target marketing, medical diagnosis, newsgroup filtering, document organization, topic identification, . For example, in areas such as Computer Vision, there is a strong consensus on a general way of designing models, neural networks, and other approved methodologies. Otherwise, the classification of the text still lacks this general approach in many areas. In this paper, we aim to provide a comprehensive survey of a variety of methodologies and algorithms used to classify texts and their improvements. We will focus on the main general approaches to text classification algorithms and their usage cases.
يعتبر تركيب الكلام بشكل آلي من أهم المسائل المطروحة في الذكاء الصنعي منذ بداياته، حيث تتزايد الحاجة لأنظمة تركيب كلام مستقرة بحيث تنتج خطاباً ذكياً مع كيفية الكلام الطبيعي. تركيب الكلام speech synthesis يعتبر الأهم في تصنيع آلات متحدثة قادرة على التو
اصل مع الإنسان بطريقة فعالة وبسيطة، سواء في أنظمة الحوار الآلي Auto dialogue systems، توليد آلي للكتب الصوتية Auto generating of Audio books، متحدث مساعد لذوي الاحتياجات الخاصة different able humans، وغير ذلك من الأنظمة التي تحتاجها البشرية اعتماداً على معالجة اللغات الطبيعيةNatural language processing وفهم الكلام Language Understanding في سبيل خدمة التواصل بين الآلة والإنسان Human-computer Interaction.
The word "massive data" spread in 2017 and became the most common in the industry of advanced technology, it uses automated learning that allows computers to analyze past data and predict future data widely in familiar places. Non-automated learning
professionals can use it too. To study the analytical method of statistical Automatic learning, it is necessary to identify the concept of artificial intelligence and its main classification and analytical techniques included and represent in automatic learning and deep learning. Automatic learning has developed thanks to some breakthroughs in artificial intelligence. It is an awareness of the efficient teaching of computers in addition to the invention of the Internet. Neural networks have an important role to play in teaching computers, such as humans, where they use data they can access to make decisions. There are many algorithms for learning about automatic learning. In our study, we demonstrate the methods and applications of automated statistical analysis, such as regression analysis, decision tree, middle method k and association analysis.
With the increase in social networks, people have started to share information via different types of social media. Among themwere sites for exchanging people's opinions and others to exchange stories about real life and stories for children. In this
work we made use of children's stories and employed them to teach children with Down syndrome the correct feelings by reading a story for them, converting it into text, processing the text using natural languages and extracting feelings automatically from This story, and to achieve this, we used several techniques, combined them, and compared their results on a number of short stories dedicated to children, where each of the different techniques that were unsupervised, such as Dictionary Based or supervised, such as data-dependent neural networks, were used to analyze feelings, where we used multiple classifiers. They are Support Vector Machine, Stochastic Gradient Descent, Decision Tree, Random Forest, Naïve Bayes, K-Nearest Neighbor, and Nearest Centroid We also used deep neural networks as the example of RNN. Finally, the correct sentiment for the story was reached through Dictionary Based which gave the best accuracy and then showed a photo that shows the child the expression they want to start with The events of this story to interact with him and learn the correct expression
The project aims primarily to employ the benefits of artificial intelligence, specifically the characteristics of programming a neuronal network where neuronal networks, in turn, are networks that are interested in trainin
g and learning from error, and employing this error to achieve optimal results.Convolution NeuralNetworks(CNN)in particular are one of the most important neuronal networks that address classification problems and issues. Thus, this project is to design a convolution neuronal network that classifies vehicles into several types where we will design the network and train them on the database as the database includes pictures of several types of vehicles The network will classify each Image to its type, after adjusting the images, making the appropriate changes, turning them gray, and discovering the edges and lines.After the images are ready, the training process will begin, and after the training process is finished, we will produce classification results, and then we will test with a new set of images.One of the most important applications of this project is to abide by the paving places of cars, trucks, and vehicles in general, as if a picture was entered as a car for the car sample, which is a truck, for example, this will give an error where the network will discover this by examining and classifying it. As a truck, we discover that there is a violation of the paving laws
Recently, a class of tracking techniques called "tracking by detection" has been shown to give promising results at real-time speeds. These methods train a discriminative classifier in an online manner to separate the object from the background. This
classifier bootstraps itself by using the current tracker state to extract positive and negative examples from the current frame. Slight inaccuracies in the tracker can therefore lead to incorrectly labeled training examples, which degrade the classifier and can cause drift. In this paper, we show that usingSimple Online and Realtime Tracking (SORT) which is a pragmatic approach to multiple object tracking with a focus on simple, effective algorithms
دراسة الهياكل الجيولوجية المكشوفة على سطح الأرض ذات أهمية كبيرة بشكل عام وخصوصا في التصميم الهندسي والبناء.
في هذا البحث ، استخدمنا 2206 صورة مع 12 ملصق للتعرف على الهياكل الجيولوجية بناءً على نموذج Inception-v3. تم اعتماد الصور ذات التدرج الرمادي و
اللون في النموذج. كما تم بناء نموذج الشبكة العصبية التلافيفية (CNN) وتم تطبيق خوارزمية أقرب جار (KNN) والشبكة العصبية الاصطناعية (ANN) وتعزيز التدرج الشديد (XGBoost) في تصنيف الهياكل الجيولوجية بناءً على الميزات المستخرجة من مكتبة رؤية الكمبيوتر مفتوحة المصدر (OpenCV).
أخيرًا ، تمت مقارنة أداء الطرق الخمس وأظهرت النتائج أن أداء KNN و ANN و XGBoost كان ضعيفًا وبدقة أقل من 40.0٪. أما CNN فعد عانت من فرط التدريب Overfitting.
كان للنموذج الذي تم تدريبه باستخدام التعلم بالنقل تأثير كبير على مجموعة بيانات صغيرة من صور التركيب الجيولوجي. وأفضل نموذجين وصلوا إلى دقة 83.3٪ و 90.0٪ على التوالي. هذا يدل على أن النسيج هو السمة الرئيسية في هذا البحث. يمكن أن يستخرج التعلم القائم على نموذج التعلم العميق ميزات بيانات البنية الجيولوجية الصغيرة بشكل فعال ، وهو قوي في تصنيف صور الهيكل الجيولوجي.
