Artificial Intelligence

Master AI from basics to breakthroughs—no experience needed.

Learn Artificial Intelligence and build the smart solutions of tomorrow

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Duration

4 months

64 hours, 4 hours / week

Method of Teaching

Online with materials provided

Taught in English

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About this course

  • Understand the basics of Python programming language.
  • Gain knowledge of artificial intelligence and its applications.
  • Utilize Python libraries for AI development.
  • Set up a Python environment for AI projects.
  • Upskill on NLP with LSTM
  • Apply machine learning techniques using Python, including
    supervised and unsupervised learning, data manipulation,
    preprocessing, feature selection, and model evaluation.
  • Learn about deep learningconcepts, including neuralnetworks,
    activation functions, training, optimization, and convolutional neural
    networks (CNN).
  • Use TensorFlow and Keras for deep learning projects in Python.

Modules

This Python syllabus provides a comprehensive introduction to programming with Python, covering its history and general-purpose capabilities. Key topics include the differences between compilers and interpreters, error types, and how Python executes code. It emphasizes applications in artificial intelligence, including neural networks and natural language processing.

Core concepts include syntax, data types, control statements, and data structures such as strings, lists, tuples, sets, and dictionaries. The course also explores functions, recursion, and lambda functions. Overall, it equips learners with the skills to effectively apply Python in various fields, particularly in AI and data science.

This training covers advanced Python skills, including exception handling, regular expressions, and file operations. It dives into data analysis with NumPy and Pandas, exploring data manipulation, indexing, grouping, and merging. It also teaches data visualization with Matplotlib and Seaborn, guiding learners to create plots, analyze distributions, and refine data insights effectively.

This module provides an in-depth introduction to machine learning, covering both supervised and unsupervised learning techniques. It explores key statistical concepts like central tendency, probability, and correlation, followed by error metrics and outlier analysis. Learners will dive into machine learning algorithms, including regression models, decision trees, SVMs, and ensemble methods (Random Forest, Gradient Boosting, XGBoost). It also includes unsupervised learning topics like clustering (K-means, DBSCAN) and dimensionality reduction through PCA. Hands-on labs using Scikit-Learn and real-world datasets help learners build, evaluate, and optimize models effectively.

This module focuses on time series modeling, beginning with an overview of key concepts and objectives. Learners will explore various time series pattern types in two parts, distinguishing between different behaviors in data over time. The module covers essential topics such as white noise and the importance of stationarity in time series analysis. Additionally, it addresses techniques for removing non-stationarity, equipping learners with the skills to effectively analyze and model time-dependent data.

This module focuses on advanced topics in natural language processing (NLP) and deep learning. It covers essential text extraction and preprocessing techniques such as lemmatization, POS tagging, and named entity recognition, alongside frequency distribution and word vector models like Word2Vec and GloVe. Learners will explore neural networks, including artificial neural networks (ANN), convolutional neural networks (CNN), and recurrent neural networks (RNN), with practical applications in image classification and time series prediction using LSTM. The module also addresses AI applications in healthcare, finance, and robotics, as well as ethical considerations, reinforcement learning, and advanced concepts like GANs and explainable AI.

This module focuses on industry projects that apply advanced data science and machine learning techniques. The first project involves sentiment analysis for customer feedback, aimed at improving customer experience for a global e-commerce giant. The second project focuses on image recognition for product quality control, enhancing manufacturing efficiency at a leading tech startup. These projects provide practical insights into how data-driven approaches can optimize operations and enhance user satisfaction in real-world applications.

Course Highlights

Certificate of Completion & portfolio of AI projects

Ideal for learners familiar with Python who want to specialize in AI and Machine Learning

Real-time project work with datasets from Kaggle, UCI ML, and more

Hands-on coding, model building, and deployment skills

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