Udemy - Machine Learning & Deep Learning in Python & R

seeders: 5
leechers: 14
updated:
Added by notmrME in Other > Tutorials

Download Fast Safe Anonymous
movies, software, shows...

Files

Machine Learning & Deep Learning in Python & R
  • Downloaded from 1337x.txt (0.0 KB)
  • 27 ANN in R
    • 008 Saving - Restoring Models and Using Callbacks.mp4 (216.0 MB)
    • 001 Installing Keras and Tensorflow.mp4 (22.8 MB)
    • 002 Data Normalization and Test-Train Split.mp4 (111.8 MB)
    • 003 Building,Compiling and Training.mp4 (130.7 MB)
    • 004 Evaluating and Predicting.mp4 (99.3 MB)
    • 005 ANN with NeuralNets Package.mp4 (84.4 MB)
    • 006 Building Regression Model with Functional API.mp4 (131.1 MB)
    • 007 Complex Architectures using Functional API.mp4 (79.6 MB)
    01 Introduction
    • 002 Course Resources.html (1.2 KB)
    • 001 Introduction.mp4 (29.4 MB)
    02 Setting up Python and Jupyter Notebook
    • 001 Installing Python and Anaconda.mp4 (16.3 MB)
    • 002 This is a milestone!.mp4 (20.7 MB)
    • 003 Opening Jupyter Notebook.mp4 (65.2 MB)
    • 004 Introduction to Jupyter.mp4 (40.9 MB)
    • 005 Arithmetic operators in Python_ Python Basics.mp4 (12.7 MB)
    • 006 Strings in Python_ Python Basics.mp4 (64.4 MB)
    • 007 Lists, Tuples and Directories_ Python Basics.mp4 (60.3 MB)
    • 008 Working with Numpy Library of Python.mp4 (43.9 MB)
    • 009 Working with Pandas Library of Python.mp4 (46.9 MB)
    • 010 Working with Seaborn Library of Python.mp4 (40.4 MB)
    03 Setting up R Studio and R crash course
    • 001 Installing R and R studio.mp4 (35.7 MB)
    • 002 Basics of R and R studio.mp4 (38.8 MB)
    • 003 Packages in R.mp4 (82.9 MB)
    • 004 Inputting data part 1_ Inbuilt datasets of R.mp4 (40.7 MB)
    • 005 Inputting data part 2_ Manual data entry.mp4 (25.5 MB)
    • 006 Inputting data part 3_ Importing from CSV or Text files.mp4 (60.1 MB)
    • 007 Creating Barplots in R.mp4 (96.7 MB)
    • 008 Creating Histograms in R.mp4 (42.0 MB)
    04 Basics of Statistics
    • 001 Types of Data.mp4 (21.8 MB)
    • 002 Types of Statistics.mp4 (10.9 MB)
    • 003 Describing data Graphically.mp4 (65.4 MB)
    • 004 Measures of Centers.mp4 (38.6 MB)
    • 005 Measures of Dispersion.mp4 (22.8 MB)
    05 Introduction to Machine Learning
    • 001 Introduction to Machine Learning.mp4 (109.2 MB)
    • 002 Building a Machine Learning Model.mp4 (39.5 MB)
    06 Data Preprocessing
    • 001 Gathering Business Knowledge.mp4 (22.3 MB)
    • 002 Data Exploration.mp4 (20.5 MB)
    • 003 The Dataset and the Data Dictionary.mp4 (69.3 MB)
    • 004 Importing Data in Python.mp4 (27.8 MB)
    • 005 Importing the dataset into R.mp4 (13.1 MB)
    • 006 Univariate analysis and EDD.mp4 (24.2 MB)
    • 007 EDD in Python.mp4 (61.8 MB)
    • 008 EDD in R.mp4 (97.0 MB)
    • 009 Outlier Treatment.mp4 (24.5 MB)
    • 010 Outlier Treatment in Python.mp4 (70.3 MB)
    • 011 Outlier Treatment in R.mp4 (30.7 MB)
    • 012 Missing Value Imputation.mp4 (25.0 MB)
    • 013 Missing Value Imputation in Python.mp4 (23.4 MB)
    • 014 Missing Value imputation in R.mp4 (26.0 MB)
    • 015 Seasonality in Data.mp4 (17.0 MB)
    • 016 Bi-variate analysis and Variable transformation.mp4 (100.4 MB)
    • 017 Variable transformation and deletion in Python.mp4 (44.1 MB)
    • 018 Variable transformation in R.mp4 (55.4 MB)
    • 019 Non-usable variables.mp4 (20.2 MB)
    • 020 Dummy variable creation_ Handling qualitative data.mp4 (36.8 MB)
    • 021 Dummy variable creation in Python.mp4 (26.5 MB)
    • 022 Dummy variable creation in R.mp4 (44.0 MB)
    • 023 Correlation Analysis.mp4 (71.6 MB)
    • 024 Correlation Analysis in Python.mp4 (55.3 MB)
    • 025 Correlation Matrix in R.mp4 (83.1 MB)
    07 Linear Regression
    • 001 The Problem Statement.mp4 (9.4 MB)
    • 002 Basic Equations and Ordinary Least Squares (OLS) method.mp4 (43.4 MB)
    • 003 Assessing accuracy of predicted coefficients.mp4 (92.1 MB)
    • 004 Assessing Model Accuracy_ RSE and R squared.mp4 (43.6 MB)
    • 005 Simple Linear Regression in Python.mp4 (63.4 MB)
    • 006 Simple Linear Regression in R.mp4 (40.8 MB)
    • 007 Multiple Linear Regression.mp4 (34.3 MB)
    • 008 The F - statistic.mp4 (56.0 MB)
    • 009 Interpreting results of Categorical variables.mp4 (22.5 MB)
    • 010 Multiple Linear Regression in Python.mp4 (69.7 MB)
    • 011 Multiple Linear Regression in R.mp4 (62.4 MB)
    • 012 Test-train split.mp4 (41.9 MB)
    • 013 Bias Variance trade-off.mp4 (25.1 MB)
    • 014 Test train split in Python.mp4 (44.9 MB)
    • 015 Test-Train Split in R.mp4 (75.6 MB)
    • 016 Regression models other than OLS.mp4 (16.5 MB)
    • 017 Subset selection techniques.mp4 (79.1 MB)
    • 018 Subset selection in R.mp4 (63.5 MB)
    • 019 Shrinkage methods_ Ridge and Lasso.mp4 (33.3 MB)
    • 020 Ridge regression and Lasso in Python.mp4 (128.8 MB)
    • 021 Ridge regression and Lasso in R.mp4 (103.4 MB)
    • 022 Heteroscedasticity.mp4 (14.5 MB)
    08 Classification Models_ Data Preparation
    • 001 The Data and the Data Dictionary.mp4 (79.0 MB)
    • 002 Data Import in Python.mp4 (22.1 MB)
    • 003 Importing the dataset into R.mp4 (13.5 MB)
    • 004 EDD in Python.mp4 (77.6 MB)
    • 005 EDD in R.mp4 (66.5 MB)
    • 006 Outlier treatment in Python.mp4 (47.3 MB)
    • 007 Outlier Treatment in R.mp4 (25.4 MB)
    • 008 Missing Value Imputation in Python.mp4 (22.6 MB)
    • 009 Missing Value imputation in R.mp4 (19.0 MB)
    • 010 Variable transformation and Deletion in Python.mp4 (29.3 MB)
    • 011 Variable transformation in R.mp4 (38.0 MB)
    • 012 Dummy variable creation in Python.mp4 (26.4 MB)
    • 013 Dummy variable creation in R.mp4 (44.4 MB)
    09 The Three classification models
    • 001 Three Classifiers and the problem statement.mp4 (20.3 MB)
    • 002 Why can't we use Linear Regression_.mp4 (16.9 MB)
    10 Logistic Regression
    • 001 Logistic Regression.mp4 (32.9 MB)
    • Description

      Knowledge should not be limited to those who can afford it or those willing to pay for it.
      If you found this course useful and are financially stable please consider supporting the creators by buying the course :)



      Machine Learning & Deep Learning in Python & R
      Covers Regression, Decision Trees, SVM, Neural Networks, CNN, Time Series Forecasting and more using both Python & R



      This course includes:
      * 35 hours on-demand video




      What you'll learn
      * Learn how to solve real life problem using the Machine learning techniques
      * Machine Learning models such as Linear Regression, Logistic Regression, KNN etc.
      * Advanced Machine Learning models such as Decision trees, XGBoost, Random Forest, SVM etc.
      * Understanding of basics of statistics and concepts of Machine Learning
      * How to do basic statistical operations and run ML models in Python
      * Indepth knowledge of data collection and data preprocessing for Machine Learning problem
      * How to convert business problem into a Machine learning problem


      You're looking for a complete Machine Learning and Deep Learning course that can help you launch a flourishing career in the field of Data Science, Machine Learning, Python, R or Deep Learning, right?

      You've found the right Machine Learning course!

      After completing this course you will be able to:

      · Confidently build predictive Machine Learning and Deep Learning models using R, Python to solve business problems and create business strategy

      · Answer Machine Learning, Deep Learning, R, Python related interview questions

      · Participate and perform in online Data Analytics and Data Science competitions such as Kaggle competitions

      Check out the table of contents below to see what all Machine Learning and Deep Learning models you are going to learn.

      How this course will help you?

      A Verifiable Certificate of Completion is presented to all students who undertake this Machine learning basics course.

      If you are a business manager or an executive, or a student who wants to learn and apply machine learning and deep learning concepts in Real world problems of business, this course will give you a solid base for that by teaching you the most popular techniques of machine learning and deep learning. You will also get exposure to data science and data analysis tools like R and Python.

      Why should you choose this course?

      This course covers all the steps that one should take while solving a business problem through linear regression. It also focuses Machine Learning and Deep Learning techniques in R and Python.

      Most courses only focus on teaching how to run the data analysis but we believe that what happens before and after running data analysis is even more important i.e. before running data analysis it is very important that you have the right data and do some pre-processing on it. And after running data analysis, you should be able to judge how good your model is and interpret the results to actually be able to help your business. Here comes the importance of machine learning and deep learning. Knowledge on data analysis tools like R, Python play an important role in these fields of Machine Learning and Deep Learning.

      What makes us qualified to teach you?

      The course is taught by Abhishek and Pukhraj. As managers in Global Analytics Consulting firm, we have helped businesses solve their business problem using machine learning techniques and we have used our experience to include the practical aspects of data analysis in this course. We have an in-depth knowledge on Machine Learning and Deep Learning techniques using data science and data analysis tools R, Python.

      We are also the creators of some of the most popular online courses - with over 600,000 enrollments and thousands of 5-star reviews like these ones:

      This is very good, i love the fact the all explanation given can be understood by a layman - Joshua

      Thank you Author for this wonderful course. You are the best and this course is worth any price. - Daisy

      Our Promise

      Teaching our students is our job and we are committed to it. If you have any questions about the course content, practice sheet or anything related to any topic, you can always post a question in the course or send us a direct message. We aim at providing best quality training on data science, machine learning, deep learning using R and Python through this machine learning course.

      Download Practice files, take Quizzes, and complete Assignments

      With each lecture, there are class notes attached for you to follow along. You can also take quizzes to check your understanding of concepts on data science, machine learning, deep learning using R and Python. Each section contains a practice assignment for you to practically implement your learning on data science, machine learning, deep learning using R and Python.

      Table of Contents

      Section 1 - Python basic

      This section gets you started with Python.

      This section will help you set up the python and Jupyter environment on your system and it'll teach you how to perform some basic operations in Python. We will understand the importance of different libraries such as Numpy, Pandas & Seaborn. Python basics will lay foundation for gaining further knowledge on data science, machine learning and deep learning.

      Section 2 - R basic

      This section will help you set up the R and R studio on your system and it'll teach you how to perform some basic operations in R. Similar to Python basics, R basics will lay foundation for gaining further knowledge on data science, machine learning and deep learning.

      Section 3 - Basics of Statistics

      This section is divided into five different lectures starting from types of data then types of statistics then graphical representations to describe the data and then a lecture on measures of center like mean median and mode and lastly measures of dispersion like range and standard deviation. This part of the course is instrumental in gaining knowledge data science, machine learning and deep learning in the later part of the course.

      Section 4 - Introduction to Machine Learning

      In this section we will learn - What does Machine Learning mean. What are the meanings or different terms associated with machine learning? You will see some examples so that you understand what machine learning actually is. It also contains steps involved in building a machine learning model, not just linear models, any machine learning model.

      Section 5 - Data Preprocessing

      In this section you will learn what actions you need to take step by step to get the data and then prepare it for the analysis these steps are very important. We start with understanding the importance of business knowledge then we will see how to do data exploration. We learn how to do uni-variate analysis and bivariate analysis then we cover topics like outlier treatment, missing value imputation, variable transformation and correlation.

      Section 6 - Regression Model

      This section starts with simple linear regression and then covers multiple linear regression.

      We have covered the basic theory behind each concept without getting too mathematical about it so that you understand where the concept is coming from and how it is important. But even if you don't understand it, it will be okay as long as you learn how to run and interpret the result as taught in the practical lectures.

      We also look at how to quantify models accuracy, what is the meaning of F statistic, how categorical variables in the independent variables dataset are interpreted in the results, what are other variations to the ordinary least squared method and how do we finally interpret the result to find out the answer to a business problem.

      Section 7 - Classification Models

      This section starts with Logistic regression and then covers Linear Discriminant Analysis and K-Nearest Neighbors.

      We have covered the basic theory behind each concept without getting too mathematical about it so that you

      understand where the concept is coming from and how it is important. But even if you don't understand

      it, it will be okay as long as you learn how to run and interpret the result as taught in the practical lectures.

      We also look at how to quantify models performance using confusion matrix, how categorical variables in the independent variables dataset are interpreted in the results, test-train split and how do we finally interpret the result to find out the answer to a business problem.

      Section 8 - Decision trees

      In this section, we will start with the basic theory of decision tree then we will create and plot a simple Regression decision tree. Then we will expand our knowledge of regression Decision tree to classification trees, we will also learn how to create a classification tree in Python and R

      Section 9 - Ensemble technique

      In this section, we will start our discussion about advanced ensemble techniques for Decision trees. Ensembles techniques are used to improve the stability and accuracy of machine learning algorithms. We will discuss Random Forest, Bagging, Gradient Boosting, AdaBoost and XGBoost.

      Section 10 - Support Vector Machines

      SVM's are unique models and stand out in terms of their concept. In this section, we will discussion about support vector classifiers and support vector machines.

      Section 11 - ANN Theoretical Concepts

      This part will give you a solid understanding of concepts involved in Neural Networks.

      In this section you will learn about the single cells or Perceptrons and how Perceptrons are stacked to create a network architecture. Once architecture is set, we understand the Gradient descent algorithm to find the minima of a function and learn how this is used to optimize our network model.

      Section 12 - Creating ANN model in Python and R

      In this part you will learn how to create ANN models in Python and R.

      We will start this section by creating an ANN model using Sequential API to solve a classification problem. We learn how to define network architecture, configure the model and train the model. Then we evaluate the performance of our trained model and use it to predict on new data. Lastly we learn how to save and restore models.

      We also understand the importance of libraries such as Keras and TensorFlow in this part.

      Section 13 - CNN Theoretical Concepts

      In this part you will learn about convolutional and pooling layers which are the building blocks of CNN models.

      In this section, we will start with the basic theory of convolutional layer, stride, filters and feature maps. We also explain how gray-scale images are different from colored images. Lastly we discuss pooling layer which bring computational efficiency in our model.

      Section 14 - Creating CNN model in Python and R

      In this part you will learn how to create CNN models in Python and R.

      We will take the same problem of recognizing fashion objects and apply CNN model to it. We will compare the performance of our CNN model with our ANN model and notice that the accuracy increases by 9-10% when we use CNN. However, this is not the end of it. We can further improve accuracy by using certain techniques which we explore in the next part.

      Section 15 - End-to-End Image Recognition project in Python and R

      In this section we build a complete image recognition project on colored images.

      We take a Kaggle image recognition competition and build CNN model to solve it. With a simple model we achieve nearly 70% accuracy on test set. Then we learn concepts like Data Augmentation and Transfer Learning which help us improve accuracy level from 70% to nearly 97% (as good as the winners of that competition).

      Section 16 - Pre-processing Time Series Data

      In this section, you will learn how to visualize time series, perform feature engineering, do re-sampling of data, and various other tools to analyze and prepare the data for models

      Section 17 - Time Series Forecasting

      In this section, you will learn common time series models such as Auto-regression (AR), Moving Average (MA), ARMA, ARIMA, SARIMA and SARIMAX.

      By the end of this course, your confidence in creating a Machine Learning or Deep Learning model in Python and R will soar. You'll have a thorough understanding of how to use ML/ DL models to create predictive models and solve real world business problems.

      Below is a list of popular FAQs of students who want to start their Machine learning journey-

      What is Machine Learning?

      Machine Learning is a field of computer science which gives the computer the ability to learn without being explicitly programmed. It is a branch of artificial intelligence based on the idea that systems can learn from data, identify patterns and make decisions with minimal human intervention.

      Why use Python for Machine Learning?

      Understanding Python is one of the valuable skills needed for a career in Machine Learning.

      Though it hasn’t always been, Python is the programming language of choice for data science. Here’s a brief history:

      In 2016, it overtook R on Kaggle, the premier platform for data science competitions.

      In 2017, it overtook R on KDNuggets’s annual poll of data scientists’ most used tools.

      In 2018, 66% of data scientists reported using Python daily, making it the number one tool for analytics professionals.

      Machine Learning experts expect this trend to continue with increasing development in the Python ecosystem. And while your journey to learn Python programming may be just beginning, it’s nice to know that employment opportunities are abundant (and growing) as well.

      Why use R for Machine Learning?

      Understanding R is one of the valuable skills needed for a career in Machine Learning. Below are some reasons why you should learn Machine learning in R

      1. It’s a popular language for Machine Learning at top tech firms. Almost all of them hire data scientists who use R. Facebook, for example, uses R to do behavioral analysis with user post data. Google uses R to assess ad effectiveness and make economic forecasts. And by the way, it’s not just tech firms: R is in use at analysis and consulting firms, banks and other financial institutions, academic institutions and research labs, and pretty much everywhere else data needs analyzing and visualizing.

      2. Learning the data science basics is arguably easier in R. R has a big advantage: it was designed specifically with data manipulation and analysis in mind.

      3. Amazing packages that make your life easier. Because R was designed with statistical analysis in mind, it has a fantastic ecosystem of packages and other resources that are great for data science.

      4. Robust, growing community of data scientists and statisticians. As the field of data science has exploded, R has exploded with it, becoming one of the fastest-growing languages in the world (as measured by StackOverflow). That means it’s easy to find answers to questions and community guidance as you work your way through projects in R.

      5. Put another tool in your toolkit. No one language is going to be the right tool for every job. Adding R to your repertoire will make some projects easier – and of course, it’ll also make you a more flexible and marketable employee when you’re looking for jobs in data science.

      What is the difference between Data Mining, Machine Learning, and Deep Learning?

      Put simply, machine learning and data mining use the same algorithms and techniques as data mining, except the kinds of predictions vary. While data mining discovers previously unknown patterns and knowledge, machine learning reproduces known patterns and knowledge—and further automatically applies that information to data, decision-making, and actions.

      Deep learning, on the other hand, uses advanced computing power and special types of neural networks and applies them to large amounts of data to learn, understand, and identify complicated patterns. Automatic language translation and medical diagnoses are examples of deep learning.



Download torrent
13.1 GB
seeders:5
leechers:14
Udemy - Machine Learning & Deep Learning in Python & R


Trackers

tracker name
UDP://TRACKER.LEECHERS-PARADISE.ORG:6969/ANNOUNCE
UDP://TRACKER.COPPERSURFER.TK:6969/ANNOUNCE
udp://tracker.opentrackr.org:1337/announce
udp://tracker.openbittorrent.com:6969/announce
UDP://TRACKER.ZER0DAY.TO:1337/ANNOUNCE
UDP://EDDIE4.NL:6969/ANNOUNCE
udp://tracker.moeking.me:6969/announce
udp://retracker.lanta-net.ru:2710/announce
udp://open.stealth.si:80/announce
udp://www.torrent.eu.org:451/announce
udp://wassermann.online:6969/announce
udp://vibe.community:6969/announce
udp://valakas.rollo.dnsabr.com:2710/announce
udp://tracker0.ufibox.com:6969/announce
µTorrent compatible trackers list

Download torrent
13.1 GB
seeders:5
leechers:14
Udemy - Machine Learning & Deep Learning in Python & R


Torrent hash: 697A91B51596CF982E42A422885E106C36158877