Machine Learning Certification course detail


Machine learning is closely related to computational statistics which focuses on making predictions using computers. Machine learning algorithms are used in a wide variety of applications, such as email filtering and computer this course will help you the master of skills required to become an expert such skills are Python, ML algorithms,stastics,supervised and unsupervised learning etc this course totally based on popular technology.rcs technologies machine learning certification trainings comes with 24/7 support,many assignments and projects work all are these help to gain real world exposure,experience,and technical skills or knowledge. By get training this course learner can become a successful professional in this course its enhance your technological terms platform.

What will you learn
  • What will you learn in this Machine Learning certification training?

    As part of this ML program, you will master the skills mentioned below, and you will become a successful Machine Learning Engineer: 1. Teaching machines using data 2. Representation of artificial neural networks 3. Understanding supervised and unsupervised learning in depth 4. Categorizing data using Python and logistic regression 5. Understanding k-means clustering, decision trees, and Naive Bayes 6. Mastering random forest and designing various applications 7. Performing linear regression on multiple variables using Python 8. Natural Language Processing and text mining using Python 9. Mastering the fundamentals of Deep Learning 10. Time series analysis and creating models for the analysis

  • Why should you learn Machine Learning?

    There are over 7,332 ML jobs available on LinkedIn in India alone. 1. As per Indeed, the average income of Machine Learning Engineers is about USDollar140,579 per annum in the United States 2. The growth rate for ML jobs is about 350%! 3. Automation is the trending face of technology. In the world we live in today, ML has proved itself to be among the hottest and demanding technologies available out there.

  • Who should take up this Machine Learning Training?

    Our ML certification training is curated and designed for: 1. Professionals working in the domains of Data Science, Analytics, and BI 2. Professionals employed in fields of search engines and e-commerce 3. Professionals seeking a career change 4. Undergraduates and freshers

  • What are the prerequisites for taking up this Machine Learning classes?

    Everyone can take up this Machine Learning online course regardless of their prior knowledge and experience.

  • What are the objectives of RCS TechnologiesMachine Learning certification course?

    Through our Machine Learning training online, you will master the key concepts of this trending field, such as Python programming, supervised and unsupervised learning, Naive Bayes, NLP, Deep Learning fundamentals, time series analysis, and more. Each session ends with assignments and tasks that you need to solve based on the available dataset. Further, you will work on many industry-specific projects that will solidify your skills and help you find a rewarding job! Also, we will help you in your career with our exclusive job support services.

  • How do you become a certified Machine Learning engineer?

    RCS Technologies offers one of the best Machine Learning training courses that cover all the skills required to become proficient in the ML domain. You will be working on real-world projects that would further enhance your understanding.

  • What kind of projects will you work on in this applied Machine Learning online program?

    1. As part of this ML program, you will work on real-world projects in the fields of e-commerce, automation, marketing, sales, banking, Internet, insurance, and more. 2. Our projects include building a chatbot to answers customer queries, building a recommendation system, fare prediction for taxi booking, analyzing the trends of COVID-19 with Python, customer churn classifier, etc. 3. Upon the successful project completion, your skills will be equivalent to 6 months of comprehensive industry experience.

Key Features
  • 1.32 Hrs Instructor Led Training
  • 2. 32 Hrs Self-paced Videos
  • 3.64 Hrs Project work &
  • 4.Exercises
  • 5.Certification and Job Assistance
  • 6.Flexible Schedule
  • 7. Lifetime Free Upgrade 24 x 7 Lifetime Support & Access


  • 9 Lessons
  • 1.1 Need of Machine Learning

    1.2 Introduction to Machine Learning

    1.3 Types of Machine Learning, such as supervised, unsupervised, and reinforcement learning, Machine Learning with Python, and the applications of Machine Learning


  • 2.1 Introduction to supervised learning and the types of supervised learning, such as regression and classification

    2.2 Introduction to regression

    2.3 Simple linear regression

    2.4 Multiple linear regression and assumptions in linear regression

    2.5 Math behind linear regression


    Hands-on Exercise:


    1. Implementing linear regression from scratch with Python

    2. Using Python library Scikit-Learn to perform simple linear regression and multiple linear regression

    3. Implementing train–test split and predicting the values on the test set

  • 3.1 Introduction to classification

    3.2 Linear regression vs logistic regression

    3.3 Math behind logistic regression, detailed formulas, the logit function and odds, confusion matrix and accuracy, true positive rate, false positive rate, and threshold evaluation with ROCR


    Hands-on Exercise:

    1. Implementing logistic regression from scratch with Python

    2. Using Python library Scikit-Learn to perform simple logistic regression and multiple logistic regression

    3. Building a confusion matrix to find out accuracy, true positive rate, and false positive rate

  • 4.1 Introduction to tree-based classification

    4.2 Understanding a decision tree, impurity function, entropy, and understanding the concept of information gain for the right split of node

    4.3 Understanding the concepts of information gain, impurity function, Gini index, overfitting, pruning, pre-pruning, post-pruning, and cost-complexity pruning

    4.4 Introduction to ensemble techniques, bagging, and random forests and finding out the right number of trees required in a random forest


    Hands-on Exercise:

    1. Implementing a decision tree from scratch in Python

    2. Using Python library Scikit-Learn to build a decision tree and a random forest

    3. Visualizing the tree and changing the hyper-parameters in the random forest


  • 5.1 Introduction to probabilistic classifiers

    5.2 Understanding Naïve Bayes and math behind the Bayes theorem

    5.3 Understanding a support vector machine (SVM)

    5.4 Kernel functions in SVM and math behind SVM


    Hands-on Exercise:

    1. Using Python library Scikit-Learn to build a Naïve Bayes classifier and a support vector classifier

  • 6.1 Types of unsupervised learning, such as clustering and dimensionality reduction, and the types of clustering

    6.2 Introduction to k-means clustering

    6.3 Math behind k-means

    6.4 Dimensionality reduction with PCA


    Hands-on Exercise:

    1. Using Python library Scikit-Learn to implement k-means clustering

    2. Implementing PCA (principal component analysis) on top of a dataset

  • 7.1 Introduction to Natural Language Processing (NLP)

    7.2 Introduction to text mining

    7.3 Importance and applications of text mining

    7.4 How NPL works with text mining

    7.5 Writing and reading to word files

    7.6 Language Toolkit (NLTK) environment

    7.7 Text mining: Its cleaning, pre-processing, and text classification


    Hands-on Exercise:

    1. Learning Natural Language Toolkit and NLTK Corpora

    2. Reading and writing .txt files from/to a local drive

    3. Reading and writing .docx files from/to a local drive

  • 8.1 Introduction to Deep Learning with neural networks

    8.2 Biological neural networks vs artificial neural networks

    8.3 Understanding perception learning algorithm, introduction to Deep Learning frameworks, and TensorFlow constants, variables, and place-holders

  • 9.1 What is time series? Its techniques and applications

    9.2 Time series components

    9.3 Moving average, smoothing techniques, and exponential smoothing

    9.4 Univariate time series models

    9.5 Multivariate time series analysis

    9.6 ARIMA model and time series in Python

    9.7 Sentiment analysis in Python (Twitter sentiment analysis) and text analysis


    Hands-on Exercise:

    1. Analyzing time series data

    2. The sequence of measurements that follow a non-random order to recognize the nature of the phenomenon

    3. Forecasting the future values in the series


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Nitin Singh – 2020-09-24 14:49:05:

training was really goood.