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📅 Course Duration
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💰 Course Price
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📄 Course Content
Best Data Science Training in Chennai
- 60+ Hrs Hands on Training
- Hands-on learning in 2 Live Projects.
- 50 Hrs Practical assignments
- 24/7 Life time support group.
Overview of Data Science Course
In the technologically driven world, the data is now one of the significant determinants in any business decision making. In order to follow a successful career in one of the thriving professions, data science, Data science training in Chennai is the right place to be attended. Through this professional course, you are able to gain the required practice in data analytics, machine learning, Python, R, and artificial intelligence and become a data professional with high demand.
Why is Chennai the best place for Data Science Online Training?
The Data Science Training in Chennai is aimed at those who have not received any training as well as those having a job and wanting to shift their job specialty and go data-centric. Due to the unabated growth of the IT, manufacturing, and analytics sectors of Chennai, the demand of skilled data scientists is growing as well. Taking this course, you will be able to enjoy a hands-on experience with such tools like Python, SQL, Power BI, Tableau, and Hadoop, which are trending in business.
The Data Science Course in Chennai is practical and prepares students on how to solve business problems with the assistance of a data-driven approach. Such knowledge will involve the whole-view training, the data collection and analysis, and presentation, which will bring you industry-ready the first day.
Key Highlights of Data Science Course in Chennai at Version IT
Data Science Online Course in Chennai at Version IT offers:
- Complete Curriculum: Learn the fundamentals of data science, statistics, and AI.
- Experiential Learning: Understand projects and data in the real world in the following areas: healthcare, financial, retail.
- Professional Certification: You can obtain the professional certificate upon completion of Data Science Course in Chennai and which will increase your investment in a job.
- Expert Mentorship: Be guided by data scientists and industry experts of the highest skill.
- Online and offline options: Flexible learning modes which you may apply based on your learning style.
Careers After Data Science Training
Career need is also another option that students, having completed Data Science Online Training in Chennai, can follow and includes:
- Data Analyst
- Data Scientist
- Business Intelligence Analyst.
- Machine Learning Engineer
- Data Engineer
The demand for professional employees is on the rise, and the corporations of Chennai like TCS, Cognizant, Accenture, and Infosys are constantly seeking data professionals. You will have them through this program, and you will be aggressive in taking challenging data jobs in the most desirable organizations.
Why Choose Our Data Science Course in Chennai?
When it comes to the selection of the appropriate institute to pursue the Data Science Course in Chennai, everything does count. The right mix of theory and practice will be offered in our program. Being concentrated on analytical thinking, resolution of practical problems, and modern technologies, the students get confident that they can work with the complex business cases.
Our trainers send you all the aspects of data modeling, machine learning algorithms, and statistical analysis so that you not only have a clear understanding of the concepts but have a technical one.
Learn to be an Expert Data Analyst with Industry-Relevant Skills
Should you be interested in becoming a Data Analyst, we have a course on Data Analytics in Chennai where we will provide you with everything you need to be one. You will be taught how to operate data visualization, Excel analytics, Power BI, and SQL. The other skill that every company should have is the ability to derive meaningful business insights on real data sets which is also learned during the course.
The professionals who have been working in the finance, marketing, and IT fields and have a background in Chennai would also need to take the Data Analyst course to upskill and get a better career opportunity.
Online Data Analyst Flexible and Career-Oriented Course in Chennai
The Data Science Training course in Chennai is worth considering by the individuals who are considering distance education. The program is also online and offers, flexible time schedule, real-time learning courses and mentor guided classes and this aspect makes the program good to every working professional and student. You can do your studies at the same pace without necessarily compromising on the quality of instruction.
The Data Analyst degree in distance education at Chennai has practical projects and capstone works which are similar to industry problems in real life. Not only will you be able to gain technical competencies that will make you stand out in the job market, but you can also switch professions with this program either as a novice to analytics or as someone who wants to switch careers.
Skills You’ll Learn
Taking the Data Science course online in Chennai at Version IT, you will learn:
- Python and R programming
- Preprocessing and data cleaning.
- Ocular display and statistical analysis.
- SQL and Power BI
- Introduction to Machine Learning and AI.
- Big Data and Hadoop basics
- The skills equip you with end-to-end data analysis, including processing data pipelines and actually making decisions.
Who is eligible to take Training in Data Science?
The Data Science Training is ideal for:
- Students starting a career in data science.
- IT specialists intending to move to analytics.
- Engineers and business analysts retraining their skills.
People interested in AI, machine learning and data visualization.
Version IT’s Career Advice and Placement Services
We offer a Data Science Course in Chennai that has exclusive career assistance. We offer:
- Resume construction and interviewing.
- Simulated interviews and competency tests.
- Recruitment support of partner firms.
- Having a 100% placement guidance, our Data Science Training in Chennai will make sure that all learners get a clear career path in their life upon completing the course.
Why is Data Science the Future?
The world is making massive data on a daily basis. This information needs to be translated into actionable information and this should be done by specialists that companies need to acquire. It is the place of data science. With the Data science training in Chennai, you will be competitive on the market that is in high demand. Data scientists now more than ever as more and more industries, including fintech, e-commerce, healthcare, and others, emerge.
Topics You will Learn
● Introduction to Data Science
○ Introduction to Data Science
○ Discussion on Course Curriculum
○ Introduction to Programming
● Python Basics
○ Introduction to Python: Installation and Running (Jupyter Notebook, .pyf
ile from terminal, Google Colab)
○ Data types and type conversion
○ Variables
○ Operators
○ Flow Control : If, Elif, Else
○ Loops
○ Python Identifier
○ Building Funtions (print, type, id, sys, len)
● Python – Data Types & Utilities
○ List, List of Lists and List Comprehension
○ List creation
○ Create a list with variable
○ List mutable concept
○ len() || append() || pop()
○ insert() || remove() || sort() || reverse()
○ Forward indexing
○ Backward Indexing
○ Forward slicing
○ Backward slicing
○ Step slicing
● Set
○ SET creation with variable
○ len() || add() || remove() || pop()
○ union() | intersection() || difference()
● Tuple
○ TUPLE Creation
○ Create Tuple with variable
○ Tuple Immutable concept
○ len() || count() || index()
○ Forward indexing
○ Backward Indexing
● Dictionary and Dictionary comprehension
○ create a dictionary using variable
○ keys:values concept
○ len() || keys() || values() || items()
○ get() || pop() || update()
○ comparision of datastructure
○ Introduce to range()
○ pass range() in the list
○ range() arguments
○ For loop introduction using range()
● Functions
○ Inbuilt vs User Defined
○ User Defined Function
○ Function Argument
○ Types of Function Arguments
○ Actual Argument
○ Global variable vs Local variable
○ Anonymous Function | LAMBDA
● Packages
● Map Reduce
● OOPs
● Class & Object
○ what is mean by inbuild class
○ how to creat user class
○ crate a class & object
○ __init__ method
○ python constructor
○ constructor, self & comparing objects
○ instane variable & class variable
● Methods
○ what is instance method
○ what is class method
○ what is static method
○ Accessor & Mutator
● Python DECORATOR
○ how to use decorator
○ inner class, outerclass
○ Inheritence
● Polymorphism
○ duck typing
○ operator overloading
○ method overloading
○ method overridding
○ Magic method
○ Abstract class & Abstract method
○ Iterator
○ Generators in python
● Python – Production Level
○ Error / Exception Handling
○ File Handling
○ Docstrings
○ Modularization
● Pickling & Unpickling
● Pandas
○ Introduction, Fundamentals, Importing Pandas, Aliasing, DataFrame
○ Series – Intro, Creating Series Object, Empty Series Object, Create series
from List/Array/Column from DataFrame, Index in Series, Accessing
values in Series
○ NaN Value
○ Series – Attributes (Values, index, dtypes, size)
○ Series – Methods – head(), tail(), sum(), count(), nunique() etc.,
○ Date Frame
○ Loading Different Files
○ Data Frame Attributes
○ Data Frame Methods
○ Rename Column & Index
○ Inplace Parameter
○ Handling missing or NaN values
○ iLoc and Loc
○ Data Frame – Filtering
○ Data Frame – Sorting
○ Data Frame – GroupBy
○ Merging or Joining
○ Data Frame – Concat
○ DataFrame – Adding, dropping columns & rows
○ DataFrame – Date and time
○ DataFrame – Concatenate Multiple csv files
● Numpy
○ Introduction, Installation, pip command, import numpy package, Module
Not Found Error, Famous Alias name to Numpy
○ Fundamentals – Create Numpy Array, Array Manipulation, Mathematical
Operations, Indexing & Slicing
○ Numpy Attributes
○ Important Methods- min(),max(), sum(), reshape(), count_nonzero(),
sort(), flatten() etc.,
○ adding value to array of values
○ Diagonal of a Matrix
○ Trace of a Matrix
○ Parsing, Adding and Subtracting Matrices
○ “Statistical Functions: numpy.mean()
○ numpy.median()
○ numpy.std()
○ numpy.sum()
○ numpy.min()”
○ Filter in Numpy
● Matplotlib
○ Introduction
○ Pyplot
○ Figure Class
○ Axes Class
○ Setting Limits and Tick Labels
○ Multiple Plots
○ Legend
○ Different Types of Plots
○ Line Graph
○ Bar Chart
○ Histograms
○ Scatter Plot
○ Pie Chart
○ 3D Plots
○ Working with Images
○ Customizing Plots
● Seaborn
○ catplot() function
○ stripplot() function
○ boxplot() function
○ violinplot() function
○ pointplot() function
○ barplot() function
○ Visualizing statistical relationship with Seaborn relplot() function
○ scatterplot() function
○ regplot() function
○ lmplot() function
○ Seaborn Facetgrid() function
○ Multi-plot grids
○ Statistical Plots
○ Color Palettes
○ Faceting
○ Regression Plots
○ Distribution Plots
○ Categorical Plots
○ Pair Plots
● Scipy
○ Signal and Image Processing (scipy.signal, scipy.ndimage):
○ Linear Algebra (scipy.linalg)
○ Integration (scipy.integrate)
○ Statistics (scipy.stats)
○ Spatial Distance and Clustering (scipy.spatial)
● Statsmodels
○ Linear Regression (statsmodels.regression)
○ Time Series Analysis (statsmodels.tsa)
○ Statistical Tests (statsmodels.stats)
○ Anova (statsmodels.stats.anova)
○ Datasets (statsmodels.datasets)
● Set Theory
○ Data Representation & Database Operations
● Combinatorics
○ Feature Selection
○ Permutations and Combinations for Sampling
○ Hyper parameter Tuning
○ Experiment Design
○ Data Partitioning and Cross-Validation
● Probability
○ Basics
○ Theoretical Probability
○ Empirical Probability
○ Addition Rule
○ Multiplication Rule
○ Conditional Probability
○ Total Probability
○ Probability Decision Tree
○ Bayes Theorem
○ Sensitivity & Specificity in Probability
○ • Bernouli Naïve Bayes, Gausian Naïve Bayes, Multinomial Naïve Bayes
● Distributions
○ Binomial, Poisson, Normal Distribution, Standard Normal Distribution
○ Gaussian Distribution, Uniform Distribution
○ Z Score
○ Skewness
○ Kurtosis
○ Geometric Distribution
○ Hypergeometric Distribution
○ Markov Chain
● Linear Algebra
○ Linear Equations
○ Matrices(Matrix Algebra: Vector Matrix Vector matrix multiplication
Matrix matrix multiplication)
○ Determinant
○ Eigen Value and Eigenvector
● Euclidean Distance & Manhattan Distance
● Calculus
○ Differentiation
○ Partial Differentiation
○ Max & Min
● Indices & Logarithms
● Introduction
○ Population & Sample
○ Reference & Sampling technique
● Types of Data
○ Qualitative or Categorical – Nominal & Ordinal
○ Quantitative or Numerical – Discrete & Continuous
○ Cross Sectional Data & Time Series Data
● Measures of Central Tendency
○ Mean, Mode & Median – Their frequency distribution
● Descriptive statistic Measures of symmetry
○ skewness (positive skew, negative skew, zero skew)
○ kurtosis (Leptokurtic, Mesokurtic, Platykurtic)
● Measurement of Spread
○ Range, Variance, Standard Deviation
● Measures of variability
○ Interquartile Range (IQR)
○ Mean Absolute Deviation (MAD)
○ Coefficient of variation
○ Covariance
● Levels of Data Measurement
○ Nominal, Ordinal, Interval, Ratio
● Variable
○ Types of Variables.
○ Categorical Variables – Nominal variable & ordinal variables
○ Numerical Variables: discrete & continuous
○ Dependent Variable
○ Independent Variable
○ Control Moderating & Mediating
● Frequency Distribution Table
○ Nominal, Ordinal, Interval, Ratio
● Types of Variables
○ Categorical Variables – Nominal variable & ordinal variables
○ Numerical Variables: discrete & continuous
○ Dependent Variable
○ Independent Variable
○ Control Moderating & Mediating
● Frequency Distribution Table
○ Relative Frequency, Cumulative Frequency
○ Histogram
○ Scatter Plots
○ Range
○ Calculate Class Width
○ Create Intervals
○ Count Frequencies
○ Construct the Table
● Correlation, Regression & Collinearity
○ Pearson & Spearman Correlation Methods
○ Regression Error Metrics
● Others
○ Percentiles, Quartiles, Interquartile Range
○ Different types of Plots for Continuous, Categorical variable
○ Box Plot, Outliers
○ Confidence Intervals
○ Central Limit Theorem
○ Degree of freedom
● Bias and Variance in ML
● Entropy in ML
● Information Gain
● Surprise in ML
● Loss Function & Cost Function
○ Mean Squared Error, Mean Absolute Error – Loss Function
○ Huber Loss Function
○ Cross Entropy Loss Function
● Inferential Statistics
○ Hypothesis Testing: One tail, two tail and p-value
○ Formulation of Null & Alternative Hypothesis
○ Type-I error & Type-II error
○ Statistical Tests
○ Sample Test
○ ANOVA Test
○ Chi-square Test
○ Z-Test & T-Test
● Introduction
○ DBMS vs RDBMS
○ Intro to SQL
○ SQL vs NoSQL
○ MySQL Installation
● Keys
○ Primary Key
○ Foreign Key
● Constraints
○ Unique
○ Not NULL
○ Check
○ Default
○ Auto Increment
● CRUD Operations
○ Create
○ Retrieve
○ Update
○ Delete
● SQL Languages
○ Data Definition Language (DDL)
○ Data Query Language
○ Data Manipulation Language (DML)
○ Data Control Language
○ Transaction Control Language
● SQL Commands
○ Create
○ Insert
○ Alter, Modify, Rename, Update
○ Delete, Truncate, Drop
○ Grant, Revoke
○ Commit, Rollback
○ Select
● SQL Clause
○ Where
○ Distinct
○ OrderBy
○ GroupBy
○ Having
○ Limit
● Operators
○ Comparison Operators
○ Logical Operators
○ Membership Operators
○ Identity Operators
● Wild Cards
● Aggregate Functions
● SQL Joins
○ Inner Join & Outer Join
○ Left Join & Right Join
○ Self & Cross Join
○ Natural Join
● EDA
○ Univariate Analysis
○ Bivariate Analysis
○ Multivariate Analysis
● Data Visualisation
○ Various Plots on different data types
○ Plots for Continuous Variables
○ Plots for Discrete Variables
○ Plots for Time Series Variables
● ML Introduction
○ What is Machine Learning?
○ Types of Machine Learning Methods
○ Classification problem in general
○ Validation Techniques: CV,OOB
○ Different types of metrics for Classification
○ Curse of dimensionality
○ Feature Transformations
○ Feature Selection
○ Imbalanced Dataset and its effect on Classification
○ Bias Variance Tradeoff
● Important Element of Machine Learning
● Multiclass Classification
○ One-vs-All
○ Overfitting and Underfitting
○ Error Measures
○ PCA learning
○ Statistical learning approaches
○ Introduce to SKLEARN FRAMEWORK
● Data Processing
○ Creating training and test sets, Data scaling and Normalisation
○ Feature Engineering – Adding new features as per requirement,
Modifying the data
○ Data Cleaning – Treating the missing values, Outliers
○ Data Wrangling – Encoding, Feature Transformations, Feature Scaling
○ Feature Selection – Filter Methods, Wrapper Methods, Embedded
Methods
○ Dimension Reduction – Principal Component Analysis (Sparse PCA &
Kernel PCA), Singular Value Decomposition
○ Non Negative Matrix Factorization
● Regression
○ Introduction to Regression
○ Mathematics involved in Regression
○ Regression Algorithms
○ Simple Linear Regression
○ Multiple Linear Regression
○ Polynomial Regression
○ Lasso Regression
○ Ridge Regression
○ Elastic Net Regression
● Evaluation Metrics for Regression
○ Mean Absolute Error (MAE)
○ Mean Squared Error (MSE)
○ Root Mean Squared Error (RMSE)
○ R²
○ Adjusted R²
● Classification
○ Introduction
○ K-Nearest Neighbors
○ Logistic Regression
○ Support Vector Machines (Linear SVM)
○ Linear Classification
○ Kernel-based classification
○ Non-linear examples
○ 2 features forms straight line & 3 features forms plane
○ Hyperplane and Support vectors
○ Controlled support vector machines
○ Support vector Regression
○ Kernel SVM (Non-Linear SVM)
○ Naives Bayes
○ Decision Trees
○ Random Forest / Bagging
○ Ada Boost
○ Gradient Boost
○ XG Boost
○ Evaluation Metrics for Classification
● Clustering
● Introduction
● K-Means Clustering
○ Finding the optimal number of clusters
○ Optimizing the inertia
○ Cluster instability
○ Elbow method
● Hierarchical Clustering
● Agglomerative clustering
● DBSCAN Clustering
● Association Rules
○ Market Basket Analysis
○ Apriori Algorithm
● Recommendation Engines
○ Collaborative Filtering
○ User based collaborative filtering
○ Item based collaborative filtering
○ Recommendation Engines
● Time Series & Forecasting
○ What is Time series data
○ Different components of time series data
○ Stationary of time series data
○ ACF, PACF
○ Time Series Models
○ AR
○ ARMA
○ ARIMA
○ SARIMAX
● Model Selection & Evaluation
● Over Fitting & Under Fitting
○ Bianca-Variance Tradeoff
○ Hyper Parameter Tuning
○ Joblib And Pickling
● Others
○ Dummy Variable, One Hot Encoding
○ gridsearchcv vs randomizedsearchcv
● ML Pipeline
● ML Model Deployment in Flask
● Introduction
○ Power BI for Data scientist
○ Types of reports
○ Data source types
○ Installation
● Basic Report Design
○ Data sources and Visual types
○ Canvas and fields
○ Table and Tree map
○ Format button and Data Labels
○ Legend,Category and Grid
○ CSV and PDF Exports
● Visual Sync, Grouping
○ Slicer visual
○ Orientation, selection process
○ Slicer: Number, Text, slicer list
○ Bin count,Binning
● Hierarchies, Filters
○ Creating Hierarchies
○ Drill Down options
○ Expand and show
○ Visual filter,Page filter,Report filter
○ Drill Thru Reports
● Power Query
○ Power Query transformation
○ Table and Column Transformations
○ Text and time transformations
○ Power query functions
○ Merge and append transformations
● DAX Functions
○ DAX Architecture,Entity Sets
○ DAX Data types,Syntax Rules
○ DAX measures and calculations
○ Creating measures
○ Creating Columns
● Deep learning at Glance
○ Introduction to Neural Network
○ Biological and Artificial Neuron
○ Introduction to perceptron
○ Perceptron and its learning rule and drawbacks
○ Multilayer Perceptron, loss function
○ Neural Network Activation function
● Training MLP: Backpropagation
● Cost Function
● Gradient Descent Backpropagation – Vanishing and Exploding Gradient Problem
● Introduce to Py-torch
● Regularization
● Optimizers
● Hyperparameters and tuning of the same
● TENSORFLOW FRAMEWORK
○ Introduction to TensorFlow
○ TensorFlow Basic Syntax
○ TensorFlow Graphs
○ Variables and Placeholders
○ TensorFlow Playground
● ANN (Artificial Neural Network)
○ ANN Architecture
○ Forward & Backward Propagation, Epoch
○ Introduction to TensorFlow, Keras
○ Vanishing Gradient Descend
○ Fine-tuning neural network hyperparameter
○ Number of hidden layers, Number of neurons per hidden layer
○ Activation function
○ INSTALLATION OF YOLO V8, KERAS, THEANO
● PY-TORCH Library
● RNN (Recurrent Neural Network)
○ Introduction to RNN
○ Backpropagation through time
○ Input and output sequences
○ RNN vs ANN
○ LSTM (Long Short-Term Memory)
○ Different types of RNN: LSTM, GRU
○ Bidirectional RNN
○ Sequential-to-sequential architecture (Encoder Decoder)
○ BERT Transformers
○ Text generation and classification using Deep Learning
○ Generative-AI (Chat-GPT)
● Basics of Image Processing
○ Histogram of images
○ Basic filters applied on the images
● Convolutional Neural Networks (CNN)
○ ImageNet Dataset
○ Project: Image Classification
○ Different types of CNN architectures
○ Recurrent Neural Network (RNN)
○ Using pre-trained model: Transfer Learning
● Natural Language Processing (NLP)
○ Text Cleaning
○ Texts, Tokens
○ Basic text classification based on Bag of Words
● Document Vectorization
○ Bag of Words
○ TF-IDF Vectorizer
○ n-gram: Unigran, Bigram
○ Word vectorizer basics, One Hot Encoding
○ Countvectorizer
○ Word cloud and gensim
○ Word2Vec and Glove
○ Text classification using Word2Vec and Glove
○ Parts of Speech Tagging (PoS Tagging or POST)
○ Topic Modelling using LDA
○ Sentiment Analysis
● Twitter Sentiment Analysis Using Textblob
○ TextBlob
○ Installing textblob library
○ Simple TextBlob Sentiment Analysis Example
○ Using NLTK’s Twitter Corpus
● Spacy Library
○ Introduction, What is a Token, Tokenization
○ Stop words in spacy library
○ Stemming
○ Lemmatization
○ Lemmatization through NLTK
○ Lemmatization using spacy
○ Word Frequency Analysis
○ Counter
○ Part of Speech, Part of Speech Tagging
○ Pos by using spacy and nltk
○ Dependency Parsing
○ Named Entity Recognition(NER)
○ NER with NLTK
○ NER with spacy
● Human vision vs Computer vision
○ CNN Architecture
○ Convolution – Max Pooling – Flatten Layer – Fully Connected Layer
○ CNN Architecture
○ Striding and padding
○ Max pooling
○ Data Augmentation
○ Introduction to OpenCV & YoloV3 Algorithm
● Image Processing with OpenCV
○ Image basics with OpenCV
○ Opening Image Files with OpenCV
○ Drawing on Images, Image files with OpenCV
○ Face Detection with OpenCV
● Video Processing with OpenCV
○ Introduction to Video Basics, Object Detection
○ Object Detection with OpenCV
● Reinforcement Learning
○ Introduction to Reinforcement Learning
○ Architecture of Reinforcement Learning
○ Reinforcement Learning with Open AI
○ Policy Gradient Theory
● Open AI
○ Introduction to Open AI
○ Generative AI
○ Chat Gpt (3.5)
○ LLM (Large Language Model)
○ Classification Tasks with Generative AI
○ Content Generation and Summarization with Generative AI
○ Information Retrieval and Synthesis workflow with Gen AI
● Time Series and Forecasting
○ Time Series Forecasting using Deep Learning
○ Seasonal-Trend decomposition using LOESS (STL) models.
○ Bayesian time series analysis
● MakerSuite Google
○ PaLM API
○ MUM models
● Azure ML
