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Professional Data Science & AI Course with Placement Guarantee

In Collaboration with   Data Science & AI Course collaboration microsoft

  • Trainers from Fortune Top 20 Colleges/Universities (ISB, IIT)
  • 300 Hours of Interactive Online Sessions
  • 300+ Hours of Practical Assignments
  • 10 hours of MLOps: Advanced techniques and tools
  • 10 hours of Data Engineering: Foundational concepts and practical applications
  • 2+2 Capstone Live Projects
  • Tie-up with 150+ Companies (Deloitte, IBS, etc.) to Provide Placement Guarantee
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Academic Partners & International Accreditations
  • Data Science and AI course with NASSCOM
  • Data Science and AI course with INNODATATICS
  • Data Science and AI course with SUNY
  • Data Science and AI course with NEF
  • Data Science and AI course course with Microsoft
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"AI to contribute $16.1 trillion to the global economy by 2030. With 133 million more engaging, less repetitive jobs AI to change the workforce." - (Source). Data Science with Artificial Intelligence (AI) is a revolution in the business industry. AI is potentially being adopted in automating many jobs leading to higher productivity, less cost, and extensible solutions. It is reported by PWC in a publication that about 50% of human jobs will be taken away by the AI in the next 5 years. There is already a huge demand for AI specialists and this demand will be exponentially growing in the future. In the past few years, careers in AI have boosted concerning the demands of industries that are digitally transformed. The report of 2018 states that the requirements for AI skills have drastically doubled in the last three years, with job openings in the domain up to 119%.

Course Fee

Data Science and AI Course Overview

This dual Professional Data Science and AI Course firmly reinforces concepts in mathematics, statistics, calculus, linear algebra, and probability. A primer on Data Mining and the use of Regression Analysis methods in Data Mining ensues. The concepts and deployment of Python programming to enable Data Mining, Machine learning are also dealt with in detail. The use of NLP libraries and OpenCV to code machine learning algorithms are detailed. The main highlight of this course is the focus on machine learning, deep learning, and neural networks. Feedforward and backward propagation in neural networks are described at length. The deployment of Activation function, Loss function, non- linear activation function is elaborated. A thorough analysis of Convolution Neural Networks (CNNs), Recurrent Neural Networks (RNNs), GANs, Reinforcement Learning, and Q learning is also facilitated in this course. This course is a comprehensive package for all IT enthusiasts who wish to design and develop AI applications in their field of study.

What is Data Science?
Data science is the study of data having the ideal of producing significant marketable perceptivity. It's a multidisciplinary approach to large- scale data analysis that combines generalities and styles from the fields of statistics, mathematics, artificial intelligence, and computer engineering. Thanks to this study, data scientists may now ask and get answers to queries like what happened, why it happened, what will be, as well as what differently could be done with the results.
Data science is important because it combines tools, procedures, and technologies to get meaning from data. Modern businesses are drowning in it as a result of the plethora of technology which may automatically collect and store data. More data about banking, health care, electronic commerce, and other facets of mortal reality are gathered via online payment gateways & platforms.
Data science has a large ecosystem including courses, degrees, and jobs today thanks to industry need. Data science is expected to increase significantly over the next few decades since it requires a multidisciplinary set of abilities & experience.

What is Artificial Intelligence?
Building computers and robots with the ability to think, learn, and behave in ways that would typically need human intellect or that use data of a size beyond what people can analyse is the focus of the study of artificial intelligence.
Modern computer innovation is built on AI, which unlocks value for both consumers and companies. For instance, OCR, or optical character recognition, utilises AI to extract text as well as data from pictures and documents, transforming unstructured content into organised data that is suitable for commercial use and revealing insightful information.
Computer science, data analytics, statistics, hardware, software engineering, languages, neurology, even psychology and philosophy are just a some of the numerous disciplines that fall under the umbrella of AI.
On a practical level for commercial application, artificial intelligence (AI) is a group of technologies utilised in data analytics, predictions & forecasts, object classification, natural language processing, suggestions, intelligent data retrieval, & more. These technologies are generally based on machine learning as well as deep learning.

Artificial Intelligence and Data Science Salary
After enrolling for our full-time Data Science programme, which combines a comprehensive curriculum and individualised mentoring and career coaching, you could get a position in the field of data science 5 months from now. Alternatively, if you'd want something a little more adaptable, the part-time Data Science course will help you get there at a pace that works for you. A data scientist can expect to make around $116,654 a year on average. The companies ready to pay such high salaries are keen to leverage big data, which is powerful, to improve business choices. Even an entry-level salary is starting to seem desirable in this growing industry. Data scientists at the entry level salary can earn up to $93,167 yearly, while those with more experience can earn up to $142,131.
Similarly, an artificial intelligence engineer makes well over $100,000 per year on average. The average yearly earnings of the US is $164,769, having a median salary over $90,000 and a high of $304,500. AI developers' pay will improve as their employment alternatives expand significantly.

Artificial Intelligence and Data Science Course Outcomes

The present market is all about the data. To get into this, there is a vital requirement for skilled Data Science and AI professionals. There is enormous scope for a lucrative career in this domain. By using the cutting edge and appropriate tools the freshers and professionals will be able to build algorithms and analyze huge data. By using the opportunity of individual attention given by experts at 360DigiTMG, the students will be adequately trained and will be able to understand the course very effectively. Students will be exposed to real-time projects, at the learning level only they are prepared to face the challenges that are inclined to be in industries. Data Science and AI are not confined to a specific industry, so the professionals in data science and Artificial Intelligence will have the liberty to work in the areas of their interest. The main areas where Data Science and Artificial Intelligence professionals are in demand are Medicine, Space, Robotics, Automation, Marketing, Information management, Military activities, and many more. The primary objective of Data Science and Artificial training at 360DigiTMG is to deliver skilled professionals by providing quality training, guiding them to implement and gain hands-on experience.

Use data generation sources
Work with tools and techniques used for the analysis of structured and unstructured data
Understand the differences between Descriptive and Predictive Analytics
Perform Text Mining to generate Customer Sentiment Analysis
Apply data-driven, Machine Learning approaches for business decision-making
Build prediction models for day-to-day applications
Perform forecasting to take proactive business decisions
Analyse texts, images and videos
Use Python libraries such as Keras, Tensorflow and OpenCV to create AI and Deep Learning solutions
Apply graphical processing units (GPUs) in Deep Learning Algorithms
Block Your Time
artificial intelligence and data science course

300 hours

Sessions

assignment duration

300 hours

Assignments

project duration

2+2

Live Projects

Who Should Sign Up?
  • Those aspiring to be Data Scientists, AI experts, Business Analysts, Data Analytics developers
  • Graduates looking for a career in Data Science, Machine Learning, Forecasting, AI
  • Professionals migrating to Data Science
  • Academicians and Researchers
  • Students entering the IT industry

Data Science Course Syllabus

  • Introduction to Python Programming
  • Installation of Python & Associated Packages
  • Graphical User Interface
  • Installation of Anaconda Python
  • Setting Up Python Environment
  • Data Types
  • Operators in Python
  • Data structures
    • Vectors
    • Matrix
    • Arrays
    • Lists
    • Tuple
    • Sets
    • String Representation
    • Arithmetic Operators
    • Boolean Values
    • Dictionary
  • Conditional Statements
    • if statement
    • if - else statement
    • if - elif statement
    • Nest if-else
    • Multiple if
    • Switch
  • Loops
    • While loop
    • For loop
    • Range()
    • Iterator and generator Introduction
    • For – else
    • Break
  • Functions
    • Purpose of a function
    • Defining a function
    • Calling a function
    • Function parameter passing
      • Formal arguments
      • Actual arguments
      • Positional arguments
      • Keyword arguments
      • Variable arguments
      • Variable keyword arguments
      • Use-Case *args, **kwargs
  • Function call stack
    • Locals()
    • Globals()
  • Stackframe
  • Modules
    • Python Code Files
    • Importing functions from another file
    • __name__: Preventing unwanted code execution
    • Importing from a folder
    • Folders Vs Packages
    • __init__.py
    • Namespace
    • __all__
    • Import *
    • Recursive imports
  • File Handling
  • Exception Handling
  • Regular expressions
  • Oops concepts
  • Classes and Objects
  • Inheritance and Polymorphism
  • Multi-Threading
  • What is a Database
  • Types of Databases
  • DBMS vs RDBMS
  • DBMS Architecture
  • Normalisation & Denormalization
  • Install PostgreSQL
  • Install MySQL
  • Data Models
  • DBMS Language
  • ACID Properties in DBMS
  • What is SQL
  • SQL Data Types
  • SQL commands
  • SQL Operators
  • SQL Keys
  • SQL Joins
  • GROUP BY, HAVING, ORDER BY
  • Subqueries with select, insert, update, delete statements
  • Views in SQL
  • SQL Set Operations and Types
  • SQL functions
  • SQL Triggers
  • Introduction to NoSQL Concepts
  • SQL vs NoSQL
  • Database connection SQL to Python
  • Check out the SQL for Data Science One Step Solution for Beginners here.

Learn about insights on how data is assisting organizations to make informed data-driven decisions. Gathering the details about the problem statement would be the first step of the project. Learn the know-how of the Business understanding stage. Deep dive into the finer aspects of the management methodology to learn about objectives, constraints, success criteria, and the project charter. The essential task of understanding business Data and its characteristics is to help you plan for the upcoming stages of development. Check out the CRISP - Business Understanding here.

  • All About 360DigiTMG & Innodatatics Inc., USA
  • Dos and Don'ts as a participant
  • Introduction to Big Data Analytics
  • Data and its uses – a case study (Grocery store)
  • Interactive marketing using data & IoT – A case study
  • Course outline, road map, and takeaways from the course
  • Stages of Analytics - Descriptive, Predictive, Prescriptive, etc.
  • Cross-Industry Standard Process for Data Mining
  • Typecasting
  • Handling Duplicates
  • Outlier Analysis/Treatment
    • Winsorization
    • Trimming
    • Local Outlier Factor
    • Isolation Forests
  • Zero or Near Zero Variance Features
  • Missing Values
    • Imputation (Mean, Median, Mode, Hot Deck)
    • Time Series Imputation Techniques
      • 1) Last Observation Carried Forward (LOCF)
      • 2) Next Observation Carried Backward (NOCB)
      • 3) Rolling Statistics
      • 4) Interpolation
  • Discretization / Binning / Grouping
  • Encoding: Dummy Variable Creation
  • Transformation
    • Transformation - Box-Cox, Yeo-Johnson
  • Scaling: Standardization / Normalization
  • Imbalanced Handling
    • SMOTE
    • MSMOTE
    • Undersampling
    • Oversampling

In this module, you will learn about dealing with the Data after the Collection. Learn to extract meaningful information about Data by performing Uni-variate analysis which is the preliminary step to churn the data. The task is also called Descriptive Analytics or also known as exploratory data analysis. In this module, you also are introduced to statistical calculations which are used to derive information along with Visualizations to show the information in graphs/plots

  • Machine Learning project management methodology
  • Data Collection - Surveys and Design of Experiments
  • Data Types namely Continuous, Discrete, Categorical, Count, Qualitative, Quantitative and its identification and application
  • Further classification of data in terms of Nominal, Ordinal, Interval & Ratio types
  • Balanced versus Imbalanced datasets
  • Cross Sectional versus Time Series vs Panel / Longitudinal Data
    • Time Series - Resampling
  • Batch Processing vs Real Time Processing
  • Structured versus Unstructured vs Semi-Structured Data
  • Big vs Not-Big Data
  • Data Cleaning / Preparation - Outlier Analysis, Missing Values Imputation Techniques, Transformations, Normalization / Standardization, Discretization
  • Sampling techniques for handling Balanced vs. Imbalanced Datasets
  • What is the Sampling Funnel and its application and its components?
    • Population
    • Sampling frame
    • Simple random sampling
    • Sample
  • Measures of Central Tendency & Dispersion
    • Population
    • Mean/Average, Median, Mode
    • Variance, Standard Deviation, Range

The raw Data collected from different sources may have different formats, values, shapes, or characteristics. Cleansing, or Data Preparation, Data Munging, Data Wrapping, etc., are the next steps in the Data handling stage. The objective of this stage is to transform the Data into an easily consumable format for the next stages of development.

  • Feature Engineering on Numeric / Non-numeric Data
  • Feature Extraction
  • Feature Selection
    • Forward Feature Selection
    • Backward Feature Selection
    • Exhaustive Feature Selection
    • Recursive feature elimination (RFE)
    • Chi-square Test
    • Information Gain
  • What is Power BI?
    • Power BI Tips and Tricks & ChatGPT Prompts
    • Overview of Power BI
    • Architecture of Power BI
    • Power BI and Plans
    • Installation and introduction to Power BI
  • Transforming Data using Power BI Desktop
    • Importing data
    • Changing Database
    • Data Types in Power BI
    • Basic Transformations
    • Managing Query Groups
    • Splitting Columns
    • Changing Data Types
    • Working with Dates
    • Removing and Reordering Columns
    • Conditional Columns
    • Custom columns
    • Connecting to Files in a Folder
    • Merge Queries
    • Query Dependency View
    • Transforming Less Structured Data
    • Query Parameters
    • Column profiling
    • Query Performance Analytics
    • M-Language

Learn the preliminaries of the Mathematical / Statistical concepts which are the foundation of techniques used for churning the Data. You will revise the primary academic concepts of foundational mathematics and Linear Algebra basics. In this module, you will understand the importance of Data Optimization concepts in Machine Learning development. Check out the Mathematical Foundations here.

  • Data Optimization
  • Derivatives
  • Linear Algebra
  • Matrix Operations

Data mining unsupervised techniques are used as EDA techniques to derive insights from the business data. In this first module of unsupervised learning, get introduced to clustering algorithms. Learn about different approaches for data segregation to create homogeneous groups of data. In hierarchical clustering, K means clustering is the most used clustering algorithm. Understand the different mathematical approaches to perform data segregation. Also, learn about variations in K-means clustering like K-medoids, and K-mode techniques, and learn to handle large data sets using the CLARA technique.

  • Clustering 101
  • Distance Metrics
  • Hierarchical Clustering
  • Non-Hierarchical Clustering
  • DBSCAN
  • Clustering Evaluation metrics

Dimension Reduction (PCA and SVD) / Factor Analysis Description: Learn to handle high dimensional data. The performance will be hit when the data has a high number of dimensions and machine learning techniques training becomes very complex, as part of this module you will learn to apply data reduction techniques without any variable deletion. Learn the advantages of dimensional reduction techniques. Also, learn about yet another technique called Factor Analysis.

  • Prinicipal Component Analysis (PCA)
  • Singular Value Decomposition (SVD)

Learn to measure the relationship between entities. Bundle offers are defined based on this measure of dependency between products. Understand the metrics Support, Confidence, and Lift used to define the rules with the help of the Apriori algorithm. Learn the pros and cons of each of the metrics used in Association rules.

  • Association rules mining 101
  • Measurement Metrics
  • Support
  • Confidence
  • Lift
  • User Based Collaborative Filtering
  • Similarity Metrics
  • Item Based Collaborative Filtering
  • Search Based Methods
  • SVD Method

The study of a network with quantifiable values is known as network analytics. The vertex and edge are the nodes and connection of a network, learn about the statistics used to calculate the value of each node in the network. You will also learn about the google page ranking algorithm as part of this module.

  • Entities of a Network
  • Properties of the Components of a Network
  • Measure the value of a Network
  • Community Detection Algorithms

Learn to analyse unstructured textual data to derive meaningful insights. Understand the language quirks to perform data cleansing, extract features using a bag of words and construct the key-value pair matrix called DTM. Learn to understand the sentiment of customers from their feedback to take appropriate actions. Advanced concepts of text mining will also be discussed which help to interpret the context of the raw text data. Topic models using LDA algorithm, emotion mining using lexicons are discussed as part of NLP module.

  • Sources of data
  • Bag of words
  • Pre-processing, corpus Document Term Matrix (DTM) & TDM
  • Word Clouds
  • Corpus-level word clouds
  • Sentiment Analysis
  • Positive Word clouds
  • Negative word clouds
  • Unigram, Bigram, Trigram
  • Semantic network
  • Extract, user reviews of the product/services from Amazon and tweets from Twitter
  • Install Libraries from Shell
  • Extraction and text analytics in Python
  • LDA / Latent Dirichlet Allocation
  • Topic Modelling
  • Sentiment Extraction
  • Lexicons & Emotion Mining
  • Check out the Text Mining Interview Questions and Answers here.
  • Machine Learning primer
  • Difference between Regression and Classification
  • Evaluation Strategies
  • Hyper Parameters
  • Metrics
  • Overfitting and Underfitting

Revise Bayes theorem to develop a classification technique for Machine learning. In this tutorial, you will learn about joint probability and its applications. Learn how to predict whether an incoming email is spam or a ham email. Learn about Bayesian probability and its applications in solving complex business problems.

  • Probability – Recap
  • Bayes Rule
  • Naïve Bayes Classifier
  • Text Classification using Naive Bayes
  • Checking for Underfitting and Overfitting in Naive Bayes
  • Generalization and Regulation Techniques to avoid overfitting in Naive Bayes
  • Check out the Naive Bayes Algorithm here.

k Nearest Neighbor algorithm is a distance-based machine learning algorithm. Learn to classify the dependent variable using the appropriate k value. The KNN Classifier also known as a lazy learner is a very popular algorithm and one of the easiest for application.

  • Deciding the K value
  • Thumb rule in choosing the K value.
  • Building a KNN model by splitting the data
  • Checking for Underfitting and Overfitting in KNN
  • Generalization and Regulation Techniques to avoid overfitting in KNN

In this tutorial, you will learn in detail about the continuous probability distribution. Understand the properties of a continuous random variable and its distribution under normal conditions. To identify the properties of a continuous random variable, statisticians have defined a variable as a standard, learning the properties of the standard variable and its distribution. You will learn to check if a continuous random variable is following normal distribution using a normal Q-Q plot. Learn the science behind the estimation of value for a population using sample data.

  • Probability & Probability Distribution
  • Continuous Probability Distribution / Probability Density Function
  • Discrete Probability Distribution / Probability Mass Function
  • Normal Distribution
  • Standard Normal Distribution / Z distribution
  • Z scores and the Z table
  • QQ Plot / Quantile - Quantile plot
  • Sampling Variation
  • Central Limit Theorem
  • Sample size calculator
  • Confidence interval - concept
  • Confidence interval with sigma
  • T-distribution Table / Student's-t distribution / T table
  • Confidence interval
  • Population parameter with Standard deviation known
  • Population parameter with Standard deviation not known

Learn to frame business statements by making assumptions. Understand how to perform testing of these assumptions to make decisions for business problems. Learn about different types of Hypothesis testing and its statistics. You will learn the different conditions of the Hypothesis table, namely Null Hypothesis, Alternative hypothesis, Type I error, and Type II error. The prerequisites for conducting a Hypothesis test, and interpretation of the results will be discussed in this module.

  • Formulating a Hypothesis
  • Choosing Null and Alternative Hypotheses
  • Type I or Alpha Error and Type II or Beta Error
  • Confidence Level, Significance Level, Power of Test
  • Comparative study of sample proportions using Hypothesis testing
  • 2 Sample t-test
  • ANOVA
  • 2 Proportion test
  • Chi-Square test

Data Mining supervised learning is all about making predictions for an unknown dependent variable using mathematical equations explaining the relationship with independent variables. Revisit the school math with the equation of a straight line. Learn about the components of Linear Regression with the equation of the regression line. Get introduced to Linear Regression analysis with a use case for the prediction of a continuous dependent variable. Understand about ordinary least squares technique.

  • Scatter diagram
  • Correlation analysis
  • Correlation coefficient
  • Ordinary least squares
  • Principles of regression
  • Simple Linear Regression
  • Exponential Regression, Logarithmic Regression, Quadratic or Polynomial Regression
  • Confidence Interval versus Prediction Interval
  • Heteroscedasticity / Equal Variance
  • Check out the Linear Regression Interview Questions and Answers here.

In the continuation of the Regression analysis study, you will learn how to deal with multiple independent variables affecting the dependent variable. Learn about the conditions and assumptions to perform linear regression analysis and the workarounds used to follow the conditions. Understand the steps required to perform the evaluation of the model and to improvise the prediction accuracies. You will be introduced to concepts of variance and bias.

  • LINE assumption
  • Linearity
  • Independence
  • Normality
  • Equal Variance / Homoscedasticity
  • Collinearity (Variance Inflation Factor)
  • Multiple Linear Regression
  • Model Quality metrics
  • Deletion Diagnostics
  • Check out the Linear Regression Interview Questions here.

You have learned about predicting a continuous dependent variable. As part of this module, you will continue to learn Regression techniques applied to predict attribute Data. Learn about the principles of the logistic regression model, understand the sigmoid curve, and the usage of cut-off value to interpret the probable outcome of the logistic regression model. Learn about the confusion matrix and its parameters to evaluate the outcome of the prediction model. Also, learn about maximum likelihood estimation.

  • Principles of Logistic regression
  • Types of Logistic regression
  • Assumption & Steps in Logistic regression
  • Analysis of Simple logistic regression results
  • Multiple Logistic regression
  • Confusion matrix
  • False Positive, False Negative
  • True Positive, True Negative
  • Sensitivity, Recall, Specificity, F1
  • Receiver operating characteristics curve (ROC curve)
  • Precision Recall (P-R) curve
  • Lift charts and Gain charts
  • Check out the Logistic Regression Interview Questions and Answers here.

Learn about overfitting and underfitting conditions for prediction models developed. We need to strike the right balance between overfitting and underfitting, learn about regularization techniques L1 norm and L2 norm used to reduce these abnormal conditions. The regression techniques of Lasso and Ridge techniques are discussed in this module.

Extension to logistic regression We have multinomial and Ordinal Logistic regression techniques used to predict multiple categorical outcomes. Understand the concept of multi-logit equations, baseline, and making classifications using probability outcomes. Learn about handling multiple categories in output variables including nominal as well as ordinal data.

  • Logit and Log-Likelihood
  • Category Baselining
  • Modeling Nominal categorical data
  • Handling Ordinal Categorical Data
  • Interpreting the results of coefficient values

As part of this module, you learn further different regression techniques used for predicting discrete data. These regression techniques are used to analyze the numeric data known as count data. Based on the discrete probability distributions namely Poisson, negative binomial distribution the regression models try to fit the data to these distributions. Alternatively, when excessive zeros exist in the dependent variable, zero-inflated models are preferred, you will learn the types of zero-inflated models used to fit excessive zeros data.

  • Poisson Regression
  • Poisson Regression with Offset
  • Negative Binomial Regression
  • Treatment of data with Excessive Zeros
  • Zero-inflated Poisson
  • Zero-inflated Negative Binomial
  • Hurdle Model

Support Vector Machines / Large-Margin / Max-Margin Classifier

  • Hyperplanes
  • Best Fit "boundary"
  • Linear Support Vector Machine using Maximum Margin
  • SVM for Noisy Data
  • Non- Linear Space Classification
  • Non-Linear Kernel Tricks
  • Linear Kernel
  • Polynomial
  • Sigmoid
  • Gaussian RBF
  • SVM for Multi-Class Classification
  • One vs. All
  • One vs. One
  • Directed Acyclic Graph (DAG) SVM

Kaplan Meier method and life tables are used to estimate the time before the event occurs. Survival analysis is about analyzing the duration of time before the event. Real-time applications of survival analysis in customer churn, medical sciences, and other sectors are discussed as part of this module. Learn how survival analysis techniques can be used to understand the effect of the features on the event using the Kaplan-Meier survival plot.

  • Examples of Survival Analysis
  • Time to event
  • Censoring
  • Survival, Hazard, and Cumulative Hazard Functions
  • Introduction to Parametric and non-parametric functions

Decision Tree models are some of the most powerful classifier algorithms based on classification rules. In this tutorial, you will learn about deriving the rules for classifying the dependent variable by constructing the best tree using statistical measures to capture the information from each of the attributes.

  • Elements of classification tree - Root node, Child Node, Leaf Node, etc.
  • Greedy algorithm
  • Measure of Entropy
  • Attribute selection using Information gain
  • Decision Tree C5.0 and understanding various arguments
  • Checking for Underfitting and Overfitting in Decision Tree
  • Pruning – Pre and Post Prune techniques
  • Generalization and Regulation Techniques to avoid overfitting in Decision Tree
  • Random Forest and understanding various arguments
  • Checking for Underfitting and Overfitting in Random Forest
  • Generalization and Regulation Techniques to avoid overfitting in Random Forest
  • Check out the Decision Tree Questions here.

Learn about improving the reliability and accuracy of decision tree models using ensemble techniques. Bagging and Boosting are the go-to techniques in ensemble techniques. The parallel and sequential approaches taken in Bagging and Boosting methods are discussed in this module. Random forest is yet another ensemble technique constructed using multiple Decision trees and the outcome is drawn from the aggregating the results obtained from these combinations of trees. The Boosting algorithms AdaBoost and Extreme Gradient Boosting are discussed as part of this continuation module. You will also learn about stacking methods. Learn about these algorithms which are providing unprecedented accuracy and helping many aspiring data scientists win first place in various competitions such as Kaggle, CrowdAnalytix, etc.

  • Overfitting
  • Underfitting
  • Voting
  • Stacking
  • Bagging
  • Random Forest
  • Boosting
  • AdaBoost / Adaptive Boosting Algorithm
  • Checking for Underfitting and Overfitting in AdaBoost
  • Generalization and Regulation Techniques to avoid overfitting in AdaBoost
  • Gradient Boosting Algorithm
  • Checking for Underfitting and Overfitting in Gradient Boosting
  • Generalization and Regulation Techniques to avoid overfitting in Gradient Boosting
  • Extreme Gradient Boosting (XGB) Algorithm
  • Checking for Underfitting and Overfitting in XGB
  • Generalization and Regulation Techniques to avoid overfitting in XGB
  • Check out the Ensemble Techniques Interview Questions here.

Time series analysis is performed on the data which is collected with respect to time. The response variable is affected by time. Understand the time series components, Level, Trend, Seasonality, Noise, and methods to identify them in a time series data. The different forecasting methods available to handle the estimation of the response variable based on the condition of whether the past is equal to the future or not will be introduced in this module. In this first module of forecasting, you will learn the application of Model-based forecasting techniques.

  • Introduction to time series data
  • Steps to forecasting
  • Components to time series data
  • Scatter plot and Time Plot
  • Lag Plot
  • ACF - Auto-Correlation Function / Correlogram
  • Visualization principles
  • Naïve forecast methods
  • Errors in the forecast and it metrics - ME, MAD, MSE, RMSE, MPE, MAPE
  • Model-Based approaches
  • Linear Model
  • Exponential Model
  • Quadratic Model
  • Additive Seasonality
  • Multiplicative Seasonality
  • Model-Based approaches Continued
  • AR (Auto-Regressive) model for errors
  • Random walk
  • Check out the Time Series Interview Questions here.

In this continuation module of forecasting learn about data-driven forecasting techniques. Learn about ARMA and ARIMA models which combine model-based and data-driven techniques. Understand the smoothing techniques and variations of these techniques. Get introduced to the concept of de-trending and de-seasonalize the data to make it stationary. You will learn about seasonal index calculations which are used to re-seasonalize the result obtained by smoothing models.

  • ARMA (Auto-Regressive Moving Average), Order p and q
  • ARIMA (Auto-Regressive Integrated Moving Average), Order p, d, and q
  • ARIMA, ARIMAX, SARIMAX
  • AutoTS, AutoARIMA
  • A data-driven approach to forecasting
  • Smoothing techniques
  • Moving Average
  • Exponential Smoothing
  • Holt's / Double Exponential Smoothing
  • Winters / Holt-Winters
  • De-seasoning and de-trending
  • Seasonal Indexes
  • RNN, Bidirectional RNN, Deep Bidirectional RNN
  • Transformers for Forecasting
  • N-BEATS, N-BEATSx
  • N-HiTS
  • TFT - Temporal Fusion Transformer
  • Sequence 2 Sequence Models
  • Transformers
  • Generative AI
  • ChatGPT
  • DALL-E-2
  • Mid Journey
  • Crayon
  • What Is Prompt Engineering?
  • Understanding Prompts: Inputs, Outputs, and Parameters
  • Crafting Simple Prompts: Techniques and Best Practices
  • Evaluating and Refining Prompts: An Iterative Process
  • Role Prompting and Nested Prompts
  • Chain-of-Thought Prompting
  • Multilingual and Multimodal Prompt Engineering
  • Generating Ideas Using "Chaos Prompting"
  • Using Prompt Compression
Artificial Intelligence Syllabus

The Perceptron Algorithm is defined based on a biological brain model. You will talk about the parameters used in the perceptron algorithm which is the foundation of developing much complex neural network models for AI applications. Understand the application of perceptron algorithms to classify binary data in a linearly separable scenario.

  • Neurons of a Biological Brain
  • Artificial Neuron
  • Perceptron
  • Perceptron Algorithm
  • Use case to classify a linearly separable data
  • Multilayer Perceptron to handle non-linear data

Neural Network is a black box technique used for deep learning models. Learn the logic of training and weights calculations using various parameters and their tuning. Understand the activation function and integration functions used in developing a Artificial Neural Network.

  • Integration functions
  • Activation functions
  • Weights
  • Bias
  • Learning Rate (eta) - Shrinking Learning Rate, Decay Parameters
  • Error functions - Entropy, Binary Cross Entropy, Categorical Cross Entropy, KL Divergence, etc.
  • Artificial Neural Networks
  • ANN Structure
  • Error Surface
  • Gradient Descent Algorithm
  • Backward Propagation
  • Network Topology
  • Principles of Gradient Descent (Manual Calculation)
  • Learning Rate (eta)
  • Batch Gradient Descent
  • Stochastic Gradient Descent
  • Minibatch Stochastic Gradient Descent
  • Optimization Methods: Adagrad, Adadelta, RMSprop, Adam
  • Convolution Neural Network (CNN)
  • ImageNet Challenge – Winning Architectures
  • Parameter Explosion with MLPs
  • Convolution Networks
  • Recurrent Neural Network
  • Language Models
  • Traditional Language Model
  • Disadvantages of MLP
  • Back Propagation Through Time
  • Long Short-Term Memory (LSTM)
  • Gated Recurrent Network (GRU)

Learn about single-layered Perceptrons, Rosenblatt’s perceptron for weights and bias updation. You will understand the importance of learning rate and error. Walk through a toy example to understand the perceptron algorithm. Learn about the quadratic and spherical summation functions. Weights updating methods - Windrow-Hoff Learning Rule & Rosenblatt’s Perceptron.

 
  • Introduction to Perceptron
  • Introduction to Multi-Layered Perceptron (MLP)
  • Activation functions – Identity Function, Step Function, Ramp Function, Sigmoid Function, Tanh Function, ReLU, ELU, Leaky ReLU & Maxout
  • Back Propagation Visual Demonstration
  • Network Topology – Key characteristics and Number of layers
  • Weights Calculation in Back Propagation

Understand the difference between perception and MLP or ANN. Learn about error surface, challenges related to gradient descent and the practical issues related to deep learning. You will learn the implementation of MLP on MNIST dataset - multi class problem, IMDB dataset - binary classification problem, Reuters dataset - single labelled multi class classification problem and Boston Housing dataset - Regression Problem using Python and Keras.

 
  • Error Surface – Learning Rate & Random Weight Initialization
  • Local Minima issues in Gradient Descent Learning
  • Is DL a Holy Grail? Pros and Cons
  • Practical Implementation of MLP/ANN in Python using Real Life Use Cases
  • Segregation of Dataset - Train, Test & Validation
  • Data Representation in Graphs using Matplotlib
  • Deep Learning Challenges – Gradient Primer, Activation Function, Error Function, Vanishing Gradient, Error Surface challenges, Learning Rate challenges, Decay Parameter, Gradient Descent Algorithmic Approaches, Momentum, Nestrov Momentum, Adam, Adagrad, Adadelta & RMSprop
  • Deep Learning Practical Issues – Avoid Overfitting, DropOut, DropConnect, Noise, Data Augmentation, Parameter Choices, Weights Initialization (Xavier, etc.)

Convolution Neural Network are the class of Deep Learning networks which are mostly applied on images. You will learn about ImageNet challenge, overview on ImageNet winning architectures, applications of CNN, problems of MLP with huge dataset.

 

You will understand convolution of filter on images, basic structure on convent, details about Convolution layer, Pooling layer, Fully Connected layer, Case study of AlexNet and few of the practical issues of CNN.

 
  • ImageNet Challenge – Winning Architectures, Difficult Vision Problems & Hierarchical Approach
  • Parameter Explosion with MLPs
  • Convolution Networks - 1D ConvNet, 2D ConvNet, Transposed Convolution
  • Convolution Layers with Filters and Visualizing Convolution Layers
  • Pooling Layer, Padding, Stride
  • Transfer Learning - VGG16, VGG19, Resnet, GoogleNet, LeNet, etc.
  • Practical Issues – Weight decay, Drop Connect, Data Manipulation Techniques & Batch Normalization

You will learn image processing techniques, noise reduction using moving average methods, different types of filters - smoothing the image by averaging, Gaussian filter and the disadvantages of correlation filters. You will learn about different types of filters, boundary effects, template matching, rate of change in the intensity detection, different types of noise, image sampling and interpolation techniques.

 

You will also learn about colors and intensity, affine transformation, projective transformation, embossing, erosion & dilation, vignette, histogram equalization, HAAR cascade for object detection, SIFT, SURF, FAST, BRIEF and seam carving.

 
  • Introduction to Vision
  • Importance of Image Processing
  • Image Processing Challenges – Interclass Variation, ViewPoint Variation, Illumination, Background Clutter, Occlusion & Number of Large Categories
  • Introduction to Image – Image Transformation, Image Processing Operations & Simple Point Operations
  • Noise Reduction – Moving Average & 2D Moving Average
  • Image Filtering – Linear & Gaussian Filtering
  • Disadvantage of Correlation Filter
  • Introduction to Convolution
  • Boundary Effects – Zero, Wrap, Clamp & Mirror
  • Image Sharpening
  • Template Matching
  • Edge Detection – Image filtering, Origin of Edges, Edges in images as Functions, Sobel Edge Detector
  • Effect of Noise
  • Laplacian Filter
  • Smoothing with Gaussian
  • LOG Filter – Blob Detection
  • Noise – Reduction using Salt & Pepper Noise using Gaussian Filter
  • Nonlinear Filters
  • Bilateral Filters
  • Canny Edge Detector - Non Maximum Suppression, Hysteresis Thresholding
  • Image Sampling & Interpolation – Image Sub Sampling, Image Aliasing, Nyquist Limit, Wagon Wheel Effect, Down Sampling with Gaussian Filter, Image Pyramid, Image Up Sampling
  • Image Interpolation – Nearest Neighbour Interpolation, Linear Interpolation, Bilinear Interpolation & Cubic Interpolation
  • Introduction to the dnn module
    • Deep Learning Deployment Toolkit
    • Use of DLDT with OpenCV4.0
  • OpenVINO Toolkit
    • Introduction
    • Model Optimization of pre-trained models
    • Inference Engine and Deployment process

Understand the language models for next word prediction, spell check, mobile auto-correct, speech recognition, and machine translation. You will learn the disadvantages of traditional models and MLP. Deep understanding of the architecture of RNN, RNN language model, backpropagation through time, types of RNN - one to one, one to many, many to one and many to many along with different examples for each type.

 
  • Introduction to Adversaries
  • Language Models – Next Word Prediction, Spell Checkers, Mobile Auto-Correction, Speech Recognition & Machine Translation
  • Traditional Language model
  • Disadvantages of MLP
  • Introduction to State & RNN cell
  • Introduction to RNN
  • RNN language Models
  • Back Propagation Through time
  • RNN Loss Computation
  • Types of RNN – One to One, One to Many, Many to One, Many to Many
  • Introduction to the CNN and RNN
  • Combining CNN and RNN for Image Captioning
  • Architecture of CNN and RNN for Image Captioning
  • Bidirectional RNN
  • Deep Bidirectional RNN
  • Disadvantages of RNN
  • Frequency-based Word Vectors
  • Count Vectorization (Bag-of-Words, BoW), TF-IDF Vectorization
  • Word Embeddings
  • Word2Vec - CBOW & Skip-Gram
  • FastText, GloVe

Faster object detection using YOLO models will be learnt along with setting up the environment. Learn pretrained models as well as building models from scratch.

 
  • YOLO v3
  • YOLO v4
  • Darknet
  • OpenVINO
  • ONNX
  • Fast R-CNN
  • Faster R-CNN
  • Mask R-CNN

Understand and implement Long Short-Term Memory, which is used to keep the information intact, unless the input makes them forget. You will also learn the components of LSTM - cell state, forget gate, input gate and the output gate along with the steps to process the information. Learn the difference between RNN and LSTM, Deep RNN and Deep LSTM and different terminologies. You will apply LSTM to build models for prediction.

Gated Recurrent Unit, a variant of LSTM solves this problem in RNN. You will learn the components of GRU and the steps to process the information.

 
  • Introduction to LSTM – Architecture
  • Importance of Cell State, Input Gate, Output Gate, Forget Gate, Sigmoid and Tanh
  • Mathematical Calculations to Process Data in LSTM
  • RNN vs LSTM - Bidirectional vs Deep Bidirectional RNN
  • Deep RNN vs Deep LSTM
 
  • Seq2Seq (Encoder - Decoder Model using RNN variants)
  • Attention Mechanism
  • Transformers (Encoder - Decoder Model by doing away from RNN variants)
  • Bidirectional Encoder Representation from Transformer (BERT)
  • OpenAI GPT-4 Models (Generative Pre-Training)
  • Text Summarization with T5
  • Configurations of BERT
  • Pre-Training the BERT Model
  • ALBERT, RoBERTa, ELECTRA, SpanBERT, DistilBERT, TinyBERT

You will learn about the components of Autoencoders, steps used to train the autoencoders to generate spatial vectors, types of autoencoders and generation of data using variational autoencoders. Understanding the architecture of RBM and the process involved in it.

 
  • Autoencoders
    • Intuition
    • Comparison with other Encoders (MP3 and JPEG)
    • Implementation in Keras
  • Deep AutoEncoders
    • Intuition
    • Implementing DAE in Keras
  • Convolutional Autoencoders
    • Intuition
    • Implementation in Keras
  • Variational Autoencoders
    • IntuitionImplementation in Keras
  • Introduction to Restricted Boltzmann Machines - Energy Function, Schematic implementation, Implementation in TensorFlow

You will learn the difference between CNN and DBN, architecture of deep belief networks, how greedy learning algorithms are used for training them and applications of DBN.

 
  • Introduction to DBN
  • Architecture of DBN
  • Applications of DBN
  • DBN in Real World

Understanding the generation of data using GAN, the architecture of the GAN - encoder and decoder, loss calculation and backpropagation, advantages and disadvantages of GAN.

 
  • Introduction to Generative Adversarial Networks (GANS)
  • Data Analysis and Pre-Processing
  • Building Model
  • Model Inputs and Hyperparameters
  • Model losses
  • Implementation of GANs
  • Defining the Generator and Discriminator
  • Generator Samples from Training
  • Model Optimizer
  • Discriminator and Generator Losses
  • Sampling from the Generator
  • Advanced Applications of GANS
    • Pix2pixHD
    • CycleGAN
    • StackGAN++ (Generation of photo-realistic images)
    • GANs for 3D data synthesis
    • Speech quality enhancement with SEGAN

You will learn to use SRGAN which uses the GAN to produce the high-resolution images from the low-resolution images. Understand about generators and discriminators.

 
  • Introduction to SRGAN
  • Network Architecture - Generator, Discriminator
  • Loss Function - Discriminator Loss & Generator Loss
  • Implementation of SRGAN in Keras

You will learn Q-learning which is a type of reinforcement learning, exploiting using the creation of a Q table, randomly selecting an action using exploring and steps involved in learning a task by itself.

 
  • Reinforcement Learning
  • Deep Reinforcement Learning vs Atari Games
  • Maximizing Future Rewards
  • Policy vs Values Learning
  • Balancing Exploration With Exploitation
  • Experience Replay, or the Value of Experience
  • Q-Learning and Deep Q-Network as a Q-Function
  • Improving and Moving Beyond DQN
  • Keras Deep Q-Network

Learn to Build a speech to text and text to speech models. You will understand the steps to extract the structured speech data from a speech, convert that into text. Later use the unstructured text data to convert into speech.

 
  • Speech Recognition Pipeline
  • Phonemes
  • Pre-Processing
  • Acoustic Model
  • Deep Learning Models
  • Decoding

Learn to Build a chatbot using generative models and retrieval models. We will understand RASA open-source and LSTM to build chatbots.

 
  • Introduction to Chatbot
  • NLP Implementation in Chatbot
  • Integrating and implementing Neural Networks Chatbot
  • Introduction to Sequence to Sequence models and Attention
    • Transformers and it applications
    • Transformers language models
      • BERT
      • Transformer-XL (pretrained model: “transfo-xl-wt103”)
      • XLNet
  • Building a Retrieval Based Chatbot
  • Deploying Chatbot in Various Platforms

Learn the tools which automatically analyzes your data and generates candidate model pipelines customized for your predictive modeling problem.

 
  • AutoML Methods
    • Meta-Learning
    • Hyperparameter Optimization
    • Neural Architecture Search
    • Network Architecture Search
  • AutoML Systems
    • MLBox
    • Auto-Net 1.0 & 2.0
    • Hyperas
  • AutoML on Cloud - AWS
    • Amazon SageMaker
    • Sagemaker Notebook Instance for Model Development, Training and Deployment
    • XG Boost Classification Model
    • Training Jobs
    • Hyperparameter Tuning Jobs
  • AutoML on Cloud - Azure
    • Workspace
    • Environment
    • Compute Instance
    • Compute Targets
    • Automatic Featurization
    • AutoML and ONNX

Learn the methods and techniques which can explain the results and the solutions obtained by using deep learning algorithms.

 
  • Introduction to XAI - Explainable Artificial Intelligence
  • Why do we need it?
  • Levels of Explainability
    • Direct Explainability
      • Simulatability
      • Decomposability
      • Algorithmic Transparency
    • Post-hoc Explainability
      • Model-Agnostic Algorithms
        • Explanation by simplification (Local Interpretable Model-Agnostic Explanations (LIME))
        • Feature relevance explanation
          • SHAP
          • QII
          • SA
          • ASTRID
          • XAI
        • Visual Explanations
  • General AI vs Symbolic Al vs Deep Learning
  • Check out the Deep Learning Interview Questions here.
  • A open-source AutoML framework based on a popular Python library Keras. It allows a non-programmer also to use advanced high-performance DL models with hyperparameter searching. Check out the AutoKeras - A New Revolution into Deep Learning here.

A Large Language Model (LLM) in the context of data science typically refers to advanced natural language processing (NLP) models, which I am based on. These LLMs are designed to understand and generate human-like text, making them useful for a variety of data science tasks.

Generative AI, Diffusion Models, and Prompt Engineering are all related concepts in the field of artificial intelligence and natural language processing. Let me briefly explain each of them:

  • Generative AI
    • Creative Applications
    • Data Augmentation
    • ChatGPT
    • Mid Journey
    • Crayon
  • Diffusion Models
    • Realistic Data Generation
    • Applications Beyond Text
    • Prompt Engineering
      • Fine-Tuning for Specific Tasks
      • Mitigating Bias and Ethical Concerns
      • What Is Prompt Engineering?
      • Understanding Prompts: Inputs, Outputs, and Parameters
      • Crafting Simple Prompts: Techniques and Best Practices
      • Evaluating and Refining Prompts: An Iterative Process
      • Role Prompting and Nested Prompts
      • Chain-of-Thought Prompting
      • Multilingual and Multimodal Prompt Engineering
      • Generating Ideas Using "Chaos Prompting"
      • Using Prompt Compression Techniques

Playgrounds provide a sandbox-like setting where users can test different algorithms, models, and methodologies to gain insights and improve their skills.

DALL-E is a groundbreaking generative model in the field of data science and artificial intelligence, developed by OpenAI. The name "DALL-E" is a combination of the famous artist Salvador Dalí and the robot character WALL-E from the Pixar film.

Tableau Course Syllabus
  • Eye for Detail - (Tableau Crosstabs), Highlight tables
  • Comparative Analysis - Bar Graphs, Side-By-Side Bars, Circle Views, Heat Map, Bubble Chart
  • Composition Analysis - Pie Chart, Donut Chart, Stacked Bar Graph
  • Trend Analysis - Line Graphs and Area Graphs (Discrete and Continuous)
  • Hierarchial Data Representation - Tree Map
  • Correlation Analysis - Scatter Plot
  • Distribution Analysis - Tableau Histogram, Box and Whisker Plot
  • GeoSpatial Data Representation - Filled Maps, Symbol Maps, Combination Maps, Polygon Maps
  • Relative comparison of 2 Measures - Bullet Graph, Dual Axis Chart, Dual Combination Chart, Blended Axis Chart, Bar in a Bar Chart
  • Pareto Analysis - Pareto Chart
  • Statistical Control Chart
  • Tableau Gantt Chart
  • Tableau Desktop Specialist
  • Tableau Desktop Certified Associate
Power BI Syllabus
  • Introduction
  • Overview of Power BI
  • Architecture of Power BI
  • Power BI and Plans
  • Installation and Introduction to Power BI
  • Importing data
  • Changing Database
  • Data Types in Power BI
  • Basic Transformations
  • Managing Query Groups
  • Splitting Columns
  • Changing Data Types
  • Working with Dates
  • Removing and Reordering Columns
  • Conditional Columns
  • Custom columns
  • Connecting to Files in a Folder
  • Merge Queries
  • Query Dependency View
  • Transforming Less Structured Data
  • Query Parameters
  • Column profiling
  • Query Performance Analytics
  • M-Language
  • Managing Data Relationships
  • Data Cardinality
  • Creating and Managing Hierarchies Using Calculated Tables
  • Introduction to Visualization
  • Check out the Power Bi why does it matter here.
  • What is Dax?
  • How to write DAX
  • Types of Function in DAX
  • Creating Calculated Measures
  • Types of Application of DAX
  • Introduction
  • Pie and Doughnut charts
  • Treemap
  • Bar Chart with Line (Combo Chart)
  • Filter (Including TopN)
  • Slicer
  • Focus Mode and See Data
  • Table and Matrix
  • Gauge, Card, and KPI
  • Coloring Charts
  • Shapes, Textboxes, and Images
  • Gridlines and Snap to Grid
  • Custom Power BI visuals
  • Tooltips and Drilldown
  • Page Layout and Formatting
  • Visual Relationship
  • Maps
  • Python and R . Visual Integration
  • Analytics Pane
  • Bookmarks and Navigation
  • Selection pane
  • Overview of Dashboards and Service
  • Uploading to Power BI Service
  • Quick Insights
  • Dashboard Settings
  • Natural Language Queries
  • Featured Questions
  • Sharing a Dashboard
  • In-Focus Mode
  • Notifications and Alerts in the Power BI Service
  • Personal Gateway Publishing to Web Admin Portal
  • Introduction
  • Creating a Content Pack
  • Using a Content Pack
  • Row Level Security
  • Summary
SUNY University Syllabus
  • Introduction to Artificial Intelligence
  • AI Development Theory
  • Machine Learning
  • Problems and Uncertainty
  • Introducing Natural Language Processing
  • AI and ML Solutions with Python
  • Developing AI and ML Solutions with Java
  • Tensor Flow
  • Neural Network
  • Applying Machine Learning
  • Planning for AI
  • Applied Predictive Modeling
  • Essentials of BlockChain
  • Understanding and Building Bots
  • HCI Principles and Methods
  • Computer Vision for AI
  • Cognitive Models
  • Elements of an Artificial Intelligence Architect
  • Reusable AI Architecture Patterns
  • AI Enterprise Planning
  • AI Framework Overview
  • AI in Industry
  • Evaluating Current and Future AI Technologies and Frameworks
  • Applying Cognitive Models
  • AI and Robotics
  • Building Intelligent Information Systems
  • AI Apprentice to AI Architect
  • Business & Leadership for AI Architects
  • Productivity Tools for AI Architects
Tools Covered
Data Science & AI course using python
Data Science and AI course using r programming
Data Science and AI course using r studio programming
Data Science and AI course with keras tool
Data Science and AI course with jupyter
artificial intelligence and data science course with pytorch
artificial intelligence and data science course with Tensor flow tool
artificial intelligence and data science course with spyder
artificial intelligence and data science course with numpy tool
artificial intelligence and data science course with pandas
artificial intelligence and data science course with scikit
artificial intelligence and data science course with scipy

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professional certification program in data science and ai
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Data Science and AI Course Certification

Get recognised for your advanced data skills with the Professional Certification in Data Science and AI. Make your mark in the highly competitive AI talent market.

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FAQs for Artificial Intelligence and Data Science Course Training

The courses in AI and data science are also in high demand for those pursuing cutting-edge technologies. They possess the ability to use machine learning, data analysis, and predictive models, which are highly marketable across industry sectors. Despite that, success is reliant on commitment, persistent learning outside the curriculum, and taking every opportunity beyond the class to gain experience in these areas.

An artificial intelligence and data science are available to the range of people who are ready to develop their knowledge in this field. Students, professionals, researchers, and even data science enthusiasts would be able to engage in studies AI and data science majoring in fields including computer science, mathematics, engineering, statistics and social sciences. Being inquisitive, an analytical thinker, and having a desire to solve problems are determining qualities you'll need for their success.

Data science refers to the processes that use statistics and machine learning in order to draw insights from data. It includes data gathering, cleaning, analysis, and interpretation. Artificial intelligence (AI) presents AI systems which are able to do tasks that require human intelligence, including machine learning and robotics. AI is designed to create systems that can learn, adapt and act freely beyond the scope of data science that emphasizes on analyzing.

Yes, data science is in high demand across various industries. Organizations are increasingly relying on data-driven decision-making, leading to a surge in demand for professionals with expertise in data analysis, machine learning, and statistical modeling. The demand for data scientists is expected to continue growing as businesses strive to leverage data for competitive advantage and innovation.

In fact, data science is an occupation that is highly needed in many different industries. Organizations are resorting to data-driven decision making resulting in a wave of demand for professionals who are conversant with data analysis, machine learning and statistical modeling. Data scientists will remain in high demand as companies get obsessed with data for competitive advantage and innovation.

Deciding on a specific "best" institute for AI requires taking all the aforementioned considerations into account such as your location, school preferences, career plans, and personal interests. Nonetheless, there are some famous institutions across the globe that are recognized for their AI research and education. Some of these events such as 360DigiTMG and coursers were conducted solely online, alongside others.

The best stream for AI typically includes disciplines such as computer science, mathematics, statistics, engineering, and related fields. These streams provide foundational knowledge in algorithms, programming, and problem-solving, which are essential for AI development.

The qualifications for data science and AI courses vary depending on the institution and program. Generally, a bachelor's degree in a relevant field such as computer science, mathematics, statistics, or engineering is required for entry into these courses. Some advanced programs may require relevant work experience or a master's degree.

The duration to learn data science and AI varies based on prior knowledge, learning pace, and the depth of the curriculum. Short courses or bootcamps may last a few months, while comprehensive degree programs can take one to three years to complete. Online courses may offer more flexibility in terms of pace and duration.

Artificial Intelligence offers promising career prospects for the future. With advancements in technology, AI is increasingly being integrated into various sectors, including healthcare, finance, retail, and manufacturing. Professionals with expertise in AI can expect a wide range of job opportunities and competitive salaries in the evolving job market. However, staying updated with the latest advancements and continuously improving skills will be crucial for long-term success in this field.

Jobs in the field of Data Science & AI in India

Data Science & AI Jobs in India

This course on data science with AI will help you in grabbing opportunities that are in great demand. You would be suitable in the positions for Data Scientist, Business Intelligence Developer, AI researcher, Algorithm engineer, Data mining Analyst, Business Analyst.

Salaries in India for Data Scientist

Salaries for Data Science & AI

The average salary for a Data Scientist with Artificial Intelligence (AI) skills in India is Rs.1,455,232, while at the entry-level in India it is around Rs.6,20,000, mid-level and senior-level salary could earn more than Rs.55,00,000 in India. It increases with relevant experience.

Data Science and AI Course Projects in India

Data Science & AI Projects in India

Data Science with Artificial Intelligence is the perfect solution for complex issues. This technology is used in varied fields like Banking, Fake news detection, Health care sector, Speech emotion Recognition project, and in investigating crimes.

Role of Open Source Tools in Data science and Ai Course

Roles of Open Source Tools in Data Science & AI

There are many popular tools in Data Science which are used extensively like Python, R, R studio, Tableau, Tensor flow, Keras, Terax. This helps in solving Data Science algorithms.

Modes of Training for Data Science and AI course

Modes of Data Science & AI Training

This course is specifically designed as per the requirements of professionals and freshers. 360DigiTMG delivers classroom sessions as well as online sessions with a dedicated team of trainers and mentors.

Industry Application of Data Science and AI Course

Industry Applications of Data Science & AI

Many industries are imbibing this trending technology in their business to boost their production. Chatbots, IoT applications, the Transportation sector, Health care, Education sector, Investigation departments, Banking are among those.

Companies That Trust Us

360DigiTMG offers customised corporate training programmes that suit the industry-specific needs of each company. Engage with us to design continuous learning programmes and skill development roadmaps for your employees. Together, let’s create a future-ready workforce that will enhance the competitiveness of your business.

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