❗The content presented here is sourced directly from Swayam platform. For comprehensive course details, including enrollment information, simply click on the 'Go to class' link on our website.

Updated in [May 25th, 2023]

This course, Introduction to R Software, is designed to provide students with a comprehensive overview of the R software. It is intended for undergraduate students of Science and Engineering, as well as students of humanities with basic mathematical background. Working professionals in analytics and anyone involved in programming, mathematical and statistical computations, simulations and data analysis can also benefit from this course.

The course will cover the basics of R software, including its programming language and built-in functions. Participants will learn how to use the software to perform mathematical and statistical manipulations. A mathematics background up to class 12 is needed, although having some preliminary knowledge will be helpful but not necessarily mandatory.

This course is beneficial for all industries involved in mathematical and statistical computations, programming and simulations and having R & D set up. Upon completion of the course, participants will have a comprehensive understanding of the R software and its capabilities.

[Applications]
After completing this course, participants will be able to apply the knowledge of R software to their respective fields. They will be able to use the software to perform mathematical and statistical manipulations, programming, simulations and data analysis. They will also be able to create their own functions and scripts to automate their tasks. Furthermore, they will be able to use the software to create visualizations and graphical representations of data. Finally, they will be able to use the software to develop applications and models for their respective fields.

[Career Paths]
1. Data Scientist: Data Scientists use R software to analyze large datasets and uncover patterns and trends. They use the software to develop predictive models and create visualizations to help businesses make better decisions. They also use the software to develop machine learning algorithms and build AI-driven applications.

2. Business Analyst: Business Analysts use R software to analyze data and develop insights that can help businesses make better decisions. They use the software to create visualizations and develop predictive models to help businesses understand their data better.

3. Software Developer: Software Developers use R software to develop applications and software solutions. They use the software to create algorithms and develop machine learning models. They also use the software to develop web applications and mobile applications.

4. Research Scientist: Research Scientists use R software to analyze data and develop insights that can help them understand the world better. They use the software to develop predictive models and create visualizations to help them understand their data better. They also use the software to develop machine learning algorithms and build AI-driven applications.

The demand for professionals with knowledge of R software is increasing as businesses are increasingly relying on data-driven decisions. With the rise of AI and machine learning, the need for professionals with knowledge of R software is expected to grow even further. Companies are looking for professionals who can use R software to develop predictive models, create visualizations, and develop machine learning algorithms.

[Education Paths]
1. Bachelor of Science in Data Science: Data Science is a rapidly growing field that combines mathematics, statistics, and computer science to analyze and interpret large datasets. This degree program provides students with the skills and knowledge to analyze and interpret data, develop predictive models, and create data-driven solutions. Students will learn to use programming languages such as Python and R, as well as statistical software such as SAS and SPSS. As the demand for data-driven solutions continues to grow, this degree program is becoming increasingly popular.

2. Master of Science in Artificial Intelligence: Artificial Intelligence (AI) is a rapidly growing field that combines computer science, mathematics, and statistics to create intelligent systems that can learn and adapt to their environment. This degree program provides students with the skills and knowledge to develop AI algorithms, create machine learning models, and develop AI-driven solutions. Students will learn to use programming languages such as Python and R, as well as statistical software such as SAS and SPSS. As the demand for AI-driven solutions continues to grow, this degree program is becoming increasingly popular.

3. Bachelor of Science in Computer Science: Computer Science is a rapidly growing field that combines mathematics, engineering, and computer science to create software and hardware solutions. This degree program provides students with the skills and knowledge to develop software applications, create computer networks, and develop computer-driven solutions. Students will learn to use programming languages such as Python and R, as well as statistical software such as SAS and SPSS. As the demand for computer-driven solutions continues to grow, this degree program is becoming increasingly popular.

4. Master of Science in Data Analytics: Data Analytics is a rapidly growing field that combines mathematics, statistics, and computer science to analyze and interpret large datasets. This degree program provides students with the skills and knowledge to analyze and interpret data, develop predictive models, and create data-driven solutions. Students will learn to use programming languages such as Python and R, as well as statistical software such as SAS and SPSS. As the demand for data-driven solutions continues to grow, this degree program is becoming increasingly popular.