The Futurenauts Series is a pioneering initiative designed to equip diverse demographics with cutting-edge skills in AI, robotics, and automation. Each program within the series is meticulously tailored to meet the specific needs and challenges of its participants, ranging from high school students to seasoned professionals across various sectors. For high school students, the Futurenauts Launchpad provides a foundational education in advanced technologies and critical thinking skills necessary for future innovators. College students benefit from the Futurenauts Internship, which offers practical, hands-on experience with real-world projects, enhancing their academic knowledge and preparing them for competitive job markets.
Adding to this array is the Futurenauts B.Tech program, a comprehensive bachelor’s degree that integrates deep theoretical insights with practical applications in AI, robotics, and automation. This program is designed to foster not just knowledge but innovation and practical problem-solving skills, preparing students to lead and innovate in technology-driven fields. For professionals aiming to sharpen their expertise or pivot their careers towards technology-centric roles, the Futurenauts Professional Edge offers specialized corporate training, while the Futurenauts AI for All initiative ensures inclusive access to AI education, empowering both technical and non-technical professionals to utilize AI in their work.
Futurenauts B.Tech is an intensive, multi-semester program
designed to equip students with a broad and deep understanding of
both theoretical and practical aspects of software and hardware
engineering. Each semester focuses on specific areas, blending
core principles with advanced technologies and hands-on project
work, to prepare students for the challenges of modern engineering
roles.
These subjects are introduced in addition to the foundational classes
which will be around 100 Credits. For a B.Tech program with a total
for 170 Credits , 70 Credits will be from the additional classes, 100
Credits will be from the Foundational classes.
Basics of Software Development
Introduction to React.JS, React Native, and Node.JS
Introduction to STM32 and Microcontrollers
Overview of PCB Design and Motor Drivers
This semester lays the groundwork for understanding the
fundamentals of software and hardware engineering, providing a
balanced approach to learning and practical application.
Covering Continuous Integration, Containerization,
Monitoring, and Cloud-based DevOps practices.
Advanced topics in Microcontroller Programming, PCB
Design, and integrating hardware with software.
The second semester deepens knowledge in DevOps and hardware
engineering, emphasizing practical, hands-on experience and
integration of software with hardware systems.
Server-side development, RESTful APIs, and Database Integration.
Design principles, Interface Design, and Human-Robot Interaction (HRI).
Students will integrate backend technical skills with creative UX/UI
design, focusing on applications in robotics and AI.
QA methodologies, testing types, and tools.
Systems thinking, design, and practical applications.
This semester covers comprehensive aspects of quality assurance
and systems engineering, preparing students for complex modern
engineering challenges.
Product design, Industrial aesthetics, and User-centered design.
Documentation standards, Effective communication, and
Technical writing.
Focusing on the critical skills of design and documentation, this
semester enhances the ability to create user-friendly and well documented products.
Design and programming of robotic systems using ROS.
Mechanics, Material science, and Mechanical design.
Advanced topics in robotics and mechanical engineering are
explored to provide a holistic view of robotic system development.
Customer support strategies and advanced Python scripting.
Machine learning algorithms, Neural networks, and AI
applications.
This semester is designed to equip students with effective product
support skills and a deep understanding of AI in robotics.
Ethical considerations and societal impacts of AI and robotics.
Integration of learned skills into a comprehensive final
project.
The final semester emphasizes ethical considerations in AI and
robotics, culminating in a capstone project that showcases the skills
acquired throughout the program.
Each student engages in comprehensive projects, applying their
knowledge to real-world challenges. Projects span audio
recognition systems, crowd monitoring, object recognition, and
more, reflecting a robust integration of the diverse skills cultivated
during the B.Tech program.
Join Futurenauts B.Tech to start your journey in becoming a skilled
engineer, ready to tackle the challenges and opportunities of the
future tech landscape.
© Copyright 2015 - 2024 All Rights Reserved.