Indian Space Team Planeterium Division  

The Indian Space Team (IST) Planetarium Division operates as a specialized educational wing of the organization, focusing on bringing the wonders of the cosmos to learners through a Global Portable Planetarium Service. As an officially recognized ISRO Space Tutor (Entry #192), the team leverages its technical expertise in rocketry to provide an immersive astronomical experience that transcends traditional classroom learning.

1. Global Portable Service Model

The Planetarium Division specializes in Mobile Inflatable Domes, designed for rapid deployment across both national and international locations. This "Planetarium on Wheels" approach ensures that high-quality space education is not limited to major cities with fixed infrastructure.

• Nationwide Reach (India): Specifically targeting rural and semi-urban areas in India, the IST Planetarium program brings 3D, 360-degree space shows directly to school campuses.

• International Standards: The division utilizes Digisky™ full-dome technology and high-resolution digital projection systems that meet global pedagogical standards for STEM education.

• Versatile Setup: The portable units require only a standard indoor space (typically 20ft x 20ft with a 10ft ceiling) and can be fully operational within 45 minutes.

2. Immersive Educational Programs

The division's core focus is on Cosmic Research and Storytelling, offering a range of shows tailored to different age groups (K-12).

• Virtual Space Missions: Programs include simulated journeys through the solar system, exploration of distant galaxies, and visualizations of black holes.

• Curriculum Integration: The content is aligned with the National Education Policy (NEP) 2020, focusing on building a "scientific temperament" through experiential learning.

• Multilingual Support: To ensure grassroots impact in India, shows are often available in English, Hindi, and local regional languages.

3. Connection to the Space Tutor Initiative

Being a part of the ISRO Space Tutor roster allows the IST Planetarium Division to deliver authenticated content supported by national space science goals.

• Certified Learning: Students participating in the planetarium program often receive e-certificates, validating their engagement with official space education modules.

• The "Space on Wheels" Synergy: The division’s portable service works in harmony with ISRO’s own "Space on Wheels" initiatives to ensure that the excitement of space exploration reaches even the most remote corners of the world.

The Indian Space Team (IST) Rocketry Division is a dedicated vertical for hands-on rocketry education, training, and flight demonstration. As an ISRO-Registered Space Tutor (Entry #192), the division bridges the gap between theoretical physics and actual hardware development, serving a global audience while maintaining a deep focus on grassroots India.

1. Rocketry Training Curriculum

The training program is designed to transform students and enthusiasts into "Rocket Scientists of Tomorrow" through a structured, multi-level syllabus.

• Aerodynamics & Stability: Students learn the science of Center of Gravity (CG) and Center of Pressure (CP), ensuring their rockets fly straight and stable during high-velocity ascent.

• Propulsion Systems: Detailed training on the fundamentals of thrust, including the specific impulse ($I_{sp}$) of solid, liquid, and the division's flagship NAMBI Hybrid Engines.

• Rocket Avionics: Training on the "brain" of the rocket, covering flight computers, telemetry, and navigation systems to ensure precise payload delivery.

• Simulation Software: Use of tools like OpenRocket to model, simulate, and refine designs before physical construction begins.

2. Launching Programs & Practical Service

The division provides turnkey launching services that allow students to see their engineering work take flight.

• Model Rocketry Demonstrations: Nationally, the division conducts workshops where students build and launch their own model rockets, often using safe, non-pyrotechnic or certified solid fuel engines.

• Payload Integration: For more advanced sessions, participants design CubeSat prototypes (like the ones intended for the Narayan Mk1) to be launched and recovered, teaching them real-world data collection and analysis.

• International Outreach: IST provides portable training services globally, exporting Indian-made educational kits and virtual workshops to international partners to promote global space science literacy.

The Computer AI of India Robotics Lab is a specialized technology hub established by the Indian Space Team (IST). Working under the IST Outreach Department, this lab initiative serves as a bridge between classroom education and the high-tech requirements of modern space and terrestrial robotics.

By stabilizing these labs directly within schools, the IST ensures that students from rural villages to global cities have the tools to participate in the "AI Revolution."

1. Laboratory Stabilization in Schools

The "Computer AI of India" division specializes in a Turnkey Lab Setup, transforming a standard school room into a high-tech innovation center.

• Hardware Ecosystem: The lab is equipped with indigenous robotics kits designed by the IST team, including sensors, microcontrollers (Arduino/Raspberry Pi), and mechanical chassis for building everything from line-followers to autonomous rovers.

• AI Processing Stations: Schools are provided with workstations capable of running Python-based machine learning models and computer vision software.

• Virtual Reality (VR) Corner: Many IST labs include a VR zone where students can virtually "drive" rovers on a lunar or Martian landscape, simulating the environment of the Narayan Mk1 missions.

2. National & International Outreach

The Computer AI of India doesn't just provide equipment; it provides a globalized standard of education.

Specifically in India (Rural to Urban)

• Grassroots Stabilization: Following founder Shivam Yadav’s mission, the division focuses on setting up these labs in rural schools in Uttar Pradesh and beyond, providing the same technology used in major metros.

• ISRO Space Tutor Alignment: As an ISRO Space Tutor, the lab’s curriculum is authenticated by national standards, ensuring that students are learning skills relevant to India's national space goals.

International Portable Service

• Global Lab Standards: The division exports its "Lab-in-a-Box" model internationally, allowing schools in other countries to implement the same robotics training used by the Indian Space Team.

• Remote Mentorship: International partner schools can connect with IST’s central engineers in India for live AI training sessions and collaborative projects.

The Indian Space Team (IST) Astronomy Education Program is a premier initiative of the IST Astronomy Department, designed to inspire the next generation of space explorers. Operating under the IST Outreach Department, this program is delivered both nationally across India and to international students, providing a unique "Theory-to-Observation" experience.

The program is structured as a two-day intensive workshop, followed by long-term engagement through a Citizen Science platform.

Two-Day Workshop Structure

Day 1: The Theory Class (Foundation)

The first day is dedicated to building a strong conceptual foundation. Classes are conducted by experts from the Astronomy Department and invited scientists.

• Stellar Evolution: Understanding the life cycle of stars, from nebulae to black holes.

• Coordinate Systems: Learning how to map the sky using Right Ascension (RA) and Declination (Dec).

• Telescope Science: A deep dive into how different wavelengths (Optical, Radio, X-ray) allow us to "see" the invisible universe.

• Constellation Mapping: Identifying major constellations and the mythology/science behind them.

Day 2: Live Space Event (Observation & Practice)

The second day moves from the classroom to the field (or virtual observatory for international sessions) for a Live Sky Observation.

• Planetary Sighting: Students use high-grade telescopes to observe craters on the Moon, the rings of Saturn, or the moons of Jupiter.

• Deep Sky Objects (DSOs): Tracking nebulae and star clusters.

• Live Commentary: Astronomers provide real-time narration, explaining the physics of what the students are seeing through the lens.

• Mobile App Integration: Students are taught to use sky-mapping apps to continue their journey independently.

IST Citizen Science Program: "People-Powered Research"

Beyond the workshop, the IST Astronomy Department invites students and the general public to become Citizen Scientists. This program allows individuals to contribute to real-world scientific discoveries from their own homes.

Key Projects:

1. Asteroid Search Campaign: In collaboration with international bodies (like IASC), students analyze real sky-survey images to detect "Near-Earth Objects" (NEOs).

2. Galaxy Classification: Participants help categorize galaxy shapes, aiding the Cosmology Division in understanding the large-scale structure of the universe.

3. Variable Star Monitoring: Citizen scientists track changes in the brightness of stars, providing valuable data for astrophysical research.

Vision: "To turn every school playground into an observatory and every student into a scientist, ensuring the universe is accessible to all." 

The Computer AI of India, under the IST Outreach Department, has designed a high-impact, two-day workshop specifically for students. This program bridges the gap between basic coding and advanced aerospace applications, preparing participants for the era of autonomous space exploration.

🚀 Workshop Theme: "The Brain of the Rocket"

Objective: To teach students how to build intelligent systems for rockets and rovers, mirroring the tech used in Project TUSAR and the Narayan Mk1.

Day 1: Foundations & Neural Blueprints

Focus: Understanding AI and its role in Space.

• Session 1: Introduction to Space AI

  • What is AI? Difference between Machine Learning (ML) and Deep Learning.

  • Case Study: How AI manages satellite constellations and identifies exoplanets.

• Session 2: Python for Aerospace

  • Crash course in Python—the language of modern AI.

  • Hands-on: Writing simple scripts to process "mock" telemetry data from a rocket.

• Session 3: Computer Vision Basics

  • Teaching machines to "see."

  • Activity: Build a basic image classifier that can distinguish between a crater, a boulder, and a landing site.

• Evening Talk: "From Bahasua to LEO"—The journey of IST and the vision of Shivam Yadav.

Day 2: Advanced Robotics & Mission Simulation

Focus: Autonomous systems and hands-on hardware integration.

• Session 4: Autonomous Rover Navigation

  • Introduction to ROS (Robot Operating System).

  • How rovers use LiDAR and AI to navigate Martian terrain without human help.

• Session 5: Project TUSAR Challenge (Hardware Lab)

  • Activity: Programming a "Micro-Rover" to navigate an obstacle course using ultrasonic sensors and basic AI logic.

  • Simulation of the Narayan Mk1 automated payload deployment sequence.

• Session 6: Ethical AI & The Future

  • Discussion on space debris and using AI for sustainable "Green Rocketry."

  • Career pathways in the Indian and Global Space Economy.

• Closing: Certification distribution and onboarding for the IST Citizen Science Program.

This two-day workshop, titled "NextGen Hardware: Designing the Future of AI & Computing," is designed by the IST  Outreach Department with the Computer AI of India.

The program bridges the gap between fundamental electronics and the cutting-edge hardware (GPUs, TPUs, and Shakti Processors) that powers modern Artificial Intelligence.

📅 Day 1: Foundations & Architecture

Focus: Understanding how "thinking machines" are built from the ground up.

📅 Day 2: Advanced Design & AI Integration

Focus: Designing custom hardware for AI applications and industry standards.

🎓 Target Audience Customization

• School Students (9th-12th): Focus on the "fun" of building—LED patterns, basic sensors, and "What's inside my phone?"

• College Students: Deep dive into VLSI (Very Large Scale Integration) and FPGA programming.

• Professionals: Focus on Industry 4.0, hardware security, and optimizing hardware for Large Language Models (LLMs).

🛠 Tools & Kits Provided

• Hardware: Development boards (Shakti-compatible), breadboards, and multi-meters.

• Software: Open-source EDA tools (KiCAD), Vivado for FPGA, and AI-deployment wrappers.

📜 Certification & Outcomes

Participants will receive a Professional Certificate in Computer Hardware Design jointly issued by the  Computer AI of India.

Key Takeaway: You won't just learn how to fix a computer; you'll learn how to architect the next generation of Indian silicon.

This workshop is designed to bridge the gap between academic theory and the high-stakes reality of Indian defense aviation. Spearheaded by the Indian Space Team Outreach Department and engineered by the Indian Defense Team, this two-day intensive program moves from the physics of flight to the actual mechanics of combat aircraft design.

Day 1: Foundations of Aero-Physics and Defense Architecture

The first day focuses on the "Why" and "How" of flight, specifically tailored to the rugged requirements of the Indian Air Force and Navy.

• Session 1: The Anatomy of a Fighter Jet We break down the structural differences between commercial planes and defense assets like the Tejas (LCA) or Rafale. Participants will learn about airframe integrity, G-force tolerances, and the use of carbon fiber composites in modern Indian defense.

• Session 2: Aerodynamics & Stealth Geometry A deep dive into the four forces of flight—Lift, Weight, Thrust, and Drag—with a specific focus on "Stealth" geometry. How do we shape wings to deflect radar while maintaining supersonic stability?

• Session 3: Propulsion Systems (The Heart of the Bird) An exploration of Turbojet vs. Turbofan engines. We discuss the engineering behind afterburners and how the Kaveri engine project informs our domestic propulsion goals.

• Evening Lab: CAD Blueprinting Students and professionals will begin their first digital draft of a Unmanned Aerial Vehicle (UAV) using industry-standard design principles, focusing on wing loading and center of gravity (CoG).

Day 2: Advanced Design, Avionics, and Simulation

Day two shifts from static design to active systems and the future of unmanned warfare.

• Session 4: Avionics & Electronic Warfare (EW) The "Brain" of the aircraft. This session covers Fly-by-Wire systems, Radar (AESA), and how Indian defense tech integrates satellite data for real-time navigation and targeting.

• Session 5: Payload & Weapon Integration Design is nothing without utility. We study the physics of hardpoints—how to balance an aircraft when carrying BrahMos missiles or external fuel tanks without compromising the flight envelope.

• Session 6: The UAV Revolution (Swarm Technology) A special module on the future of Indian defense: Drone Swarms. We discuss the design of low-cost, high-impact autonomous systems and their role in modern border surveillance.

• Final Workshop: The "Defense Pitch" & Simulation Participants will test their Day 1 designs in a flight simulator environment. Professionals will be tasked with solving a specific "Mission Requirement" (e.g., high-altitude surveillance in the Himalayas), while students focus on basic flight stability.

Certification and Takeaways

Every participant will receive a certificate of completion from the Indian Space Team Outreach Department. You’ll leave not just with a model, but with a defense-oriented mindset toward engineering—prioritizing durability, indigenous manufacturing, and strategic superiority.