Makebot's Virtual Tech Camp teaches AI, Coding & Robotics through live simulation-based sessions. 100% online. No robots needed.
🗓️ Starts 15th June | Mon-Fri ⏰ 4:00 PM – 6:00 PM for online
Why This Camp
The World Economic Forum projects automation will reshape a significant share of today's jobs. Makebot equips students to lead that change—not just adapt to it.
3.No physical robots needed. The Makebot Robotic Simulator provides a safe, hands-on space to build and test real projects.
Two distinct tiers — Juniors (Grade 3–5) and Seniors (Grade 6–10) — so every session is engaging and level-appropriate.
Every session is live, instructor-led, and interactive — not pre-recorded. Real-time questions, real-time answers.
After registration, students get full access to the simulation platform and all materials to practice at their own pace.
Curriculum supports AICTSD "Mission India 2020–30" priorities, focusing on Machine Learning, Cybersecurity, and Autonomous Robotics.
Hands-on projects include OCR, computer vision, NLP, autonomous navigation, and cybersecurity, plus Arduino-based electronics: Arduino programming, sensor interfacing, motor/servo control, and basic circuit prototyping.
How It Works
Enroll and complete registration in just a few minutes. Instantly receive access all course materials.
Attend 8 live 60-minute instructor-led sessions over 4 exciting weeks.
Practice between sessions and emerge as a future-ready technologist.
Receive an official certificate upon successful completion of the camp.
Curriculum
60-minute virtual sessions designed for each age tier, using the MakeBot Simulation Environment. Every project is hands-on.
| Lesson | What Students Do | Learning Outcome |
|---|---|---|
01 Zombie Blitz: Survival Shooter Game Dev | Design a 2D top-down shooter — program player movement, bullet physics, and "Zombie" AI logic using sprites. | Event-based triggers and coordinate-based movement logic. |
02 Smart Security Alarm System IoT Sensors | Code a virtual "Tripwire" using mBot's light and sound sensors triggering a siren and flashing lights on breach. | Automated security principles and sensor-response loops. |
03 Word Wizard: Text Recognizer AI / OCR | Train an AI model to recognise handwritten letters and convert them into digital text using the mBlock extension. | Optical Character Recognition (OCR) — how AI "reads." |
04 Motion Magic: Hand Control Computer Vision | Train an ML model via webcam to translate hand gestures (Left/Right/Up) into robot navigation commands. | Intro to Computer Vision and Gesture-based HCI. |
05 Track Trekker: Line Chase Bot Robotics | Program a virtual bot to stay on a track with infrared sensors while reporting real-time obstacle distances. | Dual-sensor integration (Infrared + Ultrasonic) for lane discipline. |
06 Pathfinder Patrol: Explorer Autonomy | Develop a fully autonomous navigation script for a robot to roam a virtual maze and avoid collisions independently. | Autonomous decision-making and obstacle avoidance algorithms. |
07 Automatic Parking Assistance ------ | Develop an AI script for a virtual bot to detect parking slot boundaries and part autonomously | Multi-sensor coordination for complex autonomous navigation |
08 Emergency break system, build a smart safety robot ------ | Engineer a safety script monitoring closing speed via ultrasonic sensor to halt the virtual robot instantly | Critical safety engineering and real-time sensor feedback |
| Lesson | What Students Do | Learning Outcome |
|---|---|---|
01 Emergency Brake System Safety Eng. | Engineer a safety script monitoring closing speed via ultrasonic sensor to halt the virtual robot instantly. | Critical safety engineering and real-time sensor feedback interrupts. |
02 Simple Calculator Programming | Build a functional digital interface where users input numbers for arithmetic operations (+, −, ×, ÷, %). | Arithmetic operators, variables, and user-input logic. |
03 Creative Coding with Geometry Math + Art | Use loops and angles to program a virtual pen drawing intricate geometric patterns, mandalas, and 3D animations. | Loops, rotation degrees, and procedural generative art. |
04 Sentiment Analysis NLP / ML | Train an ML model to classify text as "Positive," "Negative," or "Neutral" and trigger visual reactions. | Natural Language Processing and data classification. |
05 Automatic Parking Assistant Autonomous Nav | Develop an AI script for a virtual bot to detect parking slot boundaries and park autonomously. | Multi-sensor coordination for complex autonomous navigation. |
06 AI Rock Paper Scissors 2.0 Predictive AI | 6. AI Rock Paper Scissors 2.0 Building a predictive AI that tracks your hand movement and calculate a winning counter-strategy. Introduction to teachable machine and probability-based AI logic. | Introduction to teachable machine and probability-based AI logic. |
07 Advance Obstacle Detection --- | Develop a fully autonomous navigation script for a robot to roam a virtual maze and avoid collisions independently | Autonomous decision-making and obstacle avoidance algorithms |
08 Line following Robot ---- | Program a virtual bot to stay on a track with infrared sensors while reporting real-time obstacle distances | Dual-sensor integration ( Infrared + Ultrasonic ) for lane discipline |
| Lesson | What Students Do | Learning Outcome |
|---|---|---|
01 Introduction to Robotics & Arduino Basics ---- | Explore sensors, actuators, and control systems. Learn what algorithms are, understand flowcharts, and get introduced to the Arduino Uno, its working, and key components. Understand analogue and digital signals through simple real-world examples. | Build a strong foundation in robotics and embedded systems, develop basic programming logic, and confidently identify the core parts of an Arduino Uno. |
02 LED Circuit Design & Block Coding --- | Learn about LEDs and resistors, build a simple LED glow project, and explore event and motion blocks. Use loops and delay functions to create LED patterns and blinking sequences with the Arduino Uno.. | Understand basic electronic components, strengthen block-based coding skills, and learn how loops and timing control interactive outputs. |
03 Smart Traffic Light System ---- | Understand how traffic lights work and build a simple traffic light model using the Arduino Uno. Program light sequences to simulate real signal changes and create structured output patterns. | Learn timing-based control systems, practice sequence planning, and explore how automation is used in smart city systems and IoT applications. |
04 Smart Light Automation System ------ | Learn decision-making in coding using variables and operators. Explore the LDR sensor and build a smart light project that responds automatically to changing light levels using the Arduino Uno. | Develop sensor-based thinking, apply logical operators in coding, and understand how automation powers intelligent AI and IoT systems. |
05 Smart Doorbell System with IR Sensor ------ | Explore the IR sensor and learn how an automatic doorbell works. Use sensor blocks to build a smart doorbell system that responds when someone is detected using the Arduino Uno. | Understand how infrared sensing supports automation, create responsive systems, and explore real-world smart home technology. |
06 Arduino Uno IDE & Text-Based Coding ----- | Learn how to glow an LED using the Arduino Uno and Arduino IDE. Move from block-based coding to text-based programming while understanding basic syntax, code structure, and uploading sketches. | Build confidence in text-based coding, understand the flow of Arduino programs, and take the first step toward advanced robotics and embedded systems development. |
Program Investment
3 weeks · 6-8 live sessions · 1 hour each. Everything included, nothing hidden.
Secure Enrollment
Complete your registration and pay securely — UPI, Cards, and Net Banking accepted.
Get In Touch
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