QUADCOPTER
Workshop
Introduction
A drone (from Quad "four" and Copter "helicopter") is a type of aerial robot that combines a basic propeller mechanism with advanced electronics for a wide range of real-world applications. It is a microcontroller-based embedded system with sensors, flying gear, and other integrated components. This class teaches participants how to create a Drone project from the ground up while also studying the numerous technical ideas involved in creating a functional Unmanned Aerial Vehicle. Creating a Drone gives the hands-on experience that an Engineering student requires!
Workshop Keypoints
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Purpose:
The Quadcopter workshop helps participants understand the concepts and use of accelerometer sensor, microcontrollers, and wireless communication in designing and controlling a Quadcopter
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Content:
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Multirotor Vehicles - Introduction
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Understanding rotary-wing aircraft and their dynamics
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Design of the Structure
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Stability & Control of Drones
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Algorithm of the control systems
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Instructor:
The workshop is led by experienced instructors from Brahmastra Aerospace and Defence(A space Tutor of ISRO),which is known for delivering high-quality workshops in prestigious institutions.
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Duration:
The Quadcopter workshop is a two-day event, providing attendees with a focused and intensive learning experience.
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Benefits:
The workshop provides a certificate of appreciation upon successful completion, and an opportunity to learn from Brahmastra Aerospace and Defence, a renowned provider of workshops in top institutes.
Course highlights
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Build and Test your own Quadcopter
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Introduction to design and development of Multi Rotor Vehicles
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Understanding the Electronics circuitry involved in Quadrotor
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Learn about the Stability and Control of Drones
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Learn about the working of sensors like Accelerometer and Gyroscopes
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Hands-on experience on DC motors, ESCs (Electronic Speed Controllers), and Quadcopter Embedded control board
Why this Workshop ?
01
Learnings
Participants will learn how to assemble a quadcopter with ESC (Engine Speed Control), Accelerometer, Body Assembly and Radio Controller Integration
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Certification
Participants who successfully complete the workshop with receive certification from ISRO approved Brahmastra Aerospace and Defence , which will be very valuable for interviews and further opportunities
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Networking:
The workshop provides an opportunity to connect and network with like-minded individuals who are interested in the same field, potentially leading to future collaborations or opportunities.
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Career opportunities:
The knowledge and skills gained from attending the workshop can lead to various career opportunities in the automotive industry, and the certificate of appreciation can be a valuable addition to a resume or portfolio.
AI GEsture Control robot
Workshop
Introduction
In the rapidly evolving field of robotics, one of the most intriguing advancements is the integration of AI gesture control technology. This innovation allows users to interact with robots through intuitive hand movements and gestures, transforming the way we perceive and utilize robotic systems.
AI gesture control enables seamless communication between humans and robots, eliminating the need for complex interfaces or controllers. By leveraging sophisticated machine learning algorithms, robots can interpret and respond to gestures in real-time, opening up new possibilities for applications in various industries and everyday environments.
Workshop Keypoints
01
Purpose:
The purpose of this workshop is to introduce participants to the exciting world of AI-powered gesture control for robotics. With advancements in artificial intelligence, robots are becoming more intuitive and responsive to human interactions. Gesture control offers a hands-free and intuitive way to communicate with robots, opening up possibilities for various applications in fields such as healthcare, entertainment, and education. Through this workshop, participants will gain a comprehensive understanding of AI gesture control technology and learn how to implement it in robotic systems.
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Content:
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Overview of gesture control technology and its applications in robotics.
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Explanation of how AI algorithms interpret human gestures to command robots
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Basic concepts of robotics, including sensors, actuators, and control systems.
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Introduction to different types of robots and their functionalities.
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Instructor:
The workshop is led by experienced instructors from WingfoTech , which is known for delivering high-quality workshops in prestigious institutions ( IIT's and NIT's) .
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Duration:
The AI Gesture Control Robot workshop is a Two-day event, providing attendees with a focused and intensive learning experience.
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Benefits:
Participants will receive a Certificate of Appreciation upon successful completion of the workshop.
This workshop offers hands-on learning, fostering skill development in AI, robotics, and gesture recognition, unlocking creativity and career opportunities in innovative industries while providing networking opportunities and future readiness in evolving technology landscapes.
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Course highlights
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Foundations of Robotics and ESP32 , Architecture and features of ESP32.
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Programming ESP32 with C: Environment setup, basic syntax, and libraries.
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Introduction to L298N Motor Driver and its integration with ESP32.
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Connecting devices and data exchange principles.
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Connecting the laptop camera to the ESP32 via a WiFi server.
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Training a basic model for gesture recognition (discussion on algorithms and tools).
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Discussion on further applications and advancements in AI and robotics.
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Q&A and feedback session.
Why this Workshop ?
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Learnings:
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Implementing AI algorithms for gesture recognition.
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Integrating sensors (e.g., cameras, depth sensors) into robotic systems.
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Processing and interpreting gesture data using machine learning techniques.
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Programming robots to respond dynamically to recognized gestures.
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Fine-tuning robotic control systems for enhanced accuracy and responsiveness.
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Certification:
Participants will receive a Certificate of Appreciation upon successful completion of the workshop, which can be added to their resume or portfolio.
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Career opportunities:
The skills and knowledge gained in the workshop are in high demand in the IoT field, which is rapidly growing and offering exciting career opportunities.