IOT And Robotics 🤖
Our courses in IoT and robotics give students hands-on experience with cutting-edge technologies. From programming small robots to designing interconnected systems that can communicate with each other, our students are prepared to be at the forefront of technological advancement.
At Talus, we teach IOT and Robotics in four phases
Through this meticulously crafted progression, Talus Academy ensures that students don’t just learn about IoT and Robotics in isolation. Instead, they experience a journey from understanding the simplest electronic components to integrating them into sophisticated, responsive robotic systems. The future beckons and our students are more than ready to lead the charge.
1.
The Basics of Digital Circuitry
Every great journey begins with a single step, and ours initiates with a dive into digital circuitry. Here, students acquaint themselves with the fundamental components that form the backbone of all electronic devices. They get hands-on experience with LEDs, switches, motors, servos, and more. By learning how these elements work, interact, and can be controlled, students lay the foundational understanding crucial for more complex projects ahead
2.
The World of Microprocessors
Stepping up from basic components, students are then introduced to the brains of many digital devices — microprocessors. With tools like the Arduino, ESP32, and Raspberry Pi Pico, they explore the magic of turning logic and code into physical actions. This phase of our Sydney after-school program isn’t just about programming — it’s about experiencing the immediate real-world results of their code, be it lighting up an LED or driving a motor.
3.
Journey into IoT (Internet of Things)
With a robust grasp of microprocessors, students are ready to venture into the vast world of IoT. Here, they learn to create projects that aren’t just interactive but are also interconnected. Whether designing a weather-monitoring device that uploads data to the cloud or creating a home automation system, students experience the power and potential of devices that can ‘talk’ to the world.
4.
Robotics: The Pinnacle of Integration
The final frontier in our continuum is Robotics. At this stage, students combine their knowledge of digital circuitry, microprocessors, and IoT to enter the realm of mechatronics and physical design. They’ll craft robots that can sense, process and act upon their environment. This culmination challenges not only their technical skills but also their creativity and problem-solving capabilities.
The Talus Difference
At Talus Academy, we pride ourselves on not just delivering STEM education, but on creating a transformative experience that prepares students for the future. Here’s why our community believes in us:
01.
Project-based learning & industry tools
We champion ‘learning by doing’. Courses are centred on practical projects using industry-relevant tools. By tackling real-world challenges, students gain actionable skills, primed for the modern workplace. Our curriculum incorporates the technologies shaping the industry, fostering immediate applicability.
03.
Critical thinking & problem solving
Beyond technical prowess, we cultivate an inquisitive mindset. Encouraging students to dissect the “how” and “why”, we empower them to evaluate challenges and innovate solutions.
02.
Tailored pathways & holistic approach
Navigating the vast expanse of STEM, we pave progression pathways catering to individual interests and aspirations. From software development to web design, from IOT creators to robotics engineering, our interconnected curriculum fosters broad understanding, ethical considerations, and versatility in application.
04.
Collaborative learning
Stemming from the collective essence of STEM, we stress teamwork. Through collaborative endeavours, students refine communication, appreciate diverse viewpoints, and grasp the multifaceted nature of STEM challenges.