IoT & Embedded System Engineer Teknik Komputer
Summary
TLDRIn this educational video, the speaker introduces the field of IoT and embedded systems, explaining the concept of IoT as the connectivity of everyday objects to the internet for remote control and data collection. They discuss potential job roles such as IoT system engineer and embedded software developer, emphasizing the importance of learning programming languages like C, C++, and Python. The video outlines the curriculum from semester 1 to 8, focusing on courses like digital systems, electronics, and data processing. It also stresses the need for understanding hardware design, communication protocols, and data security. The speaker encourages students to build a strong portfolio by participating in competitions and refining projects, aiming for a successful career in IoT and embedded systems engineering.
Takeaways
- 🌐 IoT (Internet of Things) refers to the interconnection of everyday objects to the internet, enabling remote control and data exchange.
- 💡 An IoT system is an embedded system designed to perform specific tasks, such as automatic irrigation or home security systems.
- 🔧 The job of an IoT system engineer involves system design, identifying problems, selecting tools, hardware assembly, programming, and considering system security and efficiency.
- 🏢 Career opportunities in IoT and embedded systems are vast, including roles like IoT system engineer, embedded software developer, smart device engineer, and medical device engineer.
- 📚 The curriculum for IoT and embedded systems engineering includes courses from digital systems and programming basics to advanced topics like smart systems, signal processing, and data infrastructure.
- 🛠️ Practical experience with hardware is crucial, as students will engage in building and programming microcontrollers and other components.
- 💻 Programming skills in languages like C, C++, or Python are essential for IoT and embedded systems engineering.
- 📡 Knowledge of communication protocols such as Wi-Fi and Bluetooth is necessary for creating wireless, efficient IoT devices.
- 🔐 Understanding system security and data analysis is vital to ensure the safety and effectiveness of IoT systems.
- 📈 Building a strong portfolio is encouraged, starting from early projects and participating in competitions to showcase skills and gain recognition in the field.
Q & A
What is the main topic discussed in the script?
-The main topic discussed in the script is the Internet of Things (IoT) and Embedded Systems, including their applications, job opportunities, and the skills required to excel in these fields.
What is IoT as explained in the script?
-IoT, or Internet of Things, is a concept where everyday objects can connect to the internet and can be controlled remotely. It involves devices that can gather and exchange data, such as smart home devices or smart city infrastructure.
What is an Embedded System according to the script?
-An Embedded System is a specialized system that performs specific tasks. Examples include automatic irrigation systems, washing machines, and home security systems.
What are the potential job roles in the field of IoT and Embedded Systems mentioned in the script?
-Potential job roles include IoT System Engineer, Embedded Software Developer, Smart Device Engineer, System Engineer, and Medical Device Engineer.
What are the key courses that support the development of skills in IoT and Embedded Systems according to the script?
-Key courses include Digital Systems, Programming Basics, Electronics, Microprocessors and Microcontrollers, Smart Systems, Software Engineering, Signal Processing, and Internet of Things.
What is the importance of programming languages in the field of IoT and Embedded Systems?
-Programming languages such as C, C++, and Python are crucial for developing and controlling the systems and devices in IoT and Embedded Systems.
Why is understanding hardware design important for an IoT and Embedded Systems Engineer?
-Understanding hardware design is important because it involves creating the physical components of the systems, such as microcontrollers, batteries, cables, sensors, and actuators, which are essential for the functioning of IoT devices.
What is the significance of communication protocols in IoT and Embedded Systems as discussed in the script?
-Communication protocols like Wi-Fi and Bluetooth are significant because they enable wireless communication between devices, which is a key feature of IoT and Embedded Systems for remote operation and data exchange.
Why should students focus on creating a portfolio in the field of IoT and Embedded Systems?
-Creating a portfolio is important as it showcases students' projects and achievements, which can be beneficial for job applications and participating in competitions, demonstrating their practical skills and knowledge in the field.
What advice does the speaker give regarding the learning process in the script?
-The speaker advises students to be diligent and enthusiastic in their studies, especially in foundational courses like Digital Systems and Programming Basics, and to actively participate in projects and competitions to enhance their skills and portfolio.
What is the role of system security and optimization in the development of IoT and Embedded Systems?
-System security and optimization are crucial as they ensure the systems are protected from potential threats and operate efficiently, considering factors like battery life and power consumption, especially for devices deployed in remote or hard-to-reach areas.
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