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Updated in [June 30th, 2023]
This course, An Introduction to Programming the Internet of Things (IOT), provides an overview of the fundamentals of embedded systems, the Raspberry Pi Platform, and the Arduino environment. Students will learn how to design, create, and deploy a fun IoT device using these platforms. The course will cover topics such as the basics of embedded systems, the Raspberry Pi Platform, and the Arduino environment. Additionally, students will learn how to program and debug embedded systems, as well as how to use sensors and actuators to control the physical world. Finally, the course will culminate in a Capstone Project, in which students will apply the skills they have learned by designing, building, and testing a microcontroller-based embedded system. Upon completion of the course, students will have a unique final project suitable for showcasing to future employers.
[Applications]
Upon completion of this course, students will be able to apply their knowledge of the Internet of Things (IoT) to design, create, and deploy a fun IoT device using Arduino and Raspberry Pi platforms. They will also be able to demonstrate their understanding of embedded systems, the Raspberry Pi Platform, and the Arduino environment for building devices that can control the physical world. Additionally, they will be able to create a unique final project suitable for showcasing to future employers.
[Career Path]
The career path recommended to learners of this course is that of an Internet of Things (IoT) Developer. An IoT Developer is responsible for designing, developing, and deploying IoT solutions. This includes developing software and hardware for IoT devices, as well as integrating them with existing systems. They must also be able to troubleshoot and debug any issues that arise.
The development trend for IoT Developers is to become more specialized in their field. As the technology advances, developers must stay up to date with the latest trends and technologies in order to remain competitive. Additionally, as the demand for IoT solutions increases, developers must be able to quickly and efficiently develop solutions that meet the needs of their clients. As such, developers must be able to think critically and creatively in order to develop innovative solutions.
[Education Path]
The recommended educational path for learners is to pursue a Bachelor's degree in Electrical Engineering. This degree program typically includes courses in linear circuits, digital electronics, signal processing, and control systems. Students will learn how to design, analyze, and build electrical systems, as well as how to use computer-aided design (CAD) tools. They will also gain an understanding of the principles of electrical engineering, including circuit analysis, power systems, and electromagnetism.
The development trend for electrical engineering degrees is to focus on the application of technology to solve real-world problems. This includes the use of artificial intelligence, robotics, and machine learning. Students will also learn about the ethical implications of using technology, as well as the importance of sustainability. Additionally, students will gain an understanding of the economic and social implications of technology, and how to use it responsibly.