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Updated in [March 06th, 2023]
This course provides an introduction to the Raspberry Pi platform and Python programming for the Raspberry Pi. Students will learn how to set up the Raspberry Pi environment, get a Linux operating system running, and write and execute basic Python code on the device. Additionally, students will learn how to use Python-based IDE (integrated development environments) for the Raspberry Pi and how to trace and debug Python code on the device. No discussion forums are included in this course.
[Applications]
After completing this course, students should be able to apply their knowledge of the Raspberry Pi platform and Python programming to create their own IoT devices. They should be able to set up the Raspberry Pi environment, install a Linux operating system, write and execute Python code, and use Python-based IDE for the Raspberry Pi. Additionally, they should be able to trace and debug Python code on the device.
[Career Paths]
1. IoT Developer: IoT developers are responsible for designing, developing, and deploying Internet of Things (IoT) solutions. They use the Raspberry Pi platform and Python programming to create connected devices that can interact with each other and the environment. They must have a strong understanding of hardware, software, networking, and security. As the demand for IoT solutions continues to grow, the need for experienced IoT developers is expected to increase.
2. Robotics Engineer: Robotics engineers use the Raspberry Pi platform and Python programming to design, develop, and deploy robotic systems. They must have a strong understanding of robotics, computer science, and engineering principles. As the demand for robotics solutions continues to grow, the need for experienced robotics engineers is expected to increase.
3. Embedded Systems Engineer: Embedded systems engineers use the Raspberry Pi platform and Python programming to design, develop, and deploy embedded systems. They must have a strong understanding of hardware, software, networking, and security. As the demand for embedded systems continues to grow, the need for experienced embedded systems engineers is expected to increase.
4. Data Scientist: Data scientists use the Raspberry Pi platform and Python programming to analyze and interpret data. They must have a strong understanding of data analysis, machine learning, and statistics. As the demand for data-driven solutions continues to grow, the need for experienced data scientists is expected to increase.
[Education Paths]
1. Bachelor of Science in Computer Science: This degree path focuses on the fundamentals of computer science, including programming, software engineering, computer architecture, and operating systems. It also covers topics such as artificial intelligence, computer networks, and computer graphics. With the increasing demand for IoT devices, this degree path is becoming increasingly popular and is a great way to gain the skills needed to develop and design Raspberry Pi projects.
2. Bachelor of Science in Electrical Engineering: This degree path focuses on the fundamentals of electrical engineering, including circuit design, signal processing, and embedded systems. It also covers topics such as robotics, control systems, and digital signal processing. With the increasing demand for IoT devices, this degree path is becoming increasingly popular and is a great way to gain the skills needed to develop and design Raspberry Pi projects.
3. Master of Science in Computer Science: This degree path focuses on advanced topics in computer science, such as machine learning, data mining, and computer vision. It also covers topics such as distributed systems, computer networks, and software engineering. With the increasing demand for IoT devices, this degree path is becoming increasingly popular and is a great way to gain the skills needed to develop and design Raspberry Pi projects.
4. Master of Science in Electrical Engineering: This degree path focuses on advanced topics in electrical engineering, such as power systems, control systems, and digital signal processing. It also covers topics such as robotics, embedded systems, and computer networks. With the increasing demand for IoT devices, this degree path is becoming increasingly popular and is a great way to gain the skills needed to develop and design Raspberry Pi projects.
Course Syllabus
Module 1
This module describes the basic functionality the Raspberry Pi B+ board. I'll describe how to set up the board, configure it, and use it. An important point differentiating Raspberry Pi from the Arduino platform which we have talked about previously is that Raspberry Pi uses an operating system. I'll describe some of the implications of an operating system on the behavior of the Raspberry Pi as an IoT device.Module 2
The Raspberry Pi is typically installed with a Linux-based operating system, so we present the basics of Linux and its use. We describe some of the main features including navigating the file system and managing processes. We describe the text-based user interface through the shell and we overview the graphic user interface which is the default with the Raspian Linux distribution.Module 3
We present the basics of the Python programming language to prepare you for programming on the Raspberry Pi. Many languages can be used but Python is the most convenient for the Raspberry Pi because convenient APIs are provided for basic operations such as controlling the pins. Python is a powerful language with useful features that we will present so that you can use these features to control the Raspberry Pi.Module 4