IoT Cloud

Go to Course: https://www.coursera.org/learn/iot-cloud

Introduction

### Course Review: IoT Cloud on Coursera **Overview** In today's rapidly evolving digital landscape, mastering the Internet of Things (IoT) is more crucial than ever. Coursera's **IoT Cloud** course serves as the capstone of a comprehensive four-course series that includes **IoT Devices**, **IoT Communications**, and **IoT Networking**. Building on the foundations established in its predecessors, this course immerses learners in the intricacies of enhancing connectivity and integrating vital security frameworks into IoT networks. A highlight of this course is the hands-on lab component, which incorporates advanced cloud technologies and machine learning, setting the stage for practical, real-world applications. **Syllabus Breakdown** **Week 1: Course Orientation and Networking Devices Part 1** The journey begins with a comprehensive orientation that lays the groundwork for understanding IoT infrastructures. Students will dive into networking devices such as routers, switches, and firewalls. This section is structured to demystify how each component operates, emphasizing their configurations and collaborative roles within network topologies. **Week 2: Infrastructure: Networking Devices Part 2** Continuing from the previous week, this module focuses on a deeper exploration of essential networking devices. An engaging quiz assesses comprehension and retention, ensuring learners are well-prepared to progress in understanding the layered complexities of network infrastructures. **Week 3: Infrastructure: Physical Infrastructure and Wiring (Part 1)** As the course progresses, students must confront the physical realities of IoT deployments. This week dives into environmental challenges and equips participants with knowledge about wiring materials and protective measures against external factors. By understanding these elements, learners can design systems that are robust and reliable for various environmental conditions. **Week 4: Infrastructure: Physical Infrastructure and Wiring (Part 2)** The final week dedicates its attention to furthering the concepts established in Week 3. Another quiz reinforces learning, ensuring students can navigate the complexities associated with physical infrastructure in IoT systems effectively. **Course Evaluation** The **IoT Cloud** course shines in its practical approach to education. By balancing theoretical concepts with hands-on lab work, students not only absorb vital information but also gain skills applicable to real-world scenarios. The course's structure encourages an in-depth understanding of both the software and hardware components crucial for building and maintaining IoT systems. The inclusion of machine learning technologies adds tremendous value, preparing students for future challenges in the IoT domain. Moreover, the series' connective nature means that students are not isolated in their learning; each course builds on the last, ensuring a comprehensive educational experience. **Recommendation** I wholeheartedly recommend the **IoT Cloud** course for anyone interested in pursuing a career in IoT, cloud technologies, or related fields. Its well-rounded syllabus and emphasis on practical skills make it an excellent investment in your professional development. Whether you are a beginner looking to grasp IoT fundamentals or a seasoned professional aiming to enhance your skill set, this course offers invaluable insights and training. By the end of this course, students will emerge not only equipped with technical knowledge but also with a stronger ability to implement secure, effective, and resilient IoT solutions in a variety of environments. Enroll now on Coursera and embark on your journey to mastering IoT Cloud technologies!

Syllabus

Week 1: Course Orientation and Networking Devices Part 1

You almost made it! This course is the last course in our series of four courses and builds on the previous three courses: IoT Devices, IoT Communications, and IoT Networking. After we have built and programmed a small self-driving vehicle, we then set out to enhance its connectivity and add important security infrastructure. In this course we will now look closer into various remaining types of decentralized network topography. In the honors lab (which we strongly recommend), we will additionally cover important cloud technologies based on machine-learning. In the first two weeks' lectures, we will cover important components of networks. Metaphorically speaking, when you learn how the human body works, you start by understanding the "organs", the stomach, the liver, and so on. Likewise, we can best understand networks by understanding the individual components that make them up and their function. In this lecture series we will study "devices" such as routers, switches, firewalls, load balancers, and many more. We will learn about how they individually operate, how they are configured, and how they work together to achieve various network-wide properties and goals.

This week, we continue to explore further the topic of week 1. Please be aware that the quiz of this week will cover both week 1 and 2.

As the Internet becomes "everything", we need to deal with physical challenges. We will study how to protect our systems from the elements and other challenges that occur in deployments in real environments. We will learn about different kinds of wiring and metals, how their makeup and design can protect against the elements, we will talk about how to deploy, maintain, and troubleshoot in the air, the sea, and in jungles. The goal of this lecture series is to make you aware of challenges, and to design robust systems that work well in a broad spectrum of real environments.

This week, we continue to explore further the topic of week 3. Please be aware that the quiz of this week will cover both week 3 and 4.