Introduction to IoT and Embedded Systems

The Internet of Things (IoT) refers to:

the ever growing network of technologies connecting and communicating via the internet to send and receive data in the absence of human-to-human or human-to-computer interaction. IoT consists of a network of smart devices, sensors, and actuators interconnecting with each other over the internet. IoT is rapidly evolving throughout the embedded industry. It is projected that there will be about 50 billion IoT devices connected to the internet by 2030.

In this course, you will learn about sensor programming on an embedded device, IoT device provisioning, and the latest wireless communication protocols including Wi-Fi, Bluetooth, and transport protocols such as MQTT. You will also explore the IoT data processing life cycle which includes capturing, cloud storage, and analyze data to various IoT devices.

This course focuses on the design of an IoT ecosystem which includes all the components that enable businesses, governments, and consumers to connect to their IoT devices. The IoT ecosystem consists of remotes, dashboards, networks, gateways, data storage, analytics, and security. Students will be using STM32 IoT discovery node and cloud to demonstrate IoT practical applications. Illustrations of 5G and an overview of the “Security of Connected Devices” laws enacted by several states in the U.S. will also be covered. At the end of the course participants will be able to design a prototype of an IoT solution using sensor data, communication protocol, cloud, safety, and security risks.

Course Highlights:

• Evolution and technologies used in IoT
• IoT embedded system programming, sensors and components
• IoT stacks and usage on sensors
• Design principles and methodologies used in IoT systems
• IoT cloud architecture, primarily Azure  
• Connectivity and programmming of IoT device using wireless transport and MQTT protocol    
• Case study for cybersecurity, privacy risks, safety and reliability
• Illustration and evolution of 5G myriad IoT applications including smart cities, water waste, and agriculture
• Explore IoT security laws enacted in several states in the U.S.   

Course Learning Outcomes:

• Identify different components of IoT
• Comprehend the complexity of the IoT stack
• Program embedded sensors and devices
• Provisioning, control and management of embedded IoT devices in the cloud
• Analytics and management of sensor data
• Implement appropriate  communication protocols and data format such as Json
• Appreciation of 5G potential for IoT ecosystems

Hardware: STM32 IOT Discovery Node 915MHZ - Mfg. Part # B-L475E-IOT01A. Part can be purchased from Digi-Key Electronics or any other reputable electronics dealer. This microcontroller is used in all four required courses in this program.

Course Typically Offered: Fall and Spring

Prerequisites: ECE-40153 Introduction to Embedded Systems and CSE-40476 C/C++ Programming II: Dynamic Memory and File I/O Concepts or equivalent knowledge and experience.

Next Step: After completing this course, consider taking other courses in the Embedded Systems Engineering or Linux System Administration certificate programs. 

Contact: For more information about this course, please email unexengr@ucsd.edu.

Course Number: ECE-40297
Credit: 3.00 unit(s)
Related Certificate Programs: Embedded Systems Engineering

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3/26/2024 - 5/25/2024

$845

Online

Closed

• SECTION ID:

  179747

• CLASS TYPE:

  Online Asynchronous.
  
  This course is entirely web-based and to be completed asynchronously between the published course start and end dates. Synchronous attendance is NOT required.
  You will have access to your online course on the published start date OR 1 business day after your enrollment is confirmed if you enroll on or after the published start date.

• INSTRUCTOR:
  

  Kumar, Vijay

  Vijay Kumar has been designing real-time embedded systems, cloud platform and providing software solutions in various industries for more than 20 years. Vijay is currently a senior engineering manager at Alphatec designing software solutions for spine surgery. Previously, he was an Engineering Manager at Vermeer providing IoT solutions for manufacturing and at Curtiss -Wright creating embedded solutions for the defense industry. Mr. Kumar has served as Director of Engineering at Omnitracs who specialize in providing SAAS solutions for transportation and logistics industries. Vijay was also a Director of Engineering at Qualcomm where he worked on connected mobile devices and satellite systems. Vijay acquired a BS in Electronics and Communications from National Institute of Technology (NI...Read More

• TEXTBOOKS:

  REQUIRED

  IoT and Edge Computing for Architects: Implementing Edge and IoT Systems from Sensors to Clouds with Communication Systems, Analytics, and Security, 2nd Edition Paperback 2nd
  by Perry Lea
  ISBN / ASIN: 9781839214806

  You may purchase textbooks via the UC San Diego Bookstore.

• POLICIES:

  No refunds after: 4/1/2024.
  

• NOTE:

• DATE & LOCATION:

  3/26/2024 - 5/25/2024
  extensioncanvas.ucsd.edu
  You will have access to your course materials on the published start date OR 1 business day after your enrollment is confirmed if you enroll on or after the published start date.