This IoT training is a LIVE Instructor led training delivered from November 4 - November 27, 2019 for 16 hours over 4 weeks, 8 sessions, 2 sessions per week, 2 hours per session. This training begins with an Introduction to IoT (Internet of Things), where and how IoT is being implemented today, IoT potential to transform the world as we know it, IoT architecture, different devices and technologies which can be part of an IoT solution and more.
4 weeks | Monday, Wednesday
6:00 - 8:00 PM US Pacific time each day
November 4 - November 27, 2019 US Pacific time
Please check your local date and time for first session
Features and Benefits
4 weeks, 8 sessions, 16 hours of total Instructor led LIVE training
Training material, instructor handouts and access to useful resources on the cloud provided
Practical Hands on Lab exercises provided
Actual code and scripts provided
What is IoT?
IoT (Internet of Things) is a system of interconnected devices and things such as computing machines, mechanical, digital machines, objects, animals that are connected over the internet.
These devices and things can transfer data over a network without requiring human-to-human or human-to-computer interaction. The built-in technology in the objects helps them interact with internal states or the external environment, which in turn affects the decisions taken.
What are the Course Objectives?
Complete knowledge of IoT technology. Learn features, benefits, core concepts, background technologies of IoT. Understand sensors, communication interfaces microcontrollers to design and build IoT devices. Understand how to construct prevalent computing architectures.
Who should take this Course?
• Working Professionals who are interested in learning IoT.• Solution Architects, Technical Architects, Software Developers and those who are seeking IoT knowledge
• Familiarity with Computer concepts, basics of Linux and Python
What is IoT?
How is IoT applied in various domains?
Use cases ranging from Smart Cities to IoT
How large is the IoT Market in various domains?
2. IoT Architecture
IoT Technology Stack
Sensors and Actuators
Wireless Communication Protocols
Network Communication Protocols
Cloud, its components and IoT
Data Streaming in IoT
Data Store and IoT
Analytics & Visualization for IoT
3. Sensor and Actuator
What is Sensor, what is Actuator?
What is a suitable sensor?
Properties of Sensors and their classifications
Types of Sensors and Actuators
How do typical Sensors and Actuators work?
Categories of sensors - Commercial, Industrial, Military, Medical, Food grade sensors
Selecting a sensor for your use case
IoT Hardware Platform & comparison
Criteria for choosing a Hardware platform
Overview of Raspberry pi and Arduino Hardware
Introduction to Raspberry Pi
Introduction to Arduino Open Source Microcontroller Platform
Schematics, PCB Design Tools and prototyping steps
Raspberry Pi and Arduino Board Layout & Architecture
Why Raspberry Pi?
5. Fundamentals of Programming with Arduino
Learn to program Arduino with Arduino IDE
Learn to make your Arduino respond to sensors and actuators
Reading data from analog and Digital Sensors
Writing data to analog (PWM)
How to write data to Digital Actuators
6. How to Interface Sensors and Actuators with Hardware
How to connect sensors to Arduino to read data from sensors and display data such as Temperature, Humidity, Distance, Light, Moisture, Gas (Methane and Alcohol), Proximity, Motion) on the serial monitor.
Connecting actuator to Arduino and controlling Actuator via LED, Relay, Push button, Buzzer
Controlling a motor (actuator) by sensing Temperature
Controlling a buzzer using Ultrasonic ranger
PIR (Human presence) - (Combining sensors to avoid false alarms)
Using moisture sensor to control sprinklers using relay by sensing moisture in the soil.
7. How to Program Raspberry Pi board
How to work with Raspberry Pi 3 Model
How to install OS and design Systems using Raspberry pi
How to configure Raspberry Pi for VNC Connection
8. Introduction to Linux Operating System
Linux commands and uses
9. How to get started with Python
Variables, Functions, Control Structure
File Handling in Python and Importing or Exporting Data
10. Interface sensor and Actuator with Raspberry Pi
IoT Communication Protocol
12. IoT Wireless Protocols
RFID, NFC, Blue Tooth, BLE, ZigBee, and Zwave Mesh network
Comparison between Wireless Protocols
How to select wireless Protocol based on the use case
13. IoT Communication Channels
Wi-Fi, GSM/GPRS, 2G, 3G, LTE
Comparison of Communication Channels
How to select communication channels based on use case
14. Network Protocols in IoT
MQTT, MQTTS, CoAP, 6LoWPAN, TCP, UDP, HTTP, HTTPS
15. Comparison of the Network protocols
Selection of Network Protocol based on Use Case
16. Introduction to IPv4 and IPv6
Issues with IPv4 in IoT
How IPv6 resolves the problems with IPv4
RF protocol Application issues
Power consumption, LOS, reliability, Security aspects
17. TCP/UDP Transport Layer Protocol
Introduction to TCP and UDP
Difference between TCP/UDP Transport layer protocol
How to test TCP v/s UDP by python socket programming
18. HTTP Application layer IOT Protocol
Introduction to the HTTP protocol
Structure of HTTP Protocol
Start with HTTP protocol GET/POST Method
How to work on python Flask library design web page
Control thing from the webpage using the HTTP protocol
Publish sensor data over the web server
19. MQTT IOT Protocol
Introduction to MQTT
Features of MQTT
20. MQTT and Raspberry Pi
How to install Mosquito MQTT broker
How to Publish and Subscribe test on local server broker
Start with Paho MQTT
Publish and subscribe on iot.eclipse platform
21. CoAP IOT Protocol
Introduction to CoAP
CoAP IOT protocol Architecture
Difference between HTTP & COAP
Implement of CoAP using CoAPthon Python library
Design server and client using Python
22. IoT Cloud Platform (Ubidot)
Read data from sensors,
Create a JSON Object
Establish HTTPS connection using Wi-Fi
How to send JSON data to Ubidot Rest API over HTTPS
Create business rules in Ubidot for alarms
Send Data to Ubidot platform
How to create rules and configure Alarm with SMS and Email for your device
How to send data to Ubidot which will trigger the alarm
How to create and configure Chart/Graph for visualization
How to Control the actuator from Ubidot using polling technique
23. Introduction to Big Data and Big data technologies
24. Cloud Computing
What is cloud?
What is cloud computing?
Benefits of the cloud. Deployment Models. Top cloud providers. Service Models
Advantages for different offerings
Introduction to AWS
Service provided by AWS E2C, SimpleDB RDS, Dynamo DB, Elastic Beanstalk, SNS, Cloud Watch, Route 53, VPC, Elastic Load Balancing, S3, EBS, IAM
Cloud data storage
Introduction to Big Data
Big Data Definition and Characteristics
How is Big Data being generated?
Big Data Analytics
Why Big Data Analytics
Applications of Big Data Analytics
Different Data Stores
Big Data Technologies CouchDB, MongoDB, Node4J
26. AWS IoT Setup for Application Development
Introduction to AWS IoT
Downloading SDK and configuring RaspberryPi
27. How to prepare Raspberry Pi to connect to AWS IoT
Downloading Certificates from AWS IoT console
Installing certificate in RaspberryPi
Connecting Sensors to RaspberryPi II.
28. Connecting to AWS IoT
Configuring RaspberryPi sketch to connect to AWS IoT through Wi-Fi
Establishing MQTT Connection
Publishing Sensor data to AWS IoT Shadow
Subscribing MQTT Topic and controlling actuator from the shadow
29. How to send Data from raspberry Pi to AWS IoT
Run Ultrasonic ranger sketch in RaspberryPi and check
Updating of data from Raspberry Pi to AWS Shadow
30. Dynamo DB
Configuration of Dynamo DB
Create a table in Dynamo DB
Create a rule to link dynamo DB with AWS IOT
Store sensor data From AWS IOT in Dynamo DB
Set up SNS service
Test SNS service by publish and subscribe
Create a rule and link with AWS IOT
Notify through mail when Publisher publish data