Introduction to IoT

• What is IoT- In-Depth Explanation
• Concepts and Technologies behind the Internet of Things (IoT)
• The Past, Present, and Future of IoT
• Scope of IoT in India
• How large is the IoT Market in Different Domain
• Different skills required to become an IoT developer

IoT Architecture

• IoT Network Architecture
• IoT Device Architecture
• IoT Application Architecture
• IoT cloud Architecture

IoT Device Design

• Sensors –Classification & selection criteria based on nature,
• frequency, and amplitude of the signal
• Embedded Development Boards – Arduino, Raspberry Pi, ESP32
• Interfacing peripherals & Programming GPIOs –
• Input/output peripherals, Sensor modules
• Design Considerations
• Cost, Performance & Power Consumption tradeoffs

Getting started with Raspberry pi

• Introduction to Raspberry pi
• Raspberry pi different model comparison
• Raspberry Pi operating system choices
• Set up your Raspberry pi
• Raspbian OS

Raspberry Pi vs. Arduino VS esp32

• Introduction to Arduino Platform
• Arduino over ESP32
• Advantages of Raspberry pi over ESP 32

Hands-on session on Raspberry pi using Linux OS commands

• Introduction
• Linux vs. other Operating systems
• Linux basic commands
• Installation of packages
• Linux File handling
• Software installation on Linux

Remote Access to Raspberry pi

• Remote Access using SSH
• Remote Access using TightVNC

Programming Languages

• C/C++
• Embedded C
• Python

Practical session on Python Programming Language

• Program using Loops
• Program using a function
• Python Libraries
• Oops concept in Python
• Hardware interfacing with python
• Exception Handling in Python
• Web connectivity with python
• Data storage in Python

Embedded system with Raspberry pi

• Introduction to Embedded system
• Embedded system basic block diagram
• Difference between Microprocessor and Microcontroller
• Key Points for Choosing the Right Microcontroller
• Using Raspberry Pi in Embedded System
• Raspberry pi GPIO interfacing
• Led Interfacing with Raspberry pi using python
• Switch counter project using python
• DC Motor Interfacing with Relay
• H-Bridge Circuit
• Working of L293D
• PIR sensor interfacing with raspberry pi
• DHT22 /11 sensor interfacing with Raspberry pi

IoT Communication Protocols

• Wired Communication Protocols – UART, USART
• Wireless Communication Protocols – Bluetooth, Wi-Fi
• Networking Protocols – OSI Reference Model, TCP/IP, Ethernet
• Application Protocols – HTTP, Web sockets, MQTT

Cloud Computing

• Overview of Computing
• Different types of computing
• Concept of cloud computing
• Architecture of Cloud
• Description on Iaas, Paas, Saas
• Top Cloud service providers
• Role of Cloud Computing in IoT
• Tools, API and Platform for integration of IoT devices with Cloud
• Cloud Foundry

1.Who Should Attend?

The course would be highly beneficial for any Electronics Engineer, Software Engineer, Hardware engineer, Field Engineer or Project Manager tasked with the development of an application that would benefit from a real time operating system. The hands-on exercises and guidance from experienced trainer provide a well-supported learning environment.

2. Who Will Deliver the Course?

Highly trained and experienced in IoT, the course will be delivered by senior engineers. With experience across a wide range of markets (automotive, industrial control robotics, telecoms and consumer electronics) faculty has a wealth of knowledge that would be invaluable to those looking to broaden their skills in IoT practices

3. How to Sign Up?

For more information on availability Please feel free to call us on 020 40059500 or visit our BICARD Office No.68-71, 4th Floor,’C’ Block, Shrinath Plaza,Dnyaneshwar Paduka Chowk, FC Road, Pune, Maharashtra 411005

4. What does IoT stand for?

IoT stands for the Internet of Things.

5. What is the Internet of Things?

The Internet of Things is a concept. It is more like a vision where all devices in the world are connected to each other. These connected devices then use industry standard protocols to communicate with each other and with us. In other words, IoT aims to increase the M2M interaction.

6. How is it possible to connect billions of devices?

Cloud. All devices will be connected with each other over the cloud. Experts estimate that there will be around 25+ billion connected devices by 2050. IPv6 has the capability of providing 340 undecillion (i.e. 340,282,366,920,938,463,463,374,607,431,768,211,456) IP addresses for connected devices.

7. Isn’t IoT a thing of the future?

Yes and No. The concept of machines interacting over the internet has been around for quite some time. The very first practical example was a Coke vending machine in 1999. But, the concept is now on its way to becoming a reality by the availability of IPv6 and fast wireless network protocols.

8. Is Home Automation the only benefit of IoT? In that case, do I really need it?

No. Home automation is one of the benefits of IoT. Apart from it, it is possible to connect almost every device in the world. The applications ranging from personal healthcare to environmental safety are limitless.

9. Who invented the IoT?

Contrary to popular belief, IoT is not a technology. It was not invented by one individual. IoT is a vision which has been around since the times of Nikola Tesla. The term, ‘Internet of Things’ was coined by Kevin Ashton, the director of Auto-ID sensors.

10. What is M2M? Why is it so important?

M2M represents any technology that enables Machine to Machine communication. A simple example is when a vending machine informs the distributor machine about low units of a product. M2M is at the core of the Internet of Things. It is estimated that the current M2M market will expand from $121 billion to a $948 billion business by 2020.

11. What enables an ordinary device to become connected?

Connected devices have sensors attached to them. These sensors along with a network are what make a device connected. The sensor records and collects data only to send it over the network a Cloud application to make a decision.

12. What are the major components of connected devices?

The major components of connected devices are: sensors; network; cloud and the things! In a simplistic scenario, a sensor is attached to a thing. The thing might be any machine or an object of interest. The sensors collect data by monitoring the activities of the device. The collected data is sent over to the cloud platform via the network. The cloud platform makes decision on receipt of the data.

13. When can we expect to see connected devices out there?

Connected devices have already started making an appearance in the market. Wearables like the Apple Watch, Moto 360 that connect to your smart phone and track your activities are examples of connected devices. Apart from that, several concepts are in the making. For example: driverless cars, smart homes, etc.

Our New Batches are Starting in October, 2020. Please call us on 9595605544 || 020 40059500 || 020 40059600 to know more

We totally understand that each student is different and each student has different problems, which we need to tackle. Keeping this in view, we have designed different packages to meet your needs and timings

New Batches will start from 26th MARCH 2020

• Weekend batches: We have a special weekend batches for the working professionals, who are tied up on weekdays.
• Fast-track batches: To complete the course in a brief time with detailed training.
• Specialized corporate batches: In this special batch, we only cater the training needs of the corporate employees.