Embedded Systems- Tailored For Working Professionals

Durations – 360 Hrs.

Modules

Core Engineering

Electronics and Hardware Familiarization

Core Programming Fundamentals

Mastering C Programming
DSA & Competitive Problem Solving
Mastering OOP using C++
Linux System Programming using C

SPECIALIZATIONS

Embedded Systems Programming & Real-Time Control

ARM Cortex-M Architecture with Embedded C Programming
Embedded Protocols and Peripheral Driver Development

OS Development

Embedded RTOS (Free RTOS) Firmware Programming

Projects:

Apply statistical methods to make decisions in various business problems, including banking, stock market, etc.
Apply regression to predict future flight prices
Apply classification to classify customers
Use clustering to segment banking customers
Gesture recognition captured through image or video data

Experiential Project Based Learning

A prototype embedded System development using LPC1768 and KEIL IDE

Project stream:

Core Programming

Application development based on Data Structure (e.g., Multi Client Chat Application, Memory Leak Detection Toolkit, E-Commerce Cart Simulator)
A concurrent server to replicate a chat application using Socket Programming

Embedded Systems

Multi-Peripheral Integration Project (Combining GPIO, UART, SPI, I2C)
Real-Time Data Acquisition using ADC & DMA
Wireless Communication using LPC1768 + GSM/Bluetooth/Wi-Fi Modules
Automated Sensor Data Logging with RTC & SD Card Storage
Developing a Custom CAN-based Protocol for Vehicle Networks

Platform:

Ubuntu (Linux OS, with gcc compiler)
WSL (Windows Subsystem for Linux)
Code: Blocks, VSC, Dev-C++
LPC1768 Development Board
FreeRTOS
Keil uVision IDE, Flash Magic
Raspberry Pi 4 Board, Raspberry OS

Core Engineering

Electronics and Hardware Familiarization – 40hrs. – 10 Days – 2Weeks/ 20 Days – 4Weeks

Analog Electronics: Passive and Active components

Circuit analysis using KCL and KVL

Diode, Transistor and Op-amp Circuits

Digital Electronics: Combinational circuits design: Adders, Multiplexers, Encoders, Decoders

Sequential circuits design: Flipflops, Registers, Counters

Microprocessors and Microcontroller architecture

Basic Embedded System Architecture

Standard Interfaces

Understanding schematics/datasheet

Core Programming Fundamentals

Mastering C Programming – 40hrs. – 10 Days – 2Weeks/ 20 Days – 4Weeks

Introduction to C: Simple C program structure, Literals, constants, variables and

Operators with precedence and associativity

Control flow statements with Examples

Modular Programming using functions	Numeric Arrays :1D and 2D arrays	Character Arrays, String functions
Searching algorithms	Sorting Algorithms	Problem Solving using Hacker rank
DSA & Competitive Programming – 60hrs. – 15 Days – 3Weeks/ 30 Days – 6Weeks
Time and Space Complexity	Utopian Tre	Viral Advertising
Birthday Cake Candles	Migratory Birds	Kaprekar Number
Pangram String and Anagram String	Palindrome Index	Array Rotation
Pointers: Declaration and Initialization, types, pointer to pointers	Structures: Definition, structure variable, member access, nested structures	Introduction to Data Structures: Stacks, Queues, Linked List
Dynamic Memory Allocation	Static Stack and Dynamic Stack	Static Queue and Dynamic Queue
Circular Queue	Linked List: Singly Linked List	Doubly Linked List
File Handling Using C	Text and Binary Files	Problem Solving using Hacker rank
Mastering OOP using C++ – 60hrs. – 15 Days – 3Weeks/ 30 Days – 6Weeks
Basic input / output: cin, cout, >> and << operators, endl, setw	Understanding namespace Introduction to Object-Oriented Programming	Classes and objects, Encapsulation, Data hiding, abstraction
Access Specifiers – Private and Protected, This pointer	Constructors and Destructors	Friend functions and operator overloading
Inheritance	Run time polymorphism	Exception Handling
Lambda Expression	Smart Pointers	Templates
STL Algorithms	STL Container Classes	Iterators
Linux System Programming using C – 40hrs. – 10 Days – 2Weeks/ 20 Days – 4Weeks
Linux Shell Commands	Manipulating files and directories	Manipulating data
Find and Grep	Variables in Bash Scripting	Control Statements in Bash
File Related System Calls	Process Management	Signal
IPC – Pipes, Message Queue, Shared Mem	Multithreading	Handling Race Condition using Mutex
Embedded Systems Programming and Real-Time Control
ARM Cortex-M Architecture with Embedded C Programming – 60hrs. – 15 Days – 3Weeks/ 30 Days – 6Weeks
Cross Compilers- arm-none-eabi-gcc, armclang, Toolchain: compiler(gcc), assembler(as), linker (ld), debugger(gdb)	Conditional compiler directives and their significance in Embedded Software	Const, volatile qualifier and their use in Embedded Systems
Bit-wise operators and their use in low level programming	Structure padding, bitfields	Function pointers
Make-file	Building an Executable	Stratup code, linker script and their use
Object file and map file	Debugging and Tracing	Coding standards/guidelines for secureand safe coding
ARM Cortex-M3 Architecture & LPC1768 Overview	GPIO Registers, GPIO Programming: LED Programming	buzzer and switch programming IO device programming: 16 x 2 LCD interfacing and programming

4X4 matrix keypad Interfacing and programming	ADC Programming: LM35 temperature sensor interfacing and programming	Timer Peripheral Programming
Embedded Protocols and Driver Development – 40hrs. – 10 Days – 2Weeks/ 20 Days – 4Weeks
PWM peripheral Programming	RTC (Real-Time Clock)	Watchdog Timer (WDT)
PLL (Phase-Locked Loop) & Clock Configuration	NVIC (Nested Vectored Interrupt Controller) & Interrupt Handling	UART (Universal Asynchronous Receiver Transmitter) Communication
SPI (Serial Peripheral Interface) Communication	SSP (Synchronous Serial Peripheral) Communication	I2C (Inter-Integrated Circuit) Communication
Embedded RTOS (Free RTOS) Firmware Programming – 20hrs. – 5 Days – 1Weeks/ 10 Days – 2Weeks
Overview of FreeRTOS: Features of freeRTOS, FreeRTOS source code organization	RTOS Concepts: Hard real time vs soft real time, Multi-threading/ Multi-tasking / Concurrent execution	Scheduling and Context switching
Memory management: Heap vs Stack memory, program memory vs data memory	freeRTOS Heap Memory Management, different memory allocation schemes free RTOS Heap Utility Functions, Optimizing memory	Concept of freeRTOS Tasks freeRTOS Tasks APIs, Creating Tasks, Task Priorities, Task State Transitions
Scheduler: Scheduler Algorithms, Tick Interrupt, Idle task	Inter task Communication and synchronization: freeRTOS Queue APIs Data storage for Queue	Blocking read, write Receiving data from multiple queues Mailbox (using queue)
Interrupt Management: Events and ISRs, Tasks vs ISRs	Semaphores: Concept of semaphores, Binary Semaphores, Counting semaphores	Resource Management: Shared resources. Mutual Exclusion,
Experiential Project based Learning
Embedded Project Work on Multi-Peripheral Integration and Real-Time Data Acquisition (AGILE+SCRUM+GIT+GITHUB)

Embedded Systems- Tailored For Working Professionals

Modules

SPECIALIZATIONS

Projects:

Experiential Project Based Learning

Project stream:

Platform:

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