EMBEDDED SYSTEM (4/2 Credits)

Learning Outcomes:

On successful completion of this course, student will be able to: Describe Trend in IoT, microprocessors and microcontrollers, especially in the scope of Embedded Systems; Classify Microprocessors, microcontrollers, IoT in Embedded Systems principles for specific problems; construct Microprocessors, microcontrollers, Internet of Things criteria and specifications appropriate to solving problems.

Topics:

Embedded Systems – A Pragmatic Approach; Introduction to Arduino; Steps to Write a Program with Arduino Integrated Development Environment; Work Environment and Workflow Optimization; Arduino and Display Devices; Introduction Embedded System; Arduino and Digital Input/Output Devices; Specifications and Modeling; Architectural Patterns; Fire Sensor and Light Emitting Diode/Liquid; Arduino and Analog Devices; The Boot-Up Procedure; Arduino and Motors/Actuators; Fundamental Digital Logic Gates; Arduino and Wireless Communication; Boolean Algebra Laws; 2.4 GHz RF Modem-Based Security System for Restricted Area; Convert Truth Table to a Karnaugh Map; Flip-Flops; Project; Memory Management; Review; Local Bus Interfaces; General-Purpose Peripherals; Low-Power Optimizations; Distributed Systems and IoT Architecture; Embedded System Hardware; System Software; Evaluation and Validation; Optimization; Test; Parallel Tasks and Scheduling; Embedded Operating Systems; The Hardware Side; The Hardware Side – Part 2: Combinational Logic – A Practical View; The Hardware Side – Part 3: Storage Elements and Finite-State Machines – A Practical View Cellular connectivity; Memories and the Memory Subsystem.