Exchanging messages using UDP and TCP – Serving web pages with Dynamic Data – Serving web pages that respond
               to user Input – Email for Embedded Systems – Using FTP – Keeping Devices and Network secure.
               UNIT-V     WIRELESS EMBEDDED NETWORKING                                                     15
                Wireless sensor networks – Introduction – Applications – Network Topology – Localization – Time Synchronization
                - Energy efficient MAC protocols –SMAC – Energy efficient and robust routing – Data Centric routing
                                                                                   Total Contact Hours   :   75

               Course Outcomes:
               At the end of the course the student will be able to:

                   analyse the process delivers insight onto design of automation, communication systems through wired, wireless
                   technology for monitoring and control of grid
                  evaluate the  process delivers insight onto role of various communication standards applicable in automation
                  data transfer and communication in systems like large industrial processes
                  synthesize the instrument based internet protocol for CAN bus systems
                  design attributes of functional units of network processes synthesize the sensor network communication protocols

               Reference Books(s):
                   Frank Vahid, Givargis ‘Embedded Systems Design: A Unified Hardware/Software Introduction’, Wiley
                1
                   Publications
                2   Jan Axelson, ‘Parallel Port Complete’ , Penram publications
                3   Dogan Ibrahim, ‘Advanced PIC microcontroller projects in C’, Elsevier 2008
                4   Jan Axelson ‘Embedded Ethernet and Internet Complete’, Penram publications
                5   Bhaskar Krishnamachari, ‘Networking wireless sensors’, Cambridge press 2005


               Subject Code                 Subject Name (Laboratory Course)               Category   L  T  P  C
                  ET19312                IOT Applications for Embedded Systems            PC          0  0  4  2

               Objectives:
                  To implement the basic concepts of ARDUINO.
                  To develop applications using ARDUINO.
                   To understand fundamentals of programming such as variables, conditional and iterative   Execution, methods
                
                   etc.
                  To develop applications using IoT concepts.
                  To implement features of IoT to solve real world problems.

                                                      List of  Experiments
                1   Interfacing and configuration of LED using digital pin of ARDUINO
                2   Interfacing and configuration of Buzzer using digital pin of ARDUINO
                3   Interfacing and configuration of switches using digital pin of ARDUINO
                4   Interfacing of potentiometers using analog pin of ARDUINO
                    Interfacing of moisture, light, flame, temperature & humidity, IR, PIR, Gas, Piezo Vibration, and Sound sensor
                5
                    with ARDUINO
                6   Interfacing of Actuators with ARDUINO
                7   Interfacing of GSM with ARDUINO
                8   IoT  using ARDUINO
                9   Smart Irrigation System using IoT
               10  Introduction to IoT using Raspberry Pi (interfacing with basic sensors and actuators
                                                                                   Total Contact Hours   :   60