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Certification

All participants will get Certificate from TechieNest Pvt Ltd.

Why TechieNest

  • Vast experience of having conducted Big Outreach Workshop collaborating with over 300+ colleges in all over India including IIT Bombay, IIT Hyderabad, IIT Bhubaneswar, IIT Jodhpur, IIT Mandi,  NIT Raipur, MNIT Jaipur, MANIT Bhopal, NIT Jalandhar, NIT Patna, NIT Srinagar, IIIT Kalyani, BITS Pilani and likewise.
  • Trained more than 20,000 students in the field of EMBEDDED SYSTEMS & ROBOTICS, MATLAB & Machine Vision, Internet of Things, PLC_SCADA,  PYTHON, C/C++, Andriod, VLSI & VHDL, JAVA and such top notch courses.
  • Our trainers are efficient in Raspberry pi, Arduino, PLCs, etc. which forms essential hardware in Electronic Industries nowadays.
  • Outreach workshop partner of Sanchaar-Wissenaire’18, IIT Bhubaneswar, 2017-18
  • Zonal workshop partner of Techkriti’18 IIT Kanpur, 2017-2018
  • Outreach workshop partner of Techfest’15 IIT Bombay & Techfest’16 IIT Bombay
  • Zonal workshop partner of Techkriti’17 IIT Kanpur, 2016-2017
  • Outreach workshop & Training partner of nVision’17 IIT Hyderabad, 2016-17
  • Outreach workshop partner of Ignus’17 IIT Jodhpur, 2016-17
  • AIRC’18 (All India Robotics Championship) in association with Techkriti’18 IIT Kanpur.
  • AIRC’17 (All India Robotics Championship) in association with nVision’17 IIT Hyderabad, 2016-17
  • Offering Project Based Training, Projects on Demand, Corporate Projects, Commercial Projects, and Consultancy in Engineering Projects.
    Dedicated 24×7 R&D lab.
  • Trained over 50+ international students in TechieNest Technology Transfer Program 2014-15.
  • TechieNest has Research Engineers having excellent research aptitude, teaching pedagogy who illustrates their finding through practical demos during workshop/training.
  • Manufacturer of Electronic products delivering the same across the country.
Embedded Systems & Robotics (10 days)

“TechieNest, An ISO 9001:2008 Certified Company, Now came up with WITP-2017-18

REGISTER NOWREGISTER NOW
Course:Embedded Systems & Robotics
Certification By:TechieNest, An ISO 9001:2008 Certified Company
Study Material:Book free to each participant (Soft Copy)
Practical:35+ Practical are to be covered
Projects:28+ Projects are to be covered

 

Fees & Duration: – Per Candidate


INR 3500/- Duration: 10 Days/ 40 Hours

Course Details


Embedded Systems & Robotics
DAYTOPICDURATION
Day 1

Introduction to Embedded Systems & Robotics

  • Definition of Embedded Systems & Robotics
  •  Embedded System Vs. General Computing
  •  Careers in Embedded Systems & Robotics
  •  Why TechieNest for this Training?
  •  Sciences Involved, Terminologies used
  •  Application Areas, Features, Advantages
  •  Industrial Facets, Need & Use

Microprocessors & Microcontrollers

  • Basic Concept of Processing & Controlling
  •  Computer Architectures
  •  Microcontrollers & their Functional Architectures
  •  Differences between MPU & MCU
  •  Various Microcontrollers & their features
  •  AVR ATMega16 Microcontroller, pin description

Embedded C Programming

  • Fundamentals of Embedded C
  •  The control structures, loops, functions
  •  The General Purpose Input Output Registers
  •  The concept of complier, interpreter & Simulator

Light Emitting Diodes (LEDs)

  • Symbol, Working, Types, Functions
  •  Programming MCU to interface an LED

Practical 1: Glowing LEDs in Simulation
Practical 2: Simulating AVR to glow an LED using Programming
Practical 3: Generating Various Patterns on Multiple LEDs (Blinking
                        Chaser, BCD etc.
Practical 4: Generating Diverging & Converging Patterns of LEDs

Seven Segment Displays (SSDs)

  • Need, features & working concept
  • Types of SSDs
  • Interfacing of SSD with Microcontroller
  • Multiplexing of SSDs to display multiple digits

Practical 5: Interfacing single SSD to display single digit counters
Practical 6: Multiplexing multiple SSDs using Hardware Optimization
Concept

PROJECT 1: Traffic Light Controlling Prototype

4 Hours
Day 2

DC Motors
(Geared and Brushless)

  • The basic concept of motors (Torque, RPM, etc.)
  •  Types (brushless, geared, etc.)
  •  Working Methodology of various motors (DC motor, stepper motor, servo
    motors etc.)
  •  Motor Drivers: Need, features, Driver ICs

Practical 7: Controlling a simple DC motor rotation (CW, CCW) using MCU.
Practical 8:  Direction movement of a two motor based robotic vehicle
system.

PROJECT 2: Timer Based Automatic Door Opening & Closing

Sensors

  • Significance and Need of Sensors
  •  Differences between Sensor, Actuators and Transducers
  •  Types of Sensors (Analog and Digital) & their Working
  •  Infra-Red rays (applications & range), Line-of-Sight
  •  (LOS) Communication
  •  Infra-Red Sensor: Circuitry & Working
  •  Taking Input from sensor to microcontroller

Practical 9:Interfacing IR Sensor as a touch less switch with AVR

PROJECT 3: Obstacle Detector Robot

4 Hours
Day 3Practical 10: IR sensor as a binary color sensor

PROJECT 4: Black/White line follower Robot
PROJECT 5: Edge Follower (Never Falling Robot)
PROJECT 6: Grid Counting Bot

4 Hours
Day 4

Liquid Crystal Display (LCD)

  • Origin of Displays, historical background
  •  Various Techniques used for Displays
  •  Why LCD?
  •  Types of LCD used in Embedded Systems,
  •  Working methodology & Pin Description of 16×2 LCD
  •  Registers & Memory Space in LCD
  •  Modes of Operations
  •  LCD Commands
  •  Creating functions for various operations to use LCD with
    microcontroller

Practical 11: Printing a Single Character using Microcontroller on
Practical 12: Displaying a String on LCD using AVR
Practical 13: Showing a Numeric Value (or Variable) on LCD
Practical 14: Rotating Single Characters/string on LCD
Practical 15: Sand-watch display of String or character on LCD

PROJECT 7: Digital Stop Watch

  • Concept of Memory Mapping
  •  Creating user defined character library in the LCD memory
  •  Creating Function for a new character generation in LCD

Practical16: Printing a User Defined character on LCD

PROJECT 8:Creating a Custom Animation/Game of your choice

Keys/Switches

  • Types, Working & Uses
  •  The Pull-Up Concept
  •  Interfacing single switch with Microcontroller
  •  Interfacing Multiple linear Keys with MCU

Practical 17: Taking Input from single Key to MCU to ON/OFF led
Practical 18: Taking Input from multiple Keys to MCU to control SSD

PROJECT 9: Curtain Opener
PROJECT 10: Manually Controlled Smart Shopping Vehicle for Mall/Store
Management

4 Hours
Day 5

Relays

  • Definition, Working Methodology,
  •  Types, Advantages & Application Areas
  •  Important Specifications
  •  Switching/Controlling of DC Relay using Microcontrollers
    (Transistorized Switches)
  •  The Darlington Pair; Inductor Driver ICs (ULN2003/ULN2803)

Practical 19: Interfacing AVR with a Transistor
Practical 20: Interfacing of relay with microcontroller (MCU)

PROJECT 11: Seminar/Conference Hall Automation

Frequency Synthesizing Techniques(DTMF)

  • Tele Switching Concepts
  •  Concept of Dual Tone Multiple Frequencies
  •  DTMF Encoding & Decoding Process

Practical 21: Interfacing DTMF module with AVR to control LEDs

PROJECT 12: Mobile Controlled Wireless Robotic Vehicle
PROJECT 13: Cellphone operated Water Irrigation Pump Controlling

Analog to Digital Converters (ADC)

  • Definition & Need of ADCs
  •  Circuitries used for Analog to Digital Conversion
  •  Inbuilt ADC in AVR Microcontrollers
  •  Available channels, Size & Various Registers used
  •  Creating function to take an analog input on AVR and converting it into
    digital for further processing

Analog Sensors

  • Real World Information Interfacing with Microcontrollers
  •  Interfacing analog IR sensors

Practical 22: Displaying analog value of IR Sensor on LCD
Practical 23: Making a digital scaling system for small distance
measurement

PROJECT 14: Color Matching Machine

4 Hours
Day 6

Sensors Continued

  •  Temperature Sensor: Concept, Scaling Factor & interfacing with AVR

Practical 24: Interfacing Temperature Sensor with AVR MCU

PROJECT 15: Digital Thermometer
PROJECT 16: Temperature Sensor based Alerting/Alarming System for
process controlling & monitoring

Accelerometers

  • The MEMS Technology
  •  Gyroscopic Sensors or Accelerometers
  •  Taking input of 3-Dimensional Motion Information into Microcontroller

Practical 25: Interfacing an MEMS based Accelerometer with AVR

PROJECT 17: HMI(Human Machine Interface) Controlled Wheel Chair

Touch Sensors/Screens

  • History & Origin of Touch Screens
  •  Different Types of Touch Screens
  •  Resistive Touch Screens: Working Principle
  •  Calculation of Touch Co-ordinates over Touch Screen
  •  Taking input from a Touch Screen to AVR MCU

Practical 26: Interfacing Resistive Touch Screens with AVR

PROJECT 18: Touch Screen Based Pattern Locking Enabled Locker

4 Hours
Day 7

Communications Protocol

  • Various Communication Protocols
  •  RS232 Protocol; Baud Rate and Bit Rate
  •  The concept of Serial/Parallel Synchronous/Asynchronous communication
    to send data bits
  •  Inbuilt Universal Synchronous/Asynchronous Receiver/ Transmitter in
    AVR
  •  USART registers & their working
  •  Creating functions to Establish Serial Communication of PC with
    microcontroller using communication ports

Practical 27: Sending/ Receiving Data from/to PC to/from Microcontroller
& Displaying it on LCD

Practical 28: Controlling Microcontroller Operations using PC

PROJECT 19: PC Controlled security system

Bluetooth

  • Definition, Concept
  •  Working Range, Application Area

Practical 29: Interfacing Bluetooth with microcontroller & Controlling  Microcontroller Operations

PROJECT 20: PC Controlled Wireless Smart Food Serving Robot

PROJECT 21: Android Smartphone Bluetooth Controlled Modern Home
Automation System

Voice Processing

  • The Concept of Voice processing
  •  Inputs and Outputs
  •  Mic and Speakers
  •  Voice Acknowledgements

Practical 30: Testing voice commands wirelessly

PROJECT 22: Voice Control Robot and Feedback

PROJECT 23: Voice control Smart Automation and Feedback

4 Hours
Day 8

RFID

  • The Concept of RFID card & its reader
  • Tag based security analysis

Practical 31: Interfacing RFID Reader with ATMega16

Practical 32: Switching Electrical Appliances using RFID card

PROJECT 24: RFID based Attendance System

PROJECT 25: Smart Card Based Security System

4 Hours
Day 9

Global Services for Mobile (GSM)

  • Introduction to mobile communication
  •  Introduction to GSM terminology
  •  GSM Frequency bands
  •  GSM/CDMA
  •  Importance of SIM, Scope and Advantages of GSM
  •  GSM AT Commands

Practical 33: GSM Network testing in GSM Modem

Practical 34: GSM AT Commands testing for reading SMS, dial a number

Practical 35: GSM call answering / halt

Practical 36: Sending SMS from GSM modem to another mobile

PROJECT 26: SMS controlled Irrigation water controller system

PROJECT 27: GSM based notice board

4 Hours
  Day 10

Communication Systems(RF communication)

  • Definition, Types
  •  Wireless Communications: Available Frequency Spectrum
  •  Radio Frequency Wave Spectrum & Its Applications
  •  Transmission & Reception Methodology of Parallel bits of Data using RF
  •  Phenomenon of Encoding & Decoding the information

Practical 37: Transmission & Reception of Data using RF from one end to
other

PROJECT 28: Wireless keypad controlled Robotic Vehicle

PROJECT 29: Portable Touch Screen Remote for Office Automation

 4 Hours

Benefits of the Training


  • According to recently released NASSCOM report, the total addressable embedded system R&D global opportunity is expected to reach approx. $89 billion by 2015 where India alone could contribute approx. $15 billion in size.
  • Expansion plans by MNCs and NASSCOM suggest embedded systems to be the next sunrise sector.
  • With the technological advancement more and more professionals from the fields of robotics and embedded systems are required.
  • This training facilitates the practical learning process and also exposes students to a hands-on work environment.
  • It is ideal for students wanting to participate in robotics competitions, make robotics projects, and those who want to put their theory to practice.

Features of Training:


  • Training certificate will be awarded on the basis of Project.
  • Trainer: Student ratio is 1:20
  • The training is based on Practical Approach only.
  • A Training Kit will be provided to each trainee in the training duration.
  • Study material, CDs & software will be provided.
  • Limited seats in a batch on first-come first-serve basis.

Pre-Requisites:


  • Basic Knowledge of C programming
  • Basics of Electronic Terminology
  • Eagerness to learn new technologies

Who can attend this Training?


  • Students from B.E/B.Tech/M.Tech/Diploma (ECE/EEE/CSE/IT/MECH or so) can join this.
  • Electronic Hobbyists and anyone having interest in the field with prerequisites.
To get enrolled, you may visit: www.techienest.in/witp
Embedded Systems & Robotics (15 days)

“TechieNest, An ISO 9001:2008 Certified Company, Now came up with WITP-2017-18 Robotics. Lets Learn Robotics”

REGISTER NOWREGISTER NOW
Course:Embedded Systems & Robotics
Certification By:TechieNest, An ISO 9001:2008 Certified Company
Study Material:Book free to each participant (Soft Copy)
Practical:45+ Practical are to be covered
Projects:35+ Projects are to be covered

 

Fees & Duration: – Per Candidate


INR 5500/- Duration: 15 Days/ 45 Hours

Course Details


Embedded Systems & Robotics
DAYTOPICDURATION
Day 1

Introduction to Embedded Systems & Robotics

  • Definition of Embedded Systems & Robotics
  •  Embedded System Vs. General Computing
  •  Careers in Embedded Systems & Robotics
  •  Why TechieNest for this Training?
  •  Sciences Involved, Terminologies used
  •  Application Areas, Features, Advantages
  •  Industrial Facets, Need & Use

Microprocessors & Microcontrollers

  • Basic Concept of Processing & Controlling
  •  Computer Architectures
  •  Microcontrollers & their Functional Architectures
  •  Differences between MPU & MCU
  •  Various Microcontrollers & their features
  •  AVR ATMega16 Microcontroller, pin description

Embedded C Programming

  • Fundamentals of Embedded C
  •  The control structures, loops, functions
  •  The General Purpose Input Output Registers
  •  The concept of complier, interpreter & Simulator

Light Emitting Diodes (LEDs)

  •  Symbol, Working, Types, Functions
  •  Programming MCU to interface an LED

Practical 1: Glowing LEDs in Simulation
Practical 2: Simulating AVR to glow an LED using Programming
Practical 3: Generating Various Patterns on Multiple LEDs (Blinking
Chaser, BCD etc.
Practical 4: Generating Diverging & Converging Patterns of LEDs

Seven Segment Displays (SSDs)

  • Need, features & working concept
  •  Types of SSDs
  •  Interfacing of SSD with Microcontroller
  •  Multiplexing of SSDs to display multiple digits

Practical 5: Interfacing single SSD to display single digit counters
Practical 6: Multiplexing multiple SSDs using Hardware Optimization
Concept

PROJECT 1: Traffic Light Controlling Prototype

4 Hours
Day 2

DC Motors
(Geared and Brushless)

  • The basic concept of motors (Torque, RPM, etc.)
  •  Types (brushless, geared, etc.)
  •  Working Methodology of various motors (DC motor, stepper motor, servo
    motors etc.)
  •  Motor Drivers: Need, features, Driver ICs

Practical 7: Controlling a simple DC motor rotation (CW, CCW) using MCU.
Practical 8: 8 direction movement of a two motor based robotic vehicle
system.

PROJECT 2: Timer Based Automatic Door Opening & Closing.

Sensors

  • Significance and Need of Sensors
  •  Differences between Sensor, Actuators and Transducers
  •  Types of Sensors (Analog and Digital) & their Working
  •  Infra-Red rays (applications & range), Line-of-Sight
  •  (LOS) Communication
  •  Infra-Red Sensor: Circuitry & Working
  •  Taking Input from sensor to microcontroller

Practical 9:Interfacing IR Sensor as a touch less switch with AVR

PROJECT 3: Obstacle Detector Robot

4 Hours
Day 3

Practical 10: IR sensor as a binary color sensor

PROJECT 4: Black/White line follower Robot

PROJECT 5: Edge Follower (Never Falling Robot)

PROJECT 6: Grid Counting Bot

4 Hours
Day 4

Liquid Crystal Display (LCD)

  • Origin of Displays, historical background
  •  Various Techniques used for Displays
  •  Why LCD?
  •  Types of LCD used in Embedded Systems,
  •  Working methodology & Pin Description of 16×2 LCD
  •  Registers & Memory Space in LCD
  •  Modes of Operations
  •  LCD Commands
  •  Creating functions for various operations to use LCD with
    microcontroller

Practical 11: Printing a Single Character using Microcontroller on.
Practical 12: Displaying a String on LCD using AVR
Practical 13: Showing a Numeric Value (or Variable) on LCD
Practical 14: Rotating Single Characters/string on LCD
Practical 15: Sand-watch display of String or character on LCD

PROJECT 7: Digital Stop Watch

  • Concept of Memory Mapping
  •  Creating user defined character library in the LCD memory
  •  Creating Function for a new character generation in LCD

Practical16: Printing a User Defined character on LCD

PROJECT 8:Creating a Custom Animation/Game of your choice

Keys/Switches

  •  Types, Working & Uses
  •  The Pull-Up Concept
  •  Interfacing single switch with Microcontroller
  •  Interfacing Multiple linear Keys with MCU

Practical 17: Taking Input from single Key to MCU to ON/OFF led
Practical 18: Taking Input from multiple Keys to MCU to control SSD

PROJECT 9: Curtain Opener
PROJECT 10: Manually Controlled Smart Shopping Vehicle for Mall/Store
Management

3 Hours
Day 5

Relays

  • Definition, Working Methodology,
  •  Types, Advantages & Application Areas
  •  Important Specifications
  •  Switching/Controlling of DC Relay using Microcontrollers
    (Transistorized Switches)
  •  The Darlington Pair; Inductor Driver ICs (ULN2003/ULN2803)

Practical 19: Interfacing AVR with a Transistor

Practical 20: Interfacing of relay with microcontroller (MCU)

PROJECT 11: Seminar/Conference Hall Automation

Frequency Synthesizing Techniques(DTMF)

  • Tele Switching Concepts
  • Concept of Dual Tone Multiple Frequencies
  • DTMF Encoding & Decoding Process

Practical 21: Interfacing DTMF module with AVR to control LEDs

PROJECT 12: Mobile Controlled Wireless Robotic Vehicle

PROJECT 13: Cellphone operated Water Irrigation Pump Controlling

Analog to Digital Converters (ADC)

  • Definition & Need of ADCs
  •  Circuitries used for Analog to Digital Conversion
  •  Inbuilt ADC in AVR Microcontrollers
  •  Available channels, Size & Various Registers used
  •  Creating function to take an analog input on AVR and converting it into
    digital for further processing.

Analog Sensors

  • Real World Information Interfacing with Microcontrollers
  •  Interfacing analog IR sensors

Practical 22: Displaying analog value of IR Sensor on LCD

Practical 23: Making a digital scaling system for small distance
measurement

PROJECT 14: Color Matching Machine

4 Hours
Day 6

Sensors Continued

  • Temperature Sensor: Concept, Scaling Factor & interfacing with AVR

Practical 24: Interfacing Temperature Sensor with AVR MCU

PROJECT 15: Digital Thermometer

PROJECT 16: Temperature Sensor based Alerting/Alarming System for
process controlling & monitoring

Accelerometers

  •  The MEMS Technology
  •  Gyroscopic Sensors or Accelerometers
  •  Taking input of 3-Dimensional Motion Information into Microcontroller

Practical 25: Interfacing an MEMS based Accelerometer with AVR

PROJECT 17: HMI(Human Machine Interface) Controlled Wheel Chair

Touch Sensors/Screens

  • History & Origin of Touch Screens
  •  Different Types of Touch Screens
  •  Resistive Touch Screens: Working Principle
  •  Calculation of Touch Co-ordinates over Touch Screen
  •  Taking input from a Touch Screen to AVR MCU

Practical 26: Interfacing Resistive Touch Screens with AVR

PROJECT 18: Touch Screen Based Pattern Locking Enabled Locker

4 Hours
Day 7

Communications Protocol

  • Various Communication Protocols
  •  RS232 Protocol; Baud Rate and Bit Rate
  •  The concept of Serial/Parallel Synchronous/Asynchronous communication
    to send data bits
  •  Inbuilt Universal Synchronous/Asynchronous Receiver/ Transmitter in
    AVR
  •  USART registers & their working
  •  Creating functions to Establish Serial Communication of PC with
    microcontroller using communication ports

Practical 27: Sending/ Receiving Data from/to PC to/from Microcontroller
& Displaying it on LCD

Practical 28: Controlling Microcontroller Operations using PC

PROJECT 19: PC Controlled security system

Bluetooth

  • Definition, Concept
  • Working Range, Application Area

Practical 29: Interfacing Bluetooth with microcontroller & Controlling
Microcontroller Operations

PROJECT 20: PC Controlled Wireless Smart Food Serving Robot

PROJECT 21: Android Smartphone Bluetooth Controlled Modern Home
Automation System

Voice Processing

  • The Concept of Voice processing
  •  Inputs and Outputs
  •  Mic and Speakers
  •  Voice Acknowledgements

Practical 30: Testing voice commands wirelessly

PROJECT 22: Voice Control Robot and Feedback

PROJECT 23: Voice control Smart Automation and Feedback

4 Hours
Day 8

RFID

  •  The Concept of RFID card & its reader
  •  Tag based security analysis

Practical 31: Interfacing RFID Reader with ATMega16

Practical 32: Switching Electrical Appliances using RFID card

PROJECT 24: RFID based Attendance System

PROJECT 25: Smart Card Based Security System

4 Hours
Day 9

Global Services for Mobile (GSM)

  • Introduction to mobile communication
  •  Introduction to GSM terminology
  •  GSM Frequency bands
  •  GSM/CDMA
  •  Importance of SIM, Scope and Advantages of GSM
  •  GSM AT Commands

Practical 33: GSM Network testing in GSM Modem

Practical 34: GSM AT Commands testing for reading SMS, dial a number

Practical 35: GSM call answering / halt

Practical 36: Sending SMS from GSM modem to another mobile

PROJECT 26: SMS controlled Irrigation water controller system

PROJECT 27: GSM based notice board

4 Hours
Day 10

Communication Systems(RF communication)

  • Definition, Types
  •  Wireless Communications: Available Frequency Spectrum
  •  Radio Frequency Wave Spectrum & Its Applications
  •  Transmission & Reception Methodology of Parallel bits of Data using RF
  •  Phenomenon of Encoding & Decoding the information

Practical 37: Transmission & Reception of Data using RF from one end to
other

PROJECT 28: Wireless keypad controlled Robotic Vehicle
PROJECT 29: Portable Touch Screen Remote for Office Automation

4 Hours
Day 11

EEPROM

  • Concept of RAM, ROM and Flash Memory
  •  Arrays, Structures, ASCII Data accessing
  •  Use of Various Other Libraries (math.h, string.h etc.)
  •  Memory data storage
  •  Internal EEPROM in ATMEGA16

Practical 38: Writing a character to EEPROM
Practical 39: Reading a character from EEPROM and displaying it on LCD
Practical 40: Storing text to EEPROM

PROJECT 30: Storing/Retrieving Security passwords to EEPROM
PROJECT 31: Non Volatile Embedded System Database

Internet

  • Networks (LAN, WAN, MAN)
  •  Telnet: Concept, working, Commands
  •  Windows Remote Desktop Application
  •  Accessing Server from Client Systems using Internet

Practical 41: Designing a Local Network

PROJECT 32: SPY Robot

4 Hours
Day 12

Vision & Introduction to IoT

  • Understanding of IoT Market prospective.
  •  Future Aspects of IoT.
  •  Real World IoT design Constrains, Industrial automation and commercial
    building Automation in IoT.

Wifi Technology

  • Frequency Distribution
  •  Technology protocol, security and its applications
  •  Client and Server
  •  Data Packet and its speed
  •  Voltage Level and its distribution
  •  Wifi & Hotspot

Practical 42: Designing a personal Network
Practical 43: Designing a Server
Practical 44: Accessing data on/from server

4 Hours
Day 13

Introduction and interfacing of Wireless technology.

  • Practical 45: Making Wi-Fi local server
  • Practical 46: Connecting Wi Fi with smart phone or Laptop.

PROJECT 33: Local network control office automation

  • Introduction to Internet
  •  Introduction to TCIP
  •  Introduction to IP addressing and its different classes
  •  IP address distribution to PAN India

Practical 47: Generating different class of IP
Practical 48: Generating different IPs to client

PROJECT 34: Wifi controlled personal Robot

4 Hours
Day 14

PROJECT 35: Internet Enabled Home Automation System
PROJECT 36: Development of Weather information sharing center

4 Hours
 Day 15

Project work continues…..
Presentation with query Solving Session.

 4 Hours

Benefits of the Training


  • According to recently released NASSCOM report, the total addressable embedded system R&D global opportunity is expected to reach approx. $89 billion by 2015 where India alone could contribute approx. $15 billion in size.
  • Expansion plans by MNCs and NASSCOM suggest embedded systems to be the next sunrise sector.
  • With the technological advancement more and more professionals from the fields of robotics and embedded systems are required.
  • This training facilitates the practical learning process and also exposes students to a hands-on work environment.
  • It is ideal for students wanting to participate in robotics competitions, make robotics projects, and those who want to put their theory to practice.

Features of Training:


  • Training certificate will be awarded on the basis of Project.
  • Trainer: Student ratio is 1:20
  • The training is based on Practical Approach only.
  • A Training Kit will be provided to each trainee in the training duration.
  • Study material, CDs & software will be provided.
  • Limited seats in a batch on first-come first-serve basis.

Pre-Requisites:


  • Basic Knowledge of C programming
  • Basics of Electronic Terminology
  • Eagerness to learn new technologies

Who can attend this Training?


  • Students from B.E/B.Tech/M.Tech/Diploma (ECE/EEE/CSE/IT/MECH or so) can join this.
  • Electronic Hobbyists and anyone having interest in the field with prerequisites.
To get enrolled, you may visit: www.techienest.in/witp

mqdefaultJaipur Center


Plot No. 262, Muktanand Nagar,Opp. Pooja Tower,

Gopalpura Mode, Jaipur (302018),Rajasthan(India)

Hyderabad Center


CYBERAEGIS 7-4 & 7-5, Srigiri Complex
Dilsukhnagar, Main road Hyderabad 500060

Raipur Center


SIMPLY C COMPUTERS (IT) Pvt. Ltd. Opp Vandana Auto Raod
Near Nagar Nigam Water Tank, Idgahabhata Road, Raipur

Delhi Center


114,3rd Floor, Veer Savarkar Block, Vikash Marg, Nirman Vihar,

Opposite metro Pillar no 58, Delhi – 110092

Training Kit- will be updated soon

Schedule– November, December, January,February

Step 1

Register online for any desired course, duration & location of your training course & obtain a WITP-ID. WITP-ID is a Unique Registration Number which is generated by our system after successful registration for WITP. A student can have multiple WITP IDs for multiple courses & batches. It is displayed while successful registration and it is also mailed to you immediately after registration by our server. if you don’t find it in your mail then, please check your SPAM folder or junk folder of your mail ID.

Step 2

Please deposite your Course fee to Our Online Bank Accounts before the last date. Please follow Fee Payment Procedure for submiting fee in our account.

Step 3

Update us regarding your fee payment by sending picture/scan copy of bank receipt to: training@techienest.in and you will receive a confirmation mail on your mail id.

Group discounts

  • in a group of 5 discount 10%
  • in a group of 10 discount 15%
  • in a group of 15 discount 20%
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