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7/29/2019 embedded abstracts
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Embedded Project Abstract(Automotive, Biomedical, Robotics, Biometric, Eco-Friendly)
Automotive
1. Car to Car Communication based on GPS and WI-FI.
This Project proposes a vehicle-to-vehicle communication protocol for cooperative collision warning. Emerging
wireless technologies for vehicle-to-vehicle (V2V) and vehicle to-roadside (V2R) communications such as DSRC
(Dedicated Short Range Communications) are promising to dramatically reduce the number of fatal roadwayaccidents by providing early warnings. One major technical challenge addressed in this Project is to achieve low-
latency in delivering emergency warnings in various road situations. Based on a careful analysis of application
requirements, we design an effective protocol, comprising congestion control policies, service differentiationmechanisms and methods for emergency warning dissemination. Simulation results demonstrate that the proposed
protocol achieves low latency in delivering emergency warnings and efficient bandwidth usage in stressful road
scenarios. The protocol comprises of following things :-
Technology that will enable cars to talk to each other, helping to reduce crashes as well as potentially fuel
consumption.
The idea is that the wireless network and GPS chip in the cars can see the other cars connected to the
network
If the driver cant actually see the other cars for one reason or another (theyre blocked at an intersection or
in a blind spot).
2. Approach lightning system/pilot controlled lightning at airport runway for energy conservation/aircraft
radio control of aerodrome lightning (arcal)
Pilot Controlled Lighting (PCL), also known as Aircraft Radio Control of Aerodrome Lighting (ARCAL) or Pilot
Activated Lighting (PAL), is a system which allows aircraft pilots to control the lighting of an airport or
airfield's approach lights, runway edge lights, and taxiways via radio. At some airfields, the aerodrome beacon mayalso be ARCAL controlled. ARCAL is most common Anton or little-used airfields where it is neither economical to
light the runways all night, nor to provide staff to turn the runway lighting on and off. It enables pilots to control the
lighting only when required, saving electricity and reducing light pollution. The ARCAL frequency for most
aerodromes is usually the same as the UNICOM/CTAF frequency, although in some rare cases, a second ARCAL
frequency may be designated to control the lighting for a second runway separately (an example of this is runway
01/19 at the airport in Sydney, NS). To activate the lights, the pilot clicks the radio transmit switch on the ARCALfrequency a certain number of times within a specified number of seconds. There are two type of ARCAL systems,
type J and type K. When either type of system is activated, a 15-minute countdown starts, after which the lights turnoff. While the lights are on, whenever a lighting command is issued, whether it changes the lighting intensity or not,
the 15-minute countdown is reset. At some airfields, the lights may flash once to warn pilots that the lights are about
to go off, before turning off two minutes later.When using ARCAL, it is strongly recommended that aircraft on final
approach to the airfield issue a fresh lighting command, even if the lights are already on (especially if the lights were
activated by another aircraft). This is so that the lighting does not turn off at a critical moment (such as when
crossing the runway threshold).
The purpose of the project was to design and build a system that can turn of and turn on relays of light
while the Airplane approaches and leaves the runway. The lights will be turning on and off on the
movement of airplane. Hence when no airplane is there lights will be off only.
This will be based on RF (radio frequency) and through turn on the relay of lights on runway. As soon as
the light is gone it will turn off the relay of light at the runways.
3. Design and Realization of the Accelerometer based Transportation System
An accident is a deviation from expected behavior of event that adversely affects the property, living body or
persons and the environment. Security in vehicle to vehicle communication or travelling is primary concern for
everyone. The work presented in this article documents the designing of an accident detection system. The accident
detection system design informs the police control room or any other emergency calling system about the accident.
An accelerometer sensor has been used to detect abrupt change in g-forces in the vehicle due to accident. When the
#56, II Floor, Pushpagiri Complex, 17th Cross 8th Main, Opp Water Tank, Vijaynagar,
Bangalore 40. Ph : 080-23208045 / 23207367, 9886173099, mail ID :
[email protected],[email protected]
http://en.wikipedia.org/wiki/Approach_lighting_systemhttp://en.wikipedia.org/wiki/Runwayhttp://en.wikipedia.org/wiki/Runway_Edge_Lightshttp://en.wikipedia.org/wiki/Taxiwayhttp://en.wikipedia.org/wiki/Radiohttp://en.wikipedia.org/wiki/Aerodrome_beaconhttp://en.wikipedia.org/wiki/Electricityhttp://en.wikipedia.org/wiki/Light_pollutionhttp://en.wikipedia.org/wiki/UNICOMhttp://en.wikipedia.org/wiki/CTAFhttp://en.wikipedia.org/wiki/Sydney/J.A._Douglas_McCurdy_Airportmailto:[email protected],[email protected]://en.wikipedia.org/wiki/Approach_lighting_systemhttp://en.wikipedia.org/wiki/Runwayhttp://en.wikipedia.org/wiki/Runway_Edge_Lightshttp://en.wikipedia.org/wiki/Taxiwayhttp://en.wikipedia.org/wiki/Radiohttp://en.wikipedia.org/wiki/Aerodrome_beaconhttp://en.wikipedia.org/wiki/Electricityhttp://en.wikipedia.org/wiki/Light_pollutionhttp://en.wikipedia.org/wiki/UNICOMhttp://en.wikipedia.org/wiki/CTAFhttp://en.wikipedia.org/wiki/Sydney/J.A._Douglas_McCurdy_Airportmailto:[email protected],[email protected] -
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Embedded Project Abstract(Automotive, Biomedical, Robotics, Biometric, Eco-Friendly)
range of g- forces comes under the accident severity, then the microcontroller activates the GSM modem to send
pre-stored SMS to a predefined phone number. Also a buzzer is switched on. The product design was tested in
various conditions. The test result confirms the stability and reliability of the system
4. Implementation OF Real Time Passenger Information System Using GPRS (RTPIS)
RTPIS provides travel information to passengers and tourists enabling them to make informed decisions about
modes, routes and departure times.The RTPIS framework can be broadly divided into two contexts:
(1)Pre-trip context and
(2) On-trip context.
Pre-trip context:-The former provides information like timings, fares and routes well before the commencement of
travel, through the Internet or the Short Messaging Service (SMS).
The On-trip context: - provides information like location and places of interest (POI) while on the move. This is
achieved using on-board and at-stop terminals (displays and audio announcement units).
5. Advanced Rural Transportation Systems (ARTS)
Advanced Rural Transportation Systems (ARTS) provide information about remote road and other transportation
systems. Examples include automated road and weather conditions reporting and directional information. This type
of information is valuable to motorists travelling to remote or rural areas. This has been widely implemented in theUnited States and will be a valuable asset to countries like India, where rural areas are widely distributed.
6. Advanced Traffic Management System/ Automatic Number Plate Reader (ANPR) cameras/ AutomaticVehicle Identification (AVI)/ Automatic Vehicle Classification (AVC)
ATMS involved a trial run of the fully automated Traffic Regulatory Management System (TRMS), Involving usage
of surveillance cameras in the city of Chennai. This project involved installing sophisticated cameras, wireless
towers and poles, under the Rs. 3-crore-State government funded project. Automatic Number Plate Reader (ANPR)
cameras were installed in 28 out of 42 vantage points in the city, while Pan Tilt Zoom (PTZ) cameras weredeployed in 10 out of 12 busy junctions identified. The traffic police also plan to install 40 CCTV cameras at various
junctions. This is to warn motorists who blatantly violate rules and monitor traffic on arterial roads during peak
hours. This integrates various sub-systems (such as CCTV, vehicle detection, communications, variable message
systems, etc.) into a coherent single interface that provides real time data on traffic status and predicts traffic
conditions for more efficient planning and operations. Dynamic traffic control systems, freeway operationsmanagement systems, incident response systems etc. respond in real time to changing conditions.
7. Design and control of segway
The purpose of the project was to design and build a 1/5 th scale Segway cart. The cart was modeled after a twowheeled transportation device that uses sophisticated electronics to balance. The cart was designed to follow a line
as fast as possible while still keeping a load balanced atop. The cart was limited to several maximums; a height of 6
inches, a mass of 1-kg, wheel diameters between 0.5 and 6 inches, and removable handlebars from 7-9 inches. The
cart also had to support a cylindrical mass with specifications of, a mass up to 2-kg, and a diameter of up to 6-inch.
The cart was designed to rock on its wheels over a range of 60 degrees forwards and backwards as well as to follow
a black electrical tapeline on a light colored floor. The cart was expected to be self-contained including the power
source. With the above design constraints, the cart was then designed to be lightweight, structurally strong enough,inexpensive, and to follow the specified path. The cart was constructed of hollow aluminum tubing, which made upthe frame. The tubing was soldered together. The cart used a spinning hanging mass attached to a potentiometer to
sense the angle of tilt. By measuring the change in voltage in the potentiometer as the cart tilted, the balancing of the
cart was regulated. Photo sensors were implemented for detecting the black electrical tape and to start the cart in
motion
8. Advanced Vehicle Control Systems (AVCS)
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Embedded Project Abstract(Automotive, Biomedical, Robotics, Biometric, Eco-Friendly)
AVCS are tools and concepts that enhance the drivers control of the vehicle to make travel safer and more efficient.
For example, in vehicle collision warning systems alert the driver to a possible imminent collision. In more
advanced AVCS applications, the vehicle could automatically break or steer away from a collision, based on input
from sensors on the vehicle. Both systems are autonomous to the vehicle and can provide substantial benefits by
improving safety and reducing accident induced congestion. The installation of high tech gadgets and processors invehicles allow incorporation of software applications and artificial intelligence systems that control internal
operations, ubiquitous computing, and other programs designed to be integrated into a greater transportation system
9.Advanced Public Transportation System APTS/ Intelligent Transport System/ Vehicle Positioning System
(VPS)
One application implemented in APTS area is GPS vehicle tracking system in public transport buses (Bangalore,Chennai, Indore) to monitor vehicle routing and frequency .so that passengers do not have to wait long hours for a
bus. .The objective is to provide Global Positioning System based passenger information system to help passengers
utilize their waiting time at bus stops more efficiently as well as to reduce the uncertainty and associated
frustrations. Display boards with high quality light emitting diode in wide-view angle are provided at bus stops so
that passengers can read the information. It displays the number and destination of the approaching bus, expected
time of arrival, and messages of public interest. Even SMS Alert is provided to the Ticket reserved passengers from
Main server Applies state-of-art transportation management and information technologies to public transit systems
to enhance efficiency of operation and improve safety. It includes real-time passenger information systems,automatic vehicle location systems, bus arrival notification systems, and systems providing priority of passage to
buses at signalized intersections (transit signal priority)
10.Multipoint Wireless Data Acquisition System for Smart Vehicle /Black box system/Online DATA
Acquisition system for Smart vehicle/Vehicle data loggers.
In data acquisition mode ARM-7 microcontroller acquires and stores different parameter of car. The main block of
Wireless Data Acquisition System for Vehicles is ARM-7 micro controller which is heart of the WDASV which
provides monitoring and controlling actions. It senses signals from input blocks and processes output blocks. The
software program is stored in ARM-7 microcontroller on chip memory, according to which it provides thecontrolling actions. The on chip ADC converts these parameters into digital form and gives to the ARM-7
microcontroller. The status of door status i.e. whether the door is opened or closed is sensed by door status blockand gives the corresponding signal to microcontroller. The speed of the vehicle is sensed by the speed sensor and
this speed is measured in RPM by ARM-7 microcontroller. With the help of keyboard block the driver can enter the
password along with cabin temperature. The LCD block is provided for visual display of the message and password.
Also it continuously displays the measured parameters. The RTC provides real time clock depending on which the
various events occur. Whenever accident takes place the accident interrupt block gives interrupt to the ARM-7
microcontroller. Through serial communication block the WDASV is interfaced the PC. With this interfacing the
stored data is transferred serially to PC, for the analysis purpose.
a) Alcohol Sensor
b) LPG gas sensor
c) Accident switches
d) Fuel Level Indicator
e) Speed of vehicle (RPM)f) Temperature of the Vehicle
g) Door and Bonnet
h) Obstacle Detection
11.Electronic Toll Collection (ETC)
The Electronic Toll Collection (ETC) is designed to determine if a car is registered in a toll payment program, alert
enforcers of toll payment violations, and debit the participating account. With ETC, these transactions can be
#56, II Floor, Pushpagiri Complex, 17th Cross 8th Main, Opp Water Tank, Vijaynagar,
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Embedded Project Abstract(Automotive, Biomedical, Robotics, Biometric, Eco-Friendly)
performed while vehicles travel at near highway cruising speed. ETC is fast becoming a globally accepted method
of toll collection, a trend greatly aided by the growth of interoperable ETC technologies. Technologies used in ETC
are Automatic Vehicle Identification (AVI), Automatic Vehicle Classification (AVC), Video Enforcement Systems
(VES) and Vehicle Positioning System (VPS).ETC systems are deployed in the following cities in India: Delhi,
Mumbai, Kolkata, and Chennai.
12.Automatic Terminal Information Service or ATIS
The ATIS information is relayed by a recorded voice and is important in an airports/Bus Terminal /Harbor
everyday operation, like when there are multiple landing strips receiving traffic because of upcoming landings and
even operational information. Here is several ATIS information that is important to the pilot/driver:
Arrival and departure indicator
Time of weather observation
Visibility
Air Temperature
Altimeter Settings
Wind direction and speed
Runways in use/ not it use
Type of approaches expected
Surface conditions
Other essential operation information
Drivers use this information whenever they can to ensure the safety of the flight; they even listen again and again
especially when there are changes in air traffic. The objective is to inform road-users of latest traffic updates and
better management of traffic. Technologies that are employed are:-
SMS, internet and radio have been employed for updates
The update protocols in a few Indian cities are as follows(a)Internet facility @ Bangalore and Hyderabad
This project provides a platform for the public to check the real time traffic situation at important junctions and
arterial roads, through the net.
(b) SMS facility @ Chennai
SMS will be sent during morning and evening peak hours to the subscribers, indicating congestion points and bottle
necks. b. Chennai
(c) FM radios facility @ KolkataTraffic updates are being provided on FM radio to convey critical information such as obstruction and road damagedue to rain.
13. Design and implementation of low cost automatic meter reading using GPRS technology
This paper presents the design and implementation of a secure low cost Automatic Meter Reading (AMR) systemthat calculates and transmits the total electrical energy consumption to main server using General Packet Radio
Service (GPRS) technology provided by GSM networks. The proposed AMR system consists of three main parts:
Accurate digital meter, a transmission facility and the billing server. To make affordable AMR system a low cost
off-the-shelf materials are used.
14.Smart road and vehicle systemThis study aims to improve smarter road facilities by the introduction of new smart RFID systems that would reduceaccidents and time. Most of the recent technologies relies on image processing technique to detect specified zones
by reading the sign boards by using cameras. But in rainy and dusty conditions this may not recognize patterns, it
may not guide to specific zone. Therefore, the author proposed implementation of Smart Road And Vehicle System
using RFID technology. And today, with RFID and other technologies, they generate more data than ever before.
Smart Track can use that data to help make railroads more efficient, safer, faster, cleaner, and profitable. In a word:
smarter. The RFID cards are placed at the roads and the same reader is fixed at the bottom of the car . When car
passes the card the reader reads the card and takes necessary action that card specifies. The program for the
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Embedded Project Abstract(Automotive, Biomedical, Robotics, Biometric, Eco-Friendly)
particular card is written and it is installed in the car and it just has to execute that program. And this will reduce the
accidents in school, hospital and in sharp turns etc. This is also an efficient and safer technique for this generation.
Biomedical
1. Microcontroller based anesthesia machine.
In the hospitals when any major operation is performed, the patient must be in anesthetize condition. If the operation
lasts for a long time, say for suppose for 5 or 7 hours, complete dose of anesthesia cannot be administered in a single
stroke. It may lead to the patients death. If lower amount of anesthesia is administered, the patient may get up in
midst to avoid this, the anesthetist administers few milliliters of anesthesia per hour to the patient. If the anesthetist
fails to administer the anesthesia to the patient at the particular time interval, other Allied problems may arise.To
overcome such hazardous problems the design of an automatic operation of an anesthesia machine based on a micro-
controller is effective. In this system provided syringe infusion pump along with the microcontroller . Theanesthetist can set the level of anesthesia in terms of milliliters per hour to administer anesthesia to the patient.
After receiving the signal from the temperature sensor heart beat sensor and respiration sensor , the microcontroller
controls the signal to the desire level and fed into the stepper motor to drive the infusion pump in proper manner.The anesthesia is administered to the patient according to the stepper motor rotation.
This particular paper will be very much useful to physicians to see the current position of anesthesia of the patients.
If the level of anesthesia is decreased to lower level (set value), the alarm will be initiated to alert the physician torefill the anesthesia in the Syringe Pump to continue the process
2. Eye ball Sensor for automatic Wheel Chair for paralyzed patients.
This intelligent chair is designed to help the paralysed person who moves on a wheel chair, instead of the
handicapped person moves the wheel chair by his hand, the chair will automatically move to a particular direction as
the patient moves his eyes towards a direction, with the help of Eye ball movement detection sensor. The chair will
also sense the obstacles in front of it and gives a beep sound.
3. A sleep apnea keeper in a wearable device for Continuous detection and screening during daily life.
We intend to design a fully functional breathing monitor for the purpose of detecting events caused by sleep apnea.
Sleep apnea is a sleeping disorder characterized by brief interruptions of breathing patterns. This interruption canlast a couple seconds, or can be fatal where the patient never regains his or her breath. We are designing an
apparatus that can detect the patients breathing rate, and notify a person monitoring the patient via RF to a handheld
monitor.
An alarm is sounded at the handheld monitor if the patients breathing pattern changes, or halts. We are usingpyroelectric sensors (infrared motion detectors) that measure the rate of change of temperature in a given area. The
use of this type of sensor allows us to monitor breathing with absolutely nothing attached to the patient. As well,
these sensors are much cheaper then typical breathing monitors available. These features allow us to aim our product
at the consumer market where it can be purchased cheaply, and is much less intrusive. Including additional ambient
temperature sensors, and a microphone to detect noise, the system can send this information to a portable monitoringdevice to allow for a fully featured patient monitoring system.
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Embedded Project Abstract(Automotive, Biomedical, Robotics, Biometric, Eco-Friendly)
Haptics
1. Controlling applications with hand gestures using sixth sense prototype / wear your world using sixth sense
technology.
Sixth Sense is a wearable gestural interface that augments the physical world around us with digital information and
lets us use natural hand gestures to interact with that information. The Sixth Sense prototype is comprised of a
pocket projector, a mirror and a camera. It is the one which obey hand gestures of yours and gives you what you
want to see and know. Sixth Sense Technology is a mini-projector coupled with a camera and a cell-phone which
acts as the computer and connected to the Cloud, all the information stored on the web. The camera recognizes
objects around a person instantly, with the micro-projector overlaying the information on any surface, including the
object itself or hand. Also can access or manipulate the information using fingers .make a call by Extend hand on
front of the projector and numbers will appear for to click .know the time by Draw a circle on wrist and a watch will
appear, take a photo by Just make a square with fingers, highlighting what want to frame, and the system will make
the photowhich can later organize with the others using own hands over the air. The device has a huge number of
applications ,it is portable and easily to carry as can wear it in neck. The drawing application lets user draw on any
surface by observing the movement of index finger. Mapping can also be done anywhere with the features of
zooming in or zooming out. The camera also helps user to take pictures of the scene is viewing and later can arrangethem on any surface. Some of the more practical uses are reading a newspaper, reading a newspaper and viewing
videos instead of the photos in the paper or live sports updates while reading the newspaper. The device can also tell
arrival, departure or delay time of air plane on tickets. For book lovers it is nothing less than a blessing. Open any
book and find the Amazon ratings of the book.
.
Security
1. Development of Low Cost Private Office Access Control System.
Security is a prime concern in our day-today life. Everyone wants to be as much secure as possible. An access
control for doors forms a vital link in a security chain. The microcontroller based digital lock for Doors is an access
control system that allows only authorized persons to access a restricted area.
An electronic lock or digital lock is a device which has an electronic control assembly attached to it. They areprovided with an access control system. This system allows the user to unlock the device with a password. The
password is entered by making use of a keypad. The user can also set his password to ensure better protection. The
major components include a Keypad, LCD and the controller PIC16F877A. This article describes the making of an
electronic code lock using the 16F877A microcontroller.
2. Flaw less and full proof rail reservation based on RFID technology
Railways are the essential medium of traveling throughout the globe and hence the functional methods are
simplified which refers the excellent outputs. The electronic used to give the excellent assistance through the
railways is the electronic of RFID railway reservation. This is the method of moving the passengers without facingany issues. The greatest use of this method is in simplification of the ticket viewing method. The ticket checking
method includes the easy identification of the RFID label that people have.
3. Accident Prevention Using Eye Blinking and Head MovementMost road accidents occur due to careless driving of drivers because of drowsiness. This paper provides Eye Blink
Monitoring System (EBM) that will alert the driver in drowsiness. A system for monitoring eye movements would
be useful in warning drivers when they fall asleep. The drivers eye is continuously monitored using an IR sensor.
The normal eye blink rate will have no effect on the output of the system. If Driver fell asleep, then IR sensor
receives abnormal blinking rate & an alarm will ring, to wake him/her up.
4. RTA regulation for environment pollutinng vehicle
The process of working of this project is explained as follows. The total equipment of this project is placed inside a
vehicle. Here we have GPS (Global Positioning System) module by which we can get the location of the vehicle, the
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Embedded Project Abstract(Automotive, Biomedical, Robotics, Biometric, Eco-Friendly)
location values are displayed on the LCD (Liquid Crystal Display). In this project we have two sensors which are
interfaced to the micro controller. Those are temperature sensor and CO sensor through which we can measure the
temperature and amount of CO released from the vehicle. These values are also displayed on LCD. Here ADC
(Analog to Digital Converter) is used to convert the analog data from the sensors to digital form. Whenever these
values exceed the threshold then intimation is given to the RTA including vehicles exact position.
5. Persistence Of Vision on spinning motor using 8051 controller
The Propeller Clock is an electronic device which has a series of LEDs on board that rotate with the help of a motorto give an illusion of a watching a clock ( Digital or Analogue ). This requires a DC motor which rotates the PCB
connected to it with sufficient speed so as to create the illusion. The LEDs are connected to a
microprocessorPIC16C84 or 16F84 which is so programmed to switch ON and OFF the LEDs in a sequence and
with a time delay to approximately match with the rotating speed of the motor. One of the phases of the DC motor is
directly fed back to the microprocessor to identify the position of the motor at any instant
6.Advanced security systems for Accidents avoidance.
In this fast moving world, new technologies have been evolved for every second for our human life style
improvement. There have enormous advancement in automobile technologies already and still to come. Because of
these technologies, now we are enjoying the necessary comfort and safety.But there are lots of accidents happening
now-a-days. It is because of increased vehicle density, violation of rules and carelessness. India ranks 7 in the road
accidents over the world.
We have the objective to minimize the road accidents due to above mentioned facts in real time using embedded
systems platform in low cost. In our project, we proposed few concepts to minimize the accidents due to violating
rules and carelessness. This project comprises of five sub-concepts namely.
ALCOHOL DETECTOR if the driver is sensed to be alcohol consumed then the vehicle will not starts.
MOBILE SNIFFING SYSTEM during travelling, if he uses mobile phones then he/she is allowed to use not
more than 15 seconds. Then a voice message about stop using mobiles will be given. If still he/she continues, the
vehicle will get slow and stops.
EMERGENCY SYSTEM accidents occurs if any, then the accident is recognized using vibrating sensor and
using GSM module the area where the accident took place is sent to emergency centers like 108.
7. Employee information system based on RFID and Android using Arm7.
This project is based on ARM 7 and Android is a software stack for mobile devices that includes
an operating system, middleware and key applications. The Android SDK provides the tools and
APIs necessary to begin developing applications on the Android platform using the Java
programming language. Mobile phones have almost become an integral part of us serving
multiple needs of humans. This application makes use of the Bluetooth feature of mobile phone.
In this project, we explored the deployment of RFID-based technologies to acquire employee
information to record what exhibits they visit and when. This data has tremendous potential to
enhance personalizing information via dynamic interfaces. Different technologies, such as RFID,
Wi-Fi, and so on, are being applied to allow mobile devices interact with the environment.
8. Design and implementation of low cost automatic Electric meter reading using gprs technology
This paper presents the design and implementation of a secure low cost Automatic Meter Reading (AMR) system
that calculates and transmits the total electrical energy consumption to main server using General Packet RadioService (GPRS) technology provided by GSM networks. The proposed AMR system consists of three main parts:
Accurate digital meter, a transmission facility and the billing server. To make affordable AMR system a low cost
off-the-shelf materials are used.
#56, II Floor, Pushpagiri Complex, 17th Cross 8th Main, Opp Water Tank, Vijaynagar,
Bangalore 40. Ph : 080-23208045 / 23207367, 9886173099, mail ID :
http://www.engineersgarage.com/articles/embedded-systemshttp://www.engineersgarage.com/articles/embedded-systemshttp://www.engineersgarage.com/articles/gsm-gprs-moduleshttp://www.engineersgarage.com/articles/embedded-systemshttp://www.engineersgarage.com/articles/embedded-systemshttp://www.engineersgarage.com/articles/gsm-gprs-modules -
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Embedded Project Abstract(Automotive, Biomedical, Robotics, Biometric, Eco-Friendly)
9. Safety autobrake system for hill station vehicles using mems sensor
The aim of the project is to design and construction of a module used for vehicles in the hill stations. auto breaking
system is used when vehicle is moving upward direction . The project is divided into two phases. The First phase isto demonstrate the application of MEMS. The second phase of the project attempts controlling motors.MEMS
sensor is interfaced to micro controller using I2c protocol, microcontroller receives the data from the mems sensorand process it according to the data from the sensor appliances are operated. Application are like refrigerators ,
microwave ovens, Theaters hospitals etc..I2C protocol is used for interfacing MEMS sensors with micro controller,
Micro controller main functionality is to receive signals for sensors and process information by taking desired
decision. Applications which use this technology are refrigerators, operation theaters and microwaves.
10.Touch-screen terminal application for remote data acquisition based on authorized access.
Touch-screen all-in-one-machine is the simplest, most convenient and most natural human computer interaction
method as a new kind of computer input devices. For the disadvantages of the current touch screen systems such as
the relatively simple function of the system and the lack of security features, this paper proposes a common software
interface, which makes use of B/S mode to realize the browsing of the remote data, provides the authorized access
mechanism based on Web secure access control, and achieves classification access of the remote data.
Robotics
1. Parmeter monitoring robot for gas leakage and nuclear radiation detection using gsm technology in
industries.
Aim of the project is to monitor hazardous environment conditions, including toxic gases though GSM modem. This
project can be used in a industry or mines to monitor and help people to warn about toxic gas conditions. This is also
called as Remote Gas Monitoring systems. We are monitoring 3 gases under this project, first is CO CarbonMonoxide, second is LPG Gas and third is methane gas. The project consists of parameters monitoring, parameter
sending through SMS. We have used GSM modem to send sms. These values can later be seen using a mobile sms
inbox.
2. Color identification robot for material handling in industries
Color is the most common feature to distinguish between objects, sorting, recognizing and tracking. Generally robot
is mounted with a camera or the camera is mounted in the workspace to detect the object. The aim of this project is
to use the technology that can be used in material handling in logistics and packaging industry where the objects
moving through a conveyer belt can be separated using a colour detecting robot
3. Inspect robot while hanging from above.
Nowadays, whatever we find in the world, be it big machines or a small tool, everything is becoming automated.
This has the advantage of not requiring direct human intervention to control or operate the devices. We can remotelycontrol some devices with the available technologies. This technology is much useful for inspect runways in the
airports and inspect the animals in zoo and capture the amazing videos and to cover the entire stadium for capturing
videos etc because it is hanging from above the earth. This robot will dramatically reduce inspection and
maintenance costs that now must be done by crews working on the ground or in aircraft, and often in remote areas.
"Normally you use helicopters and ground crews but now with technology, everything is getting smaller and
cheaper." In addition, the robot is fitted with dc motors and wireless camera with advanced image processing to
capturing videos. By using RF communication we can control the robot.
#56, II Floor, Pushpagiri Complex, 17th Cross 8th Main, Opp Water Tank, Vijaynagar,
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Embedded Project Abstract(Automotive, Biomedical, Robotics, Biometric, Eco-Friendly)
4. Automatic Control of Bottle Filling System Using PLC with Conveyor Model
The project deals with the automation of processes such as filling of bottles in an industry. This system gives a fastand efficient operation of task reducing manual control. The controller for this system is supplied by a single phase
AC supply. The program defines the kind of task to be performed on the system corresponding to the inputs. This
control program is fed to the controller using a programming device such as PC.Sensors are used to sense thepresence of the bottles in a particular position. The signal from the sensor is as input to the controller. The controller
gives the control signal to the actuators in the conveyor to move the bottles to the appropriate positions. The time
interval is programmed in the controller to define the time the bottles to be fixed at a particular position, the time of
the bottle filing. The time intervals can be changed according to requirements. The whole process can be done in a
single cycle and can be stopped after the process is completed. Thus this system gives a faster and reliable control
system to reduce the manual control and increases the efficiency of the system.
5. DTMF based keyless door locking system.Keyless entry has been a luxury whose availability is confined primarily to vehicles. The cell phone security system
takes this idea of keyless entry and transforms it into a convenient, versatile security system that utilizes cell phone
technology and the landline telephone network. By taking advantage of caller identification and dual-tone multi-
frequency signaling, the security system has the ability to introduce two-levels of security. The first level will bedecoding the calling partys identification information while the second level would consist of the user attempting a
password entry over the phone. The system also has the ability to provide feedback to the user regarding the state ofthe system through a special user mode. By combining the mobility of this telecommunication medium with
microcontrollers, the system achieves a secure, convenient, and automated form of security for a place of residence.
6. Design and implementation of Touch-screen control robot by using Zigbee technology.
Design and Implementation of Touch Screen Control Robot by using Zigbee technology will beused to control the robot using the touch screen from certain range of distance using the zigbee
based wireless communication protocol. This zigbee will be used for network communication
with the other zigbees with low power consumption. By this method we can easily control the
robots very easily
Eco Friendly (Environmental Project)
1. Climate control system of cold warehouses using zigbee network
In modern greenhouses, several measurement points are required to trace down the local climate parameters in
different parts of the big greenhouse to make the greenhouse automation system work properly. Cabling would
make the measurement system expensive and vulnerable. Moreover, the cabled measurement points are difficult to
relocate once they are installed. Thus, a Wireless Sensor Network (WSN) consisting of small-size wireless sensor
nodes equipped with radio and one or several sensors, is an attractive and cost-efficient option to build the requiredmeasurement system.
2. Solar energy harvesting wireless embedded system for remote sensor networks
As battery capacities are a key limiting factor of wireless sensor networks, harvesting energy from the environment
is very attractive. For outdoor applications, solar power seems to be the best suited energy source. However, the
amount of energy delivered from the sun changes significantly over the year, which makes the dimensioning of the
panel difficult. In this paper we discuss the most important impact factors and introduce a model that predicts theharvested solar power and the battery charge over the year. In addition, we present experimental results of the first
six month of our long term experiments for validating our model.
#56, II Floor, Pushpagiri Complex, 17th Cross 8th Main, Opp Water Tank, Vijaynagar,
Bangalore 40. Ph : 080-23208045 / 23207367, 9886173099, mail ID :
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Embedded Project Abstract(Automotive, Biomedical, Robotics, Biometric, Eco-Friendly)
3. Mobile Phone Controlled Alive Human Detector using Robotics.
It is difficult for a human being to enter into a debris and find out if there are any Survival. So we have
constructed a robo which has a free forward/Reverse and full 360 deg movement, to move into the debris to find out
the survival. It consists of an IR based human radiation sensor which picks up signals from human body radiationsand gives a signal o/p. Whenever any human being comes in the vicinity of the system (upto 8m) the IR system
gives an Signal.The Movement of the robot can be controlled through a mobile phone. The Robot also has a wireless RF interface
with the nearby PC to which the robo can signal the PC if it finds any alive human. The Rf Frequency range is
433.92 Mhz.Apart from this the robo is built with some Artificial intelligence for its safety. It has a built in Intruder
Sensor, Fire sensor, heat sensor.This project is divided into modules for better understanding of the circuit.
4. RTC based automatic street light control and solar panel movement.
The purpose of the project was to design and build a system which will automatically turn-off and turn on the street
lights. Through single microcontroller only, many street lights switching can be controlled. The main feature of this
project is the use of RTC (real time clock) feature of the microcontroller.This model can also be used to control the
movement of solar panels for the proper utilization of solar energy in the rural areas and the movement will be step
wise based on real time clock (RTC) and interfacing stepper motor to the mechanical assembly. By using this
technology efficient energy management in rural and urban areas can be done. This project requires a controller with
RTC feature, SPDT relays, stepper motor and motor drivers and efficient coding to control the movement.
5. Pipe net: a wireless sensor network for pipeline monitoring
Water utilities are faced with mounting operational and maintenance costs as a result of aging pipeline
infrastructures. Leaks and ruptures in water supply pipelines and blockages and overflow events in sewer collectors
cost millions of dollars a year, and monitoring and repairing this underground infrastructure presents a severechallenge. In this paper, we discuss how wireless sensor networks (WSNs) can increase the spatial and temporal
resolution of operational data from pipeline infrastructures and thus address the challenge of near real-time
monitoring and eventually control. We focus on the use of WSNs for monitoring large diameter bulk-water
transmission pipelines.
We outline a system, Pipe net, we have been developing for collecting hydraulic and acoustic/vibration data at high
sampling rates as well as algorithms for analyzing this data to detect and locate leaks. Challenges include sampling
at high data rates, maintaining aggressive duty cycles, and ensuring tightly time synchronized data collection, allunder a strict power budget. Along with the results of this preliminary trial, we describe the results of extensive
laboratory experiments which are used to evaluate our analysis and data processing solutions.
This project will basically include the water float switches and water float meters an extensive study will be done on
the measurement of values. Upon reading the particular values from the sensors the microcontroller will send its
address and status to the nearest ZIGBEE module and it will be transmitted to the main system in that fashion only.It
is nothing but a network of WI-FI connections based on ZIGBEE for monitoring the damage in the water supply
pipeline anywhere.
6. Farmer friendly Solar based electric fence for rural agriculture.
Electric fences can be used to protect farm houses , farmlands forest bunglows, etc from animals. In a way they
simulate the job of cowboy or forest guard. Already popular in countries where man power is expensive, electricfences are slowly becoming popular in India. These control the animals by giving them a shock, short but safe
shock that techs them to stay away from fence. Those electric fences are economical and practical solutions tomaximize field production through controlled grazing. Electric fences is safe, as its output is discreet (not
continuous).there is certain time duration between two pulses that prevents prolonged shocking to animals or
peoples. In addition, the short on-Time (normally 1/5000th of second) prevents heat build-up. This fence system is
powered by 12v rechargeable battery. A solar panel is connected to the battery to charge on day time. The battery is
connected to the inverter. this inverter is used to convert the 12v DC to the 230v AC voltage. This 230 v AC voltage
is used to activate the loads. Here we are also using conventional battery charger unit to recharge battery.
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Bangalore 40. Ph : 080-23208045 / 23207367, 9886173099, mail ID :
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7. Model Sunflower Automatic tracking of solar panel according to the sun direction.
Solar energy systems have emerged as a viable source renewable energy over the past 2 or 3 decades, and are now
widely used for a variety of industrial and domestic applications. Such systems are based on a solar collector,
designed to collect suns energy and to convert to into either electrical power or thermal energy. In general, the
power developed in such applications depends fundamentally up on the amount of solar energy captured by thecollectors and does the problem of developing tracking schemes capable of following the trajectory of the sun
through out the course of the day on a air around basis ha received significant coverage in this project. In aden city
the implement in the performance of the solar cooker during summer was found to be as much as 40% for higherelevation angle and 70% for lower elevation angle, based on the development tracking algorithm, more over it was
shown that the amount of solar energy capture by a tilted collector could be increased by more than 40% by
adjusting the tilt angle on seasonal basis.
8.Real time environment monitoring system and status updating in pc
This offers a system for monitoring environmental parameters (e.g. temperature, relative humidity, carbon dioxide)
with accuracy & consistency and reliable 24/7 alerting. The system is used in locations where accurate recordingand maintenance of such parameters is required for compliance with quality standards, manufacturing efficiency, or
audits by either customers or statutory bodies. The company is seeking commercial life science partners interested in
collaboration/licensing etc.
9. Realtime agricultural environment for social modernization of Indian agricultural system.
The paper Real time atomization of agricultural environment for social modernization of Indian agricultural
system using ARM7 and GSM is focused on automizing the irrigation system for social welfare of Indian
agricultural system and also to provide adequate irrigation in particular area. The set up consists of ARM7TDMIcore, which is a 32- bit microprocessor, GSM serves as an important part as it is responsible for controlling the
irrigation on field and sends them to the receiver through coded signals. GSM operates through SMSs and is the
link between ARM processor and centralized unit. ARM7TDMI is an advanced version of microprocessors and
forms the heart of the system. Our project aims to implement the basic application of automizing the irrigation fieldby programming the components and building the necessary hardware. This project is used to find the exact field
condition. GSM is used to inform the user about the exact field condition. The information is given on user request
in form of SMS. GSM modem can be controlled by standard set of AT (Attention) commands. These commands can
be used to control majority of the functions of GSM modem.
10. Micro controller based Non contact sensor for petroleum level measurement at process plants.
This is an advanced sensor to measure the fluids like petroleum, diesel where the sensor
should not be in contact with the fluids. if we use a capacitive sensor or load sensor it will be tough to implement on
the existing system where the system has to be modify according to these sensor .in this project we are using a
special senor called ultrasonic sensor which works on the echo principle .it is very easy to install & safe to use for
the critical fluids , since it is a total non contact sensor Working principle of the sensor ().in this device there is a
display system which shows the continuous level measurement using advanced pic microcontroller, the output of the
ultrasonic sensor is fed to the amplifier & it is signal conditioned& processes by the microcontroller . we can also
provide a option to pass the data to the computer so thatone can visualize the level of the fluid in the container with
more graphical presention.by this one can control the valves or the micro controller will operate it automaticallyasset by the user .
#56, II Floor, Pushpagiri Complex, 17th Cross 8th Main, Opp Water Tank, Vijaynagar,
Bangalore 40. Ph : 080-23208045 / 23207367, 9886173099, mail ID :
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Embedded Project Abstract(Automotive, Biomedical, Robotics, Biometric, Eco-Friendly)
11. Automatic speed braking using rf for communication engineering:
In school areas speed breakers are provided to reduce the speed of vehicles, but this is done manually by thedrivers. This process can be automated by means ofRF communication. That is to say that each vehicle should be
equipped with a RF Receiver circuit which reduces the speed automatically on entering the RF Communicated area.
It provides pre-crash safety system for intelligent vehicles. It also generates an alarm system to alert the driver to
reduce the speed of the Vehicle. A digital code is transmitted by a RF transmitter, kept where the speed breakers are
to be installed. This code is decoded by the receiver circuit in the vehicle, and acknowledges the driver using voice
interaction circuit that the car will be slowed down automatically now and then it controls the activities of PWM tobring down the speed of the vehicle. Differing from the existing module, the proposed module is very simple,
cheaper and most suitable for Indian road scenario.
Few Project topics
1. Single chip diagnostic device
2. Fire suppression system for fedex
3. Solar Micro grid monitoring
1. Automatic High Way Horn Changeover
2. Intelligent Car Lighting System using LDR
3. Control Design for Vehicle Speed With Multilevel Using Wireless Communication Technology
4. Intelligent toll collection using RFID CAN based car security system
5. Microprocessor Based Controlling & Monitoring of Gas Run Automobiles
6.COMPLETE RESTAURANT SERVICES BY HAND HELD DEVICE WITH RF INTERFACE
7.PIC16F877A BASED INDUSTRIAL TIME OPERATED MACHINE WITH LCD DISPLAY
8. GSM CONTROLLED DOOR LATCH OPENER WITH SECURITY AUTODIAL-UP
9.TOKEN NUMBER DISPLAY WITH VOICE AND SECUIRTY USING MICROCONTROLLER
#56, II Floor, Pushpagiri Complex, 17th Cross 8th Main, Opp Water Tank, Vijaynagar,
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