Light Dimmer with Implementation of Data Abstraction While Crashing

©2016,IJCERT All Rights Reserved Page | 530
Volume 3, Issue 9, September-2016, pp. 530-534 ISSN (O): 2349-7084
International Journal of Computer Engineering In Research Trends
Light Dimmer with Implementation of Data
Abstraction While Crashing
1
Ansa Babu, 2
Anu Joseph, 3
Filiya Francis, 4
Krishnadas J
1,2,3
U.G. Scholar, Department of Computer Science & Engineering,
4
Assistant Professor,
1,2,3,4
Sahrdaya College of Engineering and Technology, Kodakara, Kerala, India.
ansababu95@gmail.com ,anukj315@gmail.com ,filiya95@gmail.com, 4
krishnadaskumar@gmail.com
Abstract- The paper proposes a system to automatically dim the headlight of opposite vehicles by changing from high beam
to low beam. The system envisioned is automatic collision avoidance and detection. Many methods are available to dim the
headlight of vehicles. In the earlier days dip mechanism was used. Similarly there are several mechanisms for automatic
accident detection. An automatic alarm gadget for traffic accidents is presented. It can consequently discover a car crash; hunt
down the spot and after that send the essential data to hospitals. This system will highly aid the search and rescue of vehicles
that have met with an accident.
Keywords- Vehicular communication, V2V, V2I, ITS, accident, GPS, GSM, map matching, automatic accident detection,
Headlights Dimmer, Light Dependent Resistor (LDR)
————————————————————
1. INTRODUCTION
The purpose of our project is to reduce accidents.
The death rate is increasing day by day due to accident.
The requirement of headlight is very common during
night travel. The same headlight which assists the
driver for better vision during night travel is also
responsible for many accidents that are being caused.
The headlight has to be adjusted according to the light
requirement by the driver. High beam of headlight of
an on-coming car has blinding effect and decreases
visibility during night driving dangerously. The drivers
of most vehicles use high, bright beam while driving at
night. This causes a discomfort to the person traveling
from the opposite direction. He experiences a sudden
glare for a short period of time. This is caused due to
the high intense headlight beam from the other vehicle
coming towards him from the opposite direction. Our
survey paper contains ideas about how to dim the head
light of opposite vehicles which has high-beam
switched-on from high-beam to low-beam and also to
detect accident using an automatic alarm gadget.
2. METHODOLOGY
In *1+, an automatic alarm gadget for traffic
accidents is presented. It can consequently discover a
car crash; hunt down the spot and after that send the
essential data to hospitals within two seconds covering
topographical directions, the time and circumstances in
which an accident happens. GPS programming fitted in
the vehicle will now begin to communicate with the
Available online at: www.ijcert.org

Ansa Babu et al. ," Light Dimmer with Implementation of Data Abstraction While Crashing”, International Journal of Computer
Engineering In Research Trends, 3(9):530-534, September-2016.
satellite and get the scope and longitude values and
send the data to the incorporated server. At that point
the server will search for the nearest hospital and send
the data to the hospital. The hospital will then be
sending the emergency vehicle to the accident zone.
Hence the injured individuals will be spared at the
earliest opportunity. This procedure will spare time
specifically for the regions in the external piece of
primary zone.
In *2+, a new framework is implemented in
which an automatic detection of accident through
sensors is provided in the vehicle. Road accidents and
traffic congestion are the significant issues in urban
ranges. Right now there is no innovation for accident
detection. Likewise because of the deferral in coming to
of the rescue vehicle to the accident area and the traffic
congestion in between accident location and hospital
increases the chances of the death of victim. There is a
need of acquainting a framework which decreases the
death toll because of mishaps and the time taken by the
rescue vehicle to achieve the healing facility. To defeat
the downside of existing framework a new framework
is implemented in which an automatic detection of
accident through sensors is provided in the vehicle. A
primary server unit houses the database of all clinics in
the city. A GPS and GSM module in the concerned
vehicle will send the area of the mishap to the principle
server which will surge an emergency vehicle from a
closest clinic to the mischance spot. Alongside this there
would be control of traffic light signals in the way of the
rescue vehicle utilizing RF correspondence. This will
minimize the time of rescue vehicle to achieve the
doctor's facility. A patient monitoring system in the
ambulance will send the essential parameters of the
patient to the concerned hospital. This framework is
completely automated, therefore it finds the accident
spot, controls the traffic lights, helping to reach the
hospital in time.
In *3+, a system is proposed to detect an
accident from the map matched position of a vehicle by
utilizing the GPS speed data and map matching
algorithm and send accident location to an Alert Service
Centre. The GPS gives speed and position in every 0.1
second. The position information will be utilized as a
part of the map matching algorithm to find the vehicle
on the road. The present speed is compared with the
previous speed in every 0.1 second through a
Microcontroller Unit. At whatever point the speed will
fall underneath the safe figured limit speed, the
framework will create an accident situation. It will
check the vehicle area from map matching module and
create an accident situation if the vehicle is found
outside the road network. This will reduce the false
accident detection radically. The map matched accident
area is then sent by using the GSM system. The
proposed framework will save many accident victims
with timely rescue.
In *4+, a new technology named VANET has
been introduced. VANET comprises of vehicle-to-
vehicle (V2V) and vehicle-to-infrastructure (V2I)
communications supported by wireless access
technologies such as IEEE 802.11p. This advancement in
wireless communication has been conceived to enhance
road safety and motor traffic efficiency in near future
through the development of Intelligent Transport
Systems (ITS). Subsequently, government, auto-
versatile businesses and the educated community are
vigorously joining forces through a few progressing
research tasks to build up models for VANETs. This
paper gives an overview on current research state,
challenges, possibilities of VANETs as well the way
forward to achieving the long awaited ITS.
In *5+, a programmed front lamp dimmer
which utilizes a Light Dependent Resistor (LDR) sensor
has been intended to diminish the front light of on-
coming vehicles to evade human eye impacts. This
consequently exchanged the high shaft into low bar,
accordingly decreasing the glare impact by detecting
the light power benefit of drawing closer vehicle
furthermore wiped out the necessity of manual
exchanging by the driver which was not done at all
times. Mat lab programming was utilized in planning
the venture. The Keil programming was additionally
utilized to program the microcontroller. The framework

gadget could naturally switch the front light to low
pillar when it detected a vehicle drawing nearer from
the inverse side utilizing LDR sensor. It was watched
that the most extreme spread edge of the fog light was
135o. At the time the spread light from other sources
achieved the sensor, its power would be especially
diminished beneath the activating edge level. The
affectability of a photograph identifier decided the
relationship between the light falling on the gadget and
the subsequent yield signal. A server module could be
incorporated to this framework for accepting and
putting away front light beams parameters data in a
database application.
In *6+, a technique for keeping a mishap
utilizing an innovation is called ultrasonic. This
anticipate concentrates on building an easy to
understand gadget that has practical experience in
distinguishing interruptions other than doing short
proximity deterrent identification. Vehicle wellbeing
can be enhanced by expecting an accident before it
happens and in this way giving extra time to convey
wellbeing innovations. Notices can resemble signal if
the driver is drawing nearer a pothole or any check,
driver might be cautioned in cutting edge with respect
to what the street involves. The venture's definitive
point along these lines concluded as, one to fabricate a
general, simple to-use and adaptable framework that
can counteract deadly mischance. It likewise points
counteractive action after the mischance has occurred
utilizing GPS and GSM innovations.
In *7+, Pre-Collision Systems (PCS) have been
created to moderate the inborn dangers walkers face
when going close vehicular activity. Be that as it may,
the progression of these accidents is complex, with
numerous intensifying variables making them hard to
show. The most overwhelming component over these
impacts is vehicle speed, a solid determinant of time to
impact. In any case, the elements of these accidents are
perplexing, with numerous aggravating elements
making them hard to model. The most predominant
component over these impacts is vehicle speed, a solid
determinant of time to impact and the seriousness of
damage. An arrangement of vehicles paces at effect is
created in view of the Pedestrian Crash Data Study
(PCDS). These rates are then connected with various
sorts of accident geometries. At long last, a calculation is
created to streamline the velocity dispersion into a little
arrangement of testable rate situations. Our outcomes
propose that for some situations, especially those
including turns, the pace dissemination can be sensibly
spoke to by maybe a couple vital paces. This
extraordinarily improves development of walker pre-
crash situations.
In *8+, the auto-dim of vehicle head light using
RF-wave is presented. The idea project is about
naturally diming the head light of inverse vehicles
which has high-beam changed on from high-beam to
low-beam. This is done utilizing the RF wave to convey
the vicinity of the on-coming vehicles furthermore a
photodiode to distinguish the general force of the high-
beam to the driver. Every vehicle is fitted with the RF
transmitter and receiver to recognize the closeness of
the vehicles. A photodiode is to distinguish the force of
the high-light emission inverse vehicle, in the wake of
affirming the nearness of the vehicle. The technology
used in this project is simple. RF used by cars will have
a unique frequency such that it will help us to reduce
the confusion that light source is from car or from street
light. At whatever point a vehicle from inverse comes
quite close to another vehicle, the RF module give a
interrupt to microcontroller. At that point
microcontroller then takes the perusing of photodiode,
which gives the estimation of light power. Depending
on the light power micro controller can dim the head
light.
In *9+, automatic headlight dimmer a
prototype for vehicles is introduced. Drivers of most
vehicles utilize high, brilliant Headlight while driving
at night. This causes a distress to the individual going
from the other way. He encounters a sudden glare for a
brief period of time. This is created because of the high
serious intense beam from the other vehicle coming
towards him from the other way. This glare causes
many visual problem such as Toxler effect, resulting in

road accident. So, a new model called automatic light
dimmer was introduced which automatically switches
the head light from high intensity to low intensity and
thus reduces accident. This device should be installed in
all vehicles .Until the vehicle sense the opposite vehicle
it can move with high beam. But when the LDR sense
the bright light it means that opposite vehicle is arriving
.So the device will automatically switch high beam to
low beam. But if the head light is already is in low beam
then no switching will occur. As the vehicles crosses the
intensity of light falling on sensor goes on decreasing
and light will be switched back to original mode. The
placement of the device must be ought to be in line with
driver. This system is easy to install and reduces eye
problems.
In *10+, Electronic Head Lamp Glare
Management System for Automobile Applications is
presented. Headlamp glare is an issue that has
developed as far as open mindfulness over the previous
decade. High light emission of an on-coming auto has
blinding impact and cause many visual problems. The
drivers of most vehicles utilize high, splendid bar while
driving around evening time. This causes an
inconvenience to the individual going from the other
way. We are relied upon to diminish the front lamp to
maintain a strategic distance from this glare. This idea is
extremely valuable in the vehicle field applications,
which gives safety of driver during night driving. The
same headlight which helps the driver for better vision
amid night travel is likewise in charge of numerous
mischance’s that are being brought on. The driver has
the control of the head light which can be changed from
high beam to low beam .The model that is has been
outlined, lessens this issue by really diminishing down
the splendid front lamp of our vehicle to low shaft
consequently when it detects a vehicle at close
proximity approaching from the other direction. The
headlamp glare administration gadget is a security
embellishment, which naturally moves the headlights
position as per the current lit air. The crucial target of
the gadget is to promote night time street road safety by
minimizing glare. The gadget is sufficiently wise to
comprehend lit and dark roads and works the
headlamps appropriately. Headlamp glare
administration framework can be fitted in a vehicle.
This gadget has been effectively tried on real street
conditions. The framework automatically avoids high
beam from the inverse vehicles in this way gives clearer
and more secure drive during the evening.
3. CONCLUSION
Several mechanisms are available to detect the
road accidents automatically. The accident spot will be
detected and the basic information like time and
location will be send to the nearby hospital. Similarly
the headlight of vehicles can be automatically dimmed
when it comes in the opposite direction. This reduces
the irritation caused to the drivers due to the intense
beam from the headlights. Sometimes the vehicles that
have met with an accident do not stop at the accident
spot. These vehicles can be caught by implementing a
system that helps to exchange the data between these
vehicles at time of accident. The data will consist of
vehicle details and owner name. Hence the vehicles can
be caught even if it doesn’t stop at the accident spot by
obtaining its data from the other vehicle.
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Computer Science Engineering Anand Institute of
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Light Dimmer with Implementation of Data Abstraction While Crashing