Adaptive cruise control (ACC) provides assistance to the driver in the task of longitudinal control of their vehicle during motorway driving within limited acceleration ranges. The system controls the accelerator, engine powertrain and vehicle brakes to maintain a desired time-gap to the vehicle ahead.
Adaptive cruise control (ACC) provides assistance to the driver in the task of longitudinal control of their vehicle during motorway driving within limited acceleration ranges. The system controls the accelerator, engine powertrain and vehicle brakes to maintain a desired time-gap to the vehicle ahead.
Ultrasonic automatic braking system in cars by Accelerator Disengagement Mech...Arvind Srivastava
The Ultrasonic Automatic Braking System in cars is a safety measure which can be implemented to apply the brakes suddenly in case of collision. Accelerator disengagement mechanism uses a servo motor and an additional link which shuts down the throttle valve to disengage accelerator and then the brakes.
automatic braking system and brake actuation before collisonashutosh singh
In this project the pneumatic bumper and brake is used to protect the man and vehicle. This system is only activated when any obstacle comes in front of vehicle, the obstacle is sensed by sensor and it gives the signal to the control unit and due to this bumper system and braking system activated. Bumper is energized by compressor and it compressed the air and send it to the pneumatic piston. This system is used in any type of light vehicles.
Among the recent advancements in car safety technologies, the adaptive cruise control feature is one of the most important and useful. It greatly minimizes the pressure of the driver as it helps to control the speed of the car and maintains a safe distance from other cars to avoid a crash. But still, this adaptive control should not be used in bad weather conditions and in tunnels as they might not work efficiently. So, if you want to know all about the adaptive cruise control system in your car, then give some time to watch the following slide show.
A nice & better brief presentation on Automatic Braking System that may bring you a great interest and ideology among this fantastic and wonderful technology.
Ultrasonic automatic braking system in cars by Accelerator Disengagement Mech...Arvind Srivastava
The Ultrasonic Automatic Braking System in cars is a safety measure which can be implemented to apply the brakes suddenly in case of collision. Accelerator disengagement mechanism uses a servo motor and an additional link which shuts down the throttle valve to disengage accelerator and then the brakes.
automatic braking system and brake actuation before collisonashutosh singh
In this project the pneumatic bumper and brake is used to protect the man and vehicle. This system is only activated when any obstacle comes in front of vehicle, the obstacle is sensed by sensor and it gives the signal to the control unit and due to this bumper system and braking system activated. Bumper is energized by compressor and it compressed the air and send it to the pneumatic piston. This system is used in any type of light vehicles.
Among the recent advancements in car safety technologies, the adaptive cruise control feature is one of the most important and useful. It greatly minimizes the pressure of the driver as it helps to control the speed of the car and maintains a safe distance from other cars to avoid a crash. But still, this adaptive control should not be used in bad weather conditions and in tunnels as they might not work efficiently. So, if you want to know all about the adaptive cruise control system in your car, then give some time to watch the following slide show.
A nice & better brief presentation on Automatic Braking System that may bring you a great interest and ideology among this fantastic and wonderful technology.
The International Journal of Engineering and Science (IJES)theijes
The International Journal of Engineering & Science is aimed at providing a platform for researchers, engineers, scientists, or educators to publish their original research results, to exchange new ideas, to disseminate information in innovative designs, engineering experiences and technological skills. It is also the Journal's objective to promote engineering and technology education. All papers submitted to the Journal will be blind peer-reviewed. Only original articles will be published.
Information about some devices , instrument and system which include
1. ABS
2. EBD
3. Brake Assist
4. Automatic Transmission Speed Sensor
5. Airbag
6. Tachometer
7. Crash Sensor
8. Engine Immobilizer
9. Automatic Climate Control
10. Cruise Control
11. Traction Control
12. Electronic Stability Control
13. AWD
14. 4WD
People using old second hand cars in cities, particularly novice drivers engage irrelevant gears; this in turn leads to fuel wastage and importing more petrol and diesel. One simple solution is to educate and alert the drivers. In the current paper we explain how to design a low cost, add-on type of s assembly unit which can be fitted on any existing vehicle.
Today, a typical automobile on the road has computer controlled electronic systems, and the most commonly used embedded systems in a vehicle include Airbags, anti-lock braking system, black box, adaptive cruise control, drive by wire, satellite radio, telematics, emission control, traction control, automatic parking, in-vehicle entertainment systems, night vision, heads up display, back up collision sensors, navigational systems, tyre pressure monitor, climate control, etc
Ever been troubled by the blinking sign and didn’t know what to do?
Here’s a handy guide to dashboard symbols so that you’ll never be confused again!
Save them for later and save the trouble!
Symptoms like intermittent starting and key recognition errors signal potential problems with your Mercedes’ EIS. Use diagnostic steps like error code checks and spare key tests. Professional diagnosis and solutions like EIS replacement ensure safe driving. Consult a qualified technician for accurate diagnosis and repair.
What Does the PARKTRONIC Inoperative, See Owner's Manual Message Mean for You...Autohaus Service and Sales
Learn what "PARKTRONIC Inoperative, See Owner's Manual" means for your Mercedes-Benz. This message indicates a malfunction in the parking assistance system, potentially due to sensor issues or electrical faults. Prompt attention is crucial to ensure safety and functionality. Follow steps outlined for diagnosis and repair in the owner's manual.
"Trans Failsafe Prog" on your BMW X5 indicates potential transmission issues requiring immediate action. This safety feature activates in response to abnormalities like low fluid levels, leaks, faulty sensors, electrical or mechanical failures, and overheating.
Fleet management these days is next to impossible without connected vehicle solutions. Why? Well, fleet trackers and accompanying connected vehicle management solutions tend to offer quite a few hard-to-ignore benefits to fleet managers and businesses alike. Let’s check them out!
What Exactly Is The Common Rail Direct Injection System & How Does It WorkMotor Cars International
Learn about Common Rail Direct Injection (CRDi) - the revolutionary technology that has made diesel engines more efficient. Explore its workings, advantages like enhanced fuel efficiency and increased power output, along with drawbacks such as complexity and higher initial cost. Compare CRDi with traditional diesel engines and discover why it's the preferred choice for modern engines.
Core technology of Hyundai Motor Group's EV platform 'E-GMP'Hyundai Motor Group
What’s the force behind Hyundai Motor Group's EV performance and quality?
Maximized driving performance and quick charging time through high-density battery pack and fast charging technology and applicable to various vehicle types!
Discover more about Hyundai Motor Group’s EV platform ‘E-GMP’!
Why Is Your BMW X3 Hood Not Responding To Release CommandsDart Auto
Experiencing difficulty opening your BMW X3's hood? This guide explores potential issues like mechanical obstruction, hood release mechanism failure, electrical problems, and emergency release malfunctions. Troubleshooting tips include basic checks, clearing obstructions, applying pressure, and using the emergency release.
Things to remember while upgrading the brakes of your carjennifermiller8137
Upgrading the brakes of your car? Keep these things in mind before doing so. Additionally, start using an OBD 2 GPS tracker so that you never miss a vehicle maintenance appointment. On top of this, a car GPS tracker will also let you master good driving habits that will let you increase the operational life of your car’s brakes.
Comprehensive program for Agricultural Finance, the Automotive Sector, and Empowerment . We will define the full scope and provide a detailed two-week plan for identifying strategic partners in each area within Limpopo, including target areas.:
1. Agricultural : Supporting Primary and Secondary Agriculture
• Scope: Provide support solutions to enhance agricultural productivity and sustainability.
• Target Areas: Polokwane, Tzaneen, Thohoyandou, Makhado, and Giyani.
2. Automotive Sector: Partnerships with Mechanics and Panel Beater Shops
• Scope: Develop collaborations with automotive service providers to improve service quality and business operations.
• Target Areas: Polokwane, Lephalale, Mokopane, Phalaborwa, and Bela-Bela.
3. Empowerment : Focusing on Women Empowerment
• Scope: Provide business support support and training to women-owned businesses, promoting economic inclusion.
• Target Areas: Polokwane, Thohoyandou, Musina, Burgersfort, and Louis Trichardt.
We will also prioritize Industrial Economic Zone areas and their priorities.
Sign up on https://profilesmes.online/welcome/
To be eligible:
1. You must have a registered business and operate in Limpopo
2. Generate revenue
3. Sectors : Agriculture ( primary and secondary) and Automative
Women and Youth are encouraged to apply even if you don't fall in those sectors.
In this presentation, we have discussed a very important feature of BMW X5 cars… the Comfort Access. Things that can significantly limit its functionality. And things that you can try to restore the functionality of such a convenient feature of your vehicle.
𝘼𝙣𝙩𝙞𝙦𝙪𝙚 𝙋𝙡𝙖𝙨𝙩𝙞𝙘 𝙏𝙧𝙖𝙙𝙚𝙧𝙨 𝙞𝙨 𝙫𝙚𝙧𝙮 𝙛𝙖𝙢𝙤𝙪𝙨 𝙛𝙤𝙧 𝙢𝙖𝙣𝙪𝙛𝙖𝙘𝙩𝙪𝙧𝙞𝙣𝙜 𝙩𝙝𝙚𝙞𝙧 𝙥𝙧𝙤𝙙𝙪𝙘𝙩𝙨. 𝙒𝙚 𝙝𝙖𝙫𝙚 𝙖𝙡𝙡 𝙩𝙝𝙚 𝙥𝙡𝙖𝙨𝙩𝙞𝙘 𝙜𝙧𝙖𝙣𝙪𝙡𝙚𝙨 𝙪𝙨𝙚𝙙 𝙞𝙣 𝙖𝙪𝙩𝙤𝙢𝙤𝙩𝙞𝙫𝙚 𝙖𝙣𝙙 𝙖𝙪𝙩𝙤 𝙥𝙖𝙧𝙩𝙨 𝙖𝙣𝙙 𝙖𝙡𝙡 𝙩𝙝𝙚 𝙛𝙖𝙢𝙤𝙪𝙨 𝙘𝙤𝙢𝙥𝙖𝙣𝙞𝙚𝙨 𝙗𝙪𝙮 𝙩𝙝𝙚 𝙜𝙧𝙖𝙣𝙪𝙡𝙚𝙨 𝙛𝙧𝙤𝙢 𝙪𝙨.
Over the 10 years, we have gained a strong foothold in the market due to our range's high quality, competitive prices, and time-lined delivery schedules.
1. Seminar
On
CRUISE CONTROL SYSTEMS IN CARS
By:
S.GIRIDHARAN (1PI07ME087)
Guide:
Dr. K.N. Seetharamu
Department of Mechanical Engineering
PES Institute of Technology
Jan 2011 – May 2011
DEPARTMENT OF MECHANICAL
ENGINEERING
PES INSTITUTE OF TECHNOLOGY
100 FEET RING ROAD, BANASHANKARI III
STAGE
BANGALORE-560085
2. ABSTRACT
Cruise control is a new technological development which incorporates a
factor of comfort in driving. Safety is only a small benefit of this system. In
short, cruise control can be said to be a system which uses the principles of radar
to determine the distances between two consecutive moving vehicles in which
either one or both of them is incorporated with this system. The electromagnetic
rays from radar system are sensed by sensors in the vehicle which in turn rely
commands to the throttle and brakes of the vehicle to perform according to the
adjacent vehicle‟s distance. So cruise control is a system which provides comfort
to drivers during long monotonous drives.
3. CONTENTS
1. INTRODUCTION
1
2. WHAT IS CRUISE CONTROL
3
3. HOW TO SET CRUISE CONTROL
4
4. ADAPTIVE CRUISE CONTROL
6
5. PARTS AND WORKING
9
5.1 MILLIMETER-WAVE RADAR
11
5.2 STEREO CAMERA
12
5.3 IMAGE PROCESSOR
12
5.4 FUSION PROCESSOR
12
5.5 HEADWAY CONTROL UNIT
13
6. FUTURE ASPECTS
15
7. DANGERS OF CRUISE CONTROL
17
8. CONCLUSION
18
9. REFERENCE
19
4. CHAPTER 1
INTRODUCTION
Every minute, on average, at least one person dies in a crash. If you read
this article from start to finish 30 or more deaths will have occurred across the
globe by the time you are done. Auto accidents will also injure at least 10 million
people this year, two or three million of them seriously. All told, the hospital
bills, damaged property and other costs will add up to 1 - 3 % of the world‟s
gross domestic product according to the Paris based organization for economic
cooperation and development. And, of course, the losses that matter most is not
even captured by these statistics, because there is no way to put a dollar value on
them.
Engineers have been chipping away at this staggering numbers for a long
time. Many safety innovations in the areas of banking systems, air bags, seat
belts, body structures, steering and suspension have had a beneficial effect. Air
bags and seat belts save tens of thousands of people a year by preventing their
head from crashing into the windshield. Supercomputers now let designers create
car frames and bodies that protect the people inside by absorbing much of energy
of crash as possible. As a result, number of fatalities per million kilometers of
vehicle travel has decreased. But the ultimate solution and the only thing that will
save far more lives, limbs and money are to keep out cars from smashing into
each other in the first place.
That is exactly what engineers in the United States, Europe and Japan are
trying to do. They are applying advanced microprocessors, radars, high-speed
ICs and signal-processing chips and algorithms in R&D programs that mark an
about face in the automotive industry: from safety systems that kick in after an
accident occurs, attempting to minimize injury and damage, to ones that prevent
collisions altogether.
5. The first collision avoidance features are already on the road, as pricey
cruise control options on a small group of luxury cars. Over the next few years,
these systems will grow more capable and more widely available, until they
become standard equipment on luxury vehicles. Meanwhile, researchers will be
bringing the first cooperative systems to market. This will take active safety
technology to the next level, enabling vehicles to communicate and coordinate
responses to avoid collisions. Note that to avoid liability claims in the event of
cars equipped with cruise control systems, manufacturers of these systems and
the car companies that use them are careful not to refer them as safety devices.
Instead they are being marketed as driver aids, mere convenience made possible
by latest innovative technology.
6. CHAPTER 2
WHAT IS CRUISE CONTROL
Cruise control is a system, which automatically controls the speed of an
automobile. The driver sets the speed and the system will take over the throttle of
the car to maintain the speed. The system is thereby improving driver comfort in
steady traffic conditions. In congested traffic conditions where speeds vary
widely these systems are no longer effective.
Most cruise control systems don‟t allow the use of cruise control below a
certain speed. The use of cruise control would be significantly increased if the
vehicle speed could automatically adapt to the traffic flow. This feature can be
handy for long drives along sparsely populated roads and usually results in better
fuel efficiency. It is also known in some places as “poor man‟s radar detector”, as
by cruise control, a driver who otherwise tends to unconsciously increase speed
over the course of a highway journey may avoid a speeding ticket.
Blind inventor and mechanical engineer Ralph teetor invented cruise
control in 1945. His idea was born out of the frustration of riding in a car driven
by his lawyer, who kept speeding up and slowing down as he talked. The
Chrysler Corporation on the 1958 Chrysler imperial introduced first car with
cruise control systems.
7. CHAPTER 3
HOW TO SET CRUISE CONTROL
In modern designs, the cruise control may or may not need to be turned on
before use – in some designs it is always “on” but not always enabled. Most
designs have a separate “on” switch, as well as set, resume, accelerate and coast
functions. The system is operated with controls easily within the driver‟s reach,
usually with two or more buttons on the steering wheel or on the windshield
wiper or turn signal stalk. The cruise switches of a latest Ford car are shown in
the figure below.
Fig 3.1
Driver should bring the car to speed manually and then use a button to set
cruise control to the current speed. Most systems do not allow the use of cruise
control below a certain speed to discourage use in city driving. The car will
maintain that speed by actuating the throttle. Most systems can be turned off both
explicitly or automatically, when the driver hits the brake or clutch. When the
cruise control is in effect, the throttle can still be used to accelerate the car,
although the car will then slow down until it reaches the previously set speed.
8. Fig 3.2
Now let us see the individual functions of each cruise switches in detail.
1.
The on and off buttons really don‟t do much. Some cruise controls don‟t
have these buttons; instead, they turn off when the driver hits the brakes,
and turn on when the driver hits the set button.
2.
The set/accelerate button tells the car to maintain the speed you are
currently driving. If you hit the set button at 45 km/hr, the car will maintain
your speed at 45 km/hr. holding down the set/accelerate button will make
the car accelerate. On most cars, tapping it once will make the car go 1
km/hr faster.
3.
If recently disengaged the cruise control by hitting the brake or clutch
pedal, hitting the resume button will command the car to accelerate back
to the most recent speed setting.
4.
Holding down the coast button will cause the car to decelerate, just as if
you took your foot completely off the gas. On most cars, tapping the coast
button once will cause the car to slow down by 1 km/hr.
5.
The brake pedal and clutch pedal each have a switch that disengages the
cruise control as soon as the pedal is pressed. So you can disengage the
cruise control with a light tap on the brake or clutch.
9. CHAPTER 4
ADAPTIVE CRUISE CONTROL
There is a new type of cruise coming onto the market called adaptive
cruise control. Two companies, TRW and Delphi Automotive Systems are
developing a more advanced cruise control that can automatically adjust a car‟s
speed to maintain a safe following distance.
Adaptive cruise control is similar to conventional cruise control in that it
maintains the vehicle‟s pre-set speed. However, unlike conventional cruise
control, this new system can automatically adjust speed in order to maintain a
proper and safe distance between vehicles in the same lane.
These adaptive cruise control (ACC) systems, which add $1500 to $3000
to the cost of a car uses laser beams or forward looking radars to measure the
distance from the vehicle they are in to the car ahead and its speed relative to
theirs. If a car crosses into the lane ahead or if the lead vehicle slows down, say,
and the distance is now less than the preset minimum (typically a 1 or 2 second
interval of separation) or if another stationary object is detected, the system
applies brakes, slowing down the vehicle, until it is following at the desired
distance. If the leading car speeds up or moves out of the lane, the system opens
the throttle until the car has returned to the cruise control speed set by the driver.
In May 1998, Toyota became the first to introduce an ACC system on a
production vehicle when it unveiled a laser-based system for its progress
compact luxury sedan, which it sold in Japan. Then Nissan followed suit with a
radar-based system, in the company‟s Cima 41LV-2, a luxury sedan also sold
only in Japan. In September 1999, Jaguar began offering an ACC for its XKR
coupes and convertibles sold in Germany and Britain. Delphi Delco Electronic
Systems supplies the radar sensing unit; TRW Automotive Electronics, the brake
10. control; and Siemens, the assembly that manipulates the throttle. Last fall,
Mercedes-Benz and Lexus joined the adaptive cruise control movement. Lexus
offers an ACC option for its top-of-the-line LS430; at the movement, it is the
only ACC system available in the United States. Mercedes‟ system is an option
on its C-Class and S-Class models, which are available in Europe.
Fig 4.1
All of the ACC systems available today are built around sensors that
detect the vehicle ahead through the use of either radar or lidar (light detecting
and ranging, the laser based analog to radar). The choice of sensors presents
classic design tradeoffs. We will see the radar-based system in detail later. Lidar
is less expensive to produce and easier to package but performs poorly in rain
and snow. The light beams are narrower than water droplets and snowflakes,
pushing down the signal-to-noise ratio in bad weather. Another problem is that
accumulations of mud, dust or snow on the car can block lidar beams.
At present, only one automaker, Lexus, uses a laser-based ACC system, in
its LS430 luxury sedan. System engineers have acknowledged lidar‟s
shortcomings and taken steps to make the system unavailable in situations where
11. the weather may limit its effectiveness. According to the LS430 owner‟s manual,
the system will automatically shut itself off if the windshield wipers are turned to
a rapid setting, indicating heavy rain or snow; if something activates the anti-lock
braking system (which helps the driver maintain a steering control and reduces
stopping distances during emergency braking situations); or if the vehicle skid
control system detects the slipping of tires on turns that is common in wet
weather.
Fig 4.2
The Lexus LS430 laser sensor built into the front grille
12. CHAPTER 5
PARTS AND WORKING
We have already seen the working of a laser-based ACC system, its
limitations and all. Now let us take a look at how radar-based ACC system
works, in detail.
The main components of a typical radar-based ACC system are the
following.
1. Fusion sensor
2. Headway control unit
3. Throttle
4. Brake
5. Dashboard display
Fusion sensor is a combination of sensors and processors. The fusion
sensor consists of the following components.
1. Millimeter-wave radar
2. Stereo camera
3. Image processor
4. Fusion processor
.
13. Fig 5.1
Architecture of a radar-based ACC system
Let us take a close look at each of these components, their individual
roles, in detecting hazards in the roadway and responding in the correct manner
so as to avoid those detected hazards
14. 5.1 MILLIMETER-WAVE RADAR
Fundamental to any cruise control system is a sensor that can reliably
detect obstacles in the traffic environment in a variety of conditions. Millimeterwave radar is a method used for detecting the position and velocity of a distant
object. This radar has a forward-looking range of up to 500 feet. The radar unit is
housed behind the radiator grille.
Every 60 milliseconds, the sensor sends out a trio of overlapping beams of
electromagnetic radiations of approximately 3 degrees each (roughly the width of
one traffic lane). The beam runs up to 500 feet ahead of the vehicle, and the
sensor receives signals that are reflected back from objects in the roadway.
Velocity and range is derived, by measuring the Doppler frequency shift and time
of flight of transmission. Range is calculated using the formula
C = 2*R/T
Where „C‟ is the velocity of light
„R‟ is the range
„T‟ is the time of flight of transmission.
This information is then fed into a microprocessor (fusion processor)
inside the passenger compartment.
A major advantage of radar is that the performance is not affected by the
time of the day, and therefore no driver adaptation is required for nighttime
driving. The performance advantages of radar over other sensors are enhanced
during poor weather conditions. Systems that rely on visible light are known to
suffer significantly in the very conditions for which they are relied upon the
most. Experience of radar operations has shown that reliable results can be
obtained, even in inclement weather conditions. Radar-based systems can “see”
at least 150 meters ahead in fog or rain, heavy enough to cut the driver‟s ability
to see down to 10 meters or less.
15. 5.2 STEREO CAMERA
The camera‟s function is the same, as that of the radar, detection of cars
and other objects in the roadway. Camera view reaches to a distance of 60 meters
ahead of the vehicle. The stereo camera is situated by the rear view mirror. The
camera view produces good lateral image, but it is unable to provide good
estimates of range. The lane markings on the road are also detected by processing
images from the camera. The image is then sent to the image processor.
5.3 IMAGE PROCESSOR
The image-processing unit acts as an intermediate between the stereo
camera and the fusion processor. It is also situated by the rear view mirror, along
with the stereo camera. What image-processing unit is doing is that, it processes
the images from the stereo camera and the data is then fed into the fusion
processor.
5.4 FUSION PROCESSOR
The function of fusion processor is termed as Data Fusion. Data fusion is a
collection of techniques for combining the measurements from more than one
sensor to provide a more unified result. This has several benefits.
The overall estimates of parameters can be more accurate than for
individual sensor estimate, as they reinforce each other.
Any parameter need not depend on one sensor alone. This has benefits of
Fault Tolerance by allowing redundancy to be introduced into the system.
For example, if the system had infrared and video based sensors, it could
survive the failure of either of these and continue to function although
accuracy and performance in certain conditions can be reduced.
The fusion processor receives information from the two sensors,
millimeter-wave radar and stereo camera. The data contains information like lane
16. path, vehicle speed, range etc relative to host vehicle. The video produces good
lateral image, but it is not able to provide good estimate of range. The radar
conversely produces good estimates of range and hence good relative velocity
estimates, but has poor lateral positional accuracy. Thus by fusing data from
these two sensors the object position can be localized to a better accuracy by
considering the intersection of the two areas of positional uncertainty generated
by each sensor.
Another possible benefit of data fusion is that of object identification, by
combining the expected responses of an object in the sensors. For example, the
image processing may confuse a stationary pedestrian and a traffic sign,
especially at longer ranges, as they both are tall, thin objects. However fusing
data would allow an unambiguous decision to be reached immediately as the two
objects have radically different radar responses.
5.5 HEADWAY CONTROL UNIT
Having detected a hazard the system must respond in the most appropriate
manner so as to avoid the hazard. Evidence suggests that a small reduction in
driver reaction time will dramatically reduce the number of accidents. This can
be achieved by intervening with the controls of the vehicle. Headway control unit
takes up this job. Headway control unit has control on the brakes and throttle.
Headway control unit makes necessary adjustments to the brakes and throttle that
would allow maintaining a constant and safer distance behind the vehicle in
front. In addition to all these, if a suddenly stopped vehicle or a large object in
the roadway or even a bend in the road is detected, a red triangle flashes on the
dashboard, warning the driver. Then the driver must stop the vehicle by applying
brakes manually in the first two cases and steer the vehicle in the third case.
18. CHAPTER 6
FUTURE ASPECTS
Though conventional cruise control is still an expensive novelty, the next
generation, called co-operative adaptive cruise control, or CACC, is already
being tested in California and elsewhere. While ACC can only respond to a
difference between its own speed and the speed of the car ahead, cooperative
systems will two or more cars to communicate and work together to avoid a
collision. Ultimately, experiments say, the technology may let cars follow each
other at intervals as short as half a second. At 100 km/hr, that would amount to a
distance between cars of less than 14 meters (roughly two car lengths).
Fig 6.1
Meanwhile at Fujitsu Ten Ltd, Japan, engineers are working towards
another vision of the future of adaptive cruise control-one targeted squarely at the
realities of driving on often-congested urban and suburban highways. Fujitsu Ten
has demonstrated a prototype system for so called stop-and-go adaptive cruise
control. Ordinary ACC systems maintain a safe distance between cars at speeds
above 40 km/hr, whereas Fujitsu Ten‟s system will work primarily at lower
speeds in heavy traffic. If the car in front stops, it will bring a vehicle to a
19. complete stop. Afterward, it will not re-engage the throttle-that‟s up to the driverbut as soon as the throttle is engaged, it will accelerate and decelerate along with
the leading car over any range of speeds between zero and the cruising speed set
by the driver.
Within a decade or so, the drivers of the most advanced cars will only
have to steer. Eventually, people might not be even entrusted with that task, at
least on limited access highways.
20. CHAPTER 7
DANGERS OF CRUISE CONTROL
The only danger with cruise control is the use of cruise control in wet and
slippery roads. You should turn off cruise control while driving through such
conditions. It is very dangerous to use cruise control in any slippery conditions
like rain, snow, or ice as it takes the complete control of the vehicle out of your
hands. That is because most cruise control systems are designed for normal dry
conditions and can‟t sense whether the wheels are spinning uselessly. If your car
begins to careen out of control, cruise control will continue to accelerate as it
tries to maintain a constant speed. It would put your car into a sideway spin cause
the vehicle to flip over.
Fig 7.1
21. CHAPTER 8
CONCLUSION
This seminar has described about the cruise control systems that are
commonly seen in luxury cars now a day. Fully autonomous car is probably not
viable in the foreseen future. The Intelligent Vehicle Initiative in the United
States and Ertico program in Europe are among dozens of groups working on
technologies that may ultimately lead to vehicles that are wrapped in a cocoon of
sensors, with a 360 view of their environment. Then nearby vehicles would be
in constant communication with each other and act co-operatively, enabling
groups of cars to race along like train cars, almost bumper to bumper, at speeds
above 100 km/hr.
It will probably take decades, but car accidents may eventually become
almost as rare as plane crashes are now. The automobile, which transformed the
developed world by offering mobility and autonomy, will finally stop exacting
such an enormous cost in human lives.