Crosswind stabilization (CWS) is a relatively new

advanced driver-assistance system An advanced driver-assistance system (ADAS) is any of a groups of electronic technologies that assist drivers in driving and parking functions. Through a safe human-machine interface, ADAS increase car and road safety. ADAS uses automated technol ...

in cars and trucks that was first featured in a 2009 Mercedes-Benz S-Class. CWS assists drivers in controlling a vehicle during strong wind conditions such as driving over a bridge or when overtaking a semi-truck. CWS uses

yaw rate A yaw rotation is a movement around the yaw axis of a rigid body that changes the direction it is pointing, to the left or right of its direction of motion. The yaw rate or yaw velocity of a car, aircraft, projectile or other rigid body is the ...

, lateral acceleration, steering angle, and

velocity Velocity is the directional speed of an object in motion as an indication of its rate of change in position as observed from a particular frame of reference and as measured by a particular standard of time (e.g. northbound). Velocity is a ...

sensors to determine how much assistance to give the driver in a certain scenario whether it be at different speeds or while turning. Using different components throughout the vehicle like

brake A brake is a mechanical device that inhibits motion by absorbing energy from a moving system. It is used for slowing or stopping a moving vehicle, wheel, axle, or to prevent its motion, most often accomplished by means of friction. Background ...

s, differentials, and

suspension Suspension or suspended may refer to: Science and engineering * Suspension (topology), in mathematics * Suspension (dynamical systems), in mathematics * Suspension of a ring, in mathematics * Suspension (chemistry), small solid particles suspend ...

, CWS can implement the readings from force sensors to properly assist the driver in a given situation.

Origination

Crosswind stabilization was first used by

Mercedes-Benz Mercedes-Benz (), commonly referred to as Mercedes and sometimes as Benz, is a German luxury and commercial vehicle automotive brand established in 1926. Mercedes-Benz AG (a Mercedes-Benz Group subsidiary established in 2019) is headquartere ...

in 2009 in their S class and then later implemented in their Sprinter and Metris vans. Before this technology existed, vans and trucks of similar size had a higher risk of crashing in strong wind conditions as the

surface area The surface area of a solid object is a measure of the total area that the surface of the object occupies. The mathematical definition of surface area in the presence of curved surfaces is considerably more involved than the definition of arc ...

on the side of the vans and trucks caused the wind to push on the side of the vehicle acting like a sail. This wind can be caused by winds on an open plain, crossing bridges, or a semi-truck or any big vehicle moving at a high speed passing by. This can lead to spinouts and crashes as the driver is forced to grip the wheel tighter which can lead to jerky steering.

How it works

Crosswind stabilization works on the basic principle that an undesirable force (crosswind) is acted upon a force in the opposite direction of equal force. When an undesirable wind is picked up by the vehicle's sensors, the hardware in a car's

Electronic Stability Program Electronic stability control (ESC), also referred to as electronic stability program (ESP) or dynamic stability control (DSC), is a computerized technology that improves a vehicle's stability by detecting and reducing loss of traction ( skiddi ...

(ESP) can create an unbalanced torque distribution (uneven amount of force on each axle) at the driven wheels which will counteract the wind. The uneven torque-distribution can be caused by these ways: # Unevenly braking one side of the car. Doing so would cause the car to turn in the direction of the wheels that are braking. This slight turn will counteract the wind causing the vehicle to move in a straight line. # Applying more power to one set of axles. Applying more power to a set of axles will cause the wheel to rotate at a higher rpm. This is also known as

torque vectoring Torque vectoring is a technology employed in automobile differentials that has the ability to vary the torque to each half-shaft with an electronic system; or in rail vehicles which achieve the same using individually motored wheels. This method ...

. A wheel with a higher rpm will travel more distance compared to a lower rpm wheel. For example, if a crosswind is coming from the left causing the car to veer right, applying more power to the right axles, will cause the car to rotate left just enough to balance out the wind. Some advanced systems such as Mercedes'

Active Body Control Active Body Control, or ABC, is the Mercedes-Benz brand name used to describe electronically controlled hydropneumatic suspension. This suspension combines a high level of ride quality with control of the vehicle body motions, and therefore vi ...

(ABC) suspension, can soften or harden the suspension to provide the same results. In Volkswagen's CWS, they use steering correction rather than using the differential or brakes to control the vehicle. The force sensors in the vehicle tell the ESP system which direction the wind is coming from and the ESP system adjusts the steering accordingly. This leads to no energy wasted and less tire wear as the differential and brakes are not actively changing the forces coming from the

drivetrain A drivetrain (also frequently spelled as drive train or sometimes drive-train) is the group of components that deliver mechanical power from the prime mover to the driven components. In automotive engineering, the drivetrain is the components o ...

Components

Brakes

Brakes are used to stop a car. Brakes in some CWS cars are used to help steer the car in the opposite direction of where the wind is coming from. This is called torque vectoring by braking.

Differential

A differential in a car is constructed to drive a set of wheels and allows them to rotate at different speeds. If a car doesn't have a differential, this would make turning difficult and cause greater tire wear. In cars with CWS and ESP, the differential has many sensors and electronics to be able to control the differential using software. This allows for precise axle control which allows the car to be more stable.

ESP System

ESP, also known as

controls the vehicle's

Antilock Braking System An anti-lock braking system (ABS) is a automobile safety, safety anti-Skid (automobile), skid Brake, braking system used on aircraft and on land motor vehicle, vehicles, such as cars, motorcycles, trucks, and buses. ABS operates by preventing t ...

(ABS) and

Traction Control System A traction control system (TCS), also known as ASR (from german: Antriebsschlupfregelung, lit=drive slippage regulation), is typically (but not necessarily) a secondary function of the electronic stability control (ESC) on production motor vehicle ...

(TCS). The Traction control system works by applying less torque to a set of wheels to prevent burnouts or loss of grip from happening. The ABS system prevents the wheels from locking up while braking which can cause the car to skid in the straight line even if the driver wants to turn. Using these two systems, he ESP system uses a computer to determine when to use the ABS and TCS system to keep the car stable and not out of control. In cars with CWS, CWS uses the ESP system in order to control the car and without ESP, it wouldn't work.

Suspension

Suspension in the car is mainly used for keeping the car ride smooth while also providing more grip to the wheels while cornering. A softer suspension can cause sway which could lead to less responsive steering and

oversteer Understeer and oversteer are vehicle dynamics terms used to describe the sensitivity of a vehicle to steering. Oversteer is what occurs when a car turns (steers) by more than the amount commanded by the driver. Conversely, understeer is what occ ...

. However, a softer suspension tends to lead to a smoother more comfortable ride. Stiff suspension minimizes body movement and leads to the wheels having more traction. However, a stiffer suspension can lead to a more unpleasant ride. Relating to CWS, some cars can stiffen or soften the suspension to get more grip on a certain set of tires which leads to a better-controlled car in high wind situations.

Electric Power Steering

Electric power steering A power steering is a mechanical device equipped on a motor vehicle that helps drivers steer the vehicle by reducing steering effort needed to turn the steering wheel, making it easier for the vehicle to turn or maneuver at lower speeds. Hydraul ...

(EPS) uses sensors and an electric motor to assist the steering effort. The wheel is connected to a steering wheel position sensor which tells the computer the position of the steering wheel and commands the electric motor accordingly. Using software, EPS allows cars to become self drivable. In CWS, some vehicle's software can control the steering of the vehicle to prevent spin outs or dangerous side-to-side movement to occur.

Force Sensors

Force sensors are used to determine the force of the wind acting on the side of the car. These readings are reported to the CWS system which then adjusts different components like the ones mentioned above to keep the vehicle stable.

Vehicles that have CWS

Effectiveness

A study by the University of Iowa using the National Advanced Driving Simulator ran a test called the "Wind Gust Scenario". In this scenario, 120 drivers were divided evenly between a bigger SUV and a sedan. Of each vehicle, drivers drove with ESC off or ESC on. The test required drivers to drive in their lane and a crosswind would push the drivers into the oncoming lane. According to the results, in vehicles with the crosswind stabilization enabled, only one driver lost control, while in vehicles without it, 50 of the 179 drivers lost control.{{Cite journal, last=Department of Transportation, first=, date=, title=Federal Motor Vehicle Safety Standards; Electronic Stability Control Systems; Controls and Displays, url=https://www.nhtsa.gov/sites/nhtsa.dot.gov/files/esc_fr_03_2007.pdf, journal=NHTSA, volume=, pages=327, via= This proves that, in strong crosswind situations, having ESP and CWS can prevent up to 30% more crashes.

References

Vehicle safety technologies Advanced driver assistance systems