Fórmula 1
02 jul.
-
05 jul.
Evento finalizado
R
GP de Estiria
09 jul.
-
12 jul.
FP1 en
3 días
Fórmula E
R
Berlin ePrix I
05 ago.
-
05 ago.
Próximo evento en
29 días
R
Berlin ePrix II
06 ago.
-
06 ago.
Próximo evento en
30 días
MotoGP
17 jul.
-
19 jul.
FP1 en
10 días
R
GP de Andalucía
24 jul.
-
26 jul.
Próximo evento en
17 días
WSBK
R
Jerez
31 jul.
-
02 ago.
Próximo evento en
24 días
R
Algarve
07 ago.
-
09 ago.
Próximo evento en
31 días
WRC
R
Rally de Estonia
04 sept.
-
06 sept.
Próximo evento en
59 días
R
Rally de Turquía
24 sept.
-
27 sept.
Próximo evento en
79 días
WEC
13 ago.
-
15 ago.
Próximo evento en
37 días
R
Bahrein
19 nov.
-
21 nov.
Próximo evento en
135 días
IndyCar
02 jul.
-
04 jul.
Evento finalizado
R
Road America
10 jul.
-
12 jul.
Próximo evento en
3 días
NASCAR Cup
R
Indianapolis
05 jul.
-
05 jul.
Evento finalizado
R
Kentucky
12 jul.
-
12 jul.
Próximo evento en
5 días

How Adaptive Cruise Control Works - Step One For Autonomous Cars

  compartidos
  comentarios

How adaptive cruise control works. Adaptive cruise control is one of the first steps in moving towards autonomous driving vehicles, as it allows the vehicle to regulate speed and braking on the highway to maintain a set following interval behind the detected car ahead. This video will look at how Honda implements this system on their vehicles, as well as how Collision Mitigation Braking Systems work. Both systems rely on a millimeter wave radar as well as a monocular camera to detect objects ahead.

So how does adaptive cruise control work? The primary purpose of the system is to travel at the speed selected by the driver, just like traditional cruise control. However, if the vehicle detects another car in front of it that is traveling at a slower speed, the vehicle will reduce its speed to match that of the detected car and a then maintain a selected interval behind the car. The system works by emitting radar waves which bounce off of vehicles ahead and return to the unit. This informs the system of the distance between the two vehicles; changes in that distance inform the system of the vehicles’ relative speeds.

So how does the Collision Mitigation Braking System work? The goal of the system is to alert the driver if a collision with a detected vehicle is likely, and then to apply the brakes to reduce the severity of a collision if it’s unavoidable. The system scans up to 330 feet of the road in front of the vehicle, and works in three stages if the driver begins to come close to a vehicle detected ahead.

This is a sponsored video created by me on behalf of Honda. The opinions stated are all mine.

Related Content:
Honda Sensing: http://automobiles.honda.com/sensing/

Disclaimer - ACC:
ACC cannot detect all objects ahead and may not detect a given object; accuracy will vary based on weather, speed and other factors. ACC should not be used in heavy traffic, poor weather or on winding roads. ACC only includes a limited braking function; driver remains responsible for slowing or stopping the vehicle to avoid a collision.

Disclaimer - CMBS:
Depending on the circumstances, CMBS may not go through all the alert stages before initiating the last stage (of collision mitigation). CMBS cannot detect all objects ahead and may not detect a given object; accuracy will vary based on weather, speed and other factors. System operation affected by high interior heat. Driver remains responsible for safely operating vehicle and avoiding collisions.

Please feel free to rate, comment, and subscribe!

And don't forget to check out my other pages below!
Facebook: http://www.facebook.com/engineeringexplained
Official Website: http://www.howdoesacarwork.com
Twitter: http://www.twitter.com/jasonfenske13
Instagram: http://www.instagram.com/engineeringexplained
Car Throttle: https://www.carthrottle.com/user/engineeringexplained

NEW VIDEO EVERY WEDNESDAY!

Siguiente vídeo

Sobre este vídeo

Duración 03:21
Publicado 12 nov. 2015
Campeonatos Coches
Sé el primero en conseguir
las últimas noticias