Système de surveillance des angles morts
Comment cela fonctionne-t-il ?
Cette technologie utilise des capteurs situés aux endroits les moins accessibles au conducteur afin de détecter les dangers potentiels, par exemple les véhicules circulant sur les voies adjacentes que le conducteur ne peut pas observer directement en raison de l'angle mort. Normalement, la surveillance de cet angle mort nécessite que le conducteur tourne légèrement la tête, ce qui peut représenter un danger dans de nombreuses situations et peut ne pas être suffisant.
L'utilisation la plus courante de cette technologie de capteurs sur les côtés du véhicule est optimisée pour fonctionner à des vitesses normales sur l’autoroute. Ils fonctionnent avec les clignotants de la voiture pour générer des avertissements lorsque l'on essaie de changer de voie et qu'une autre voiture se trouve à côté ou derrière. Ces capteurs peuvent être des caméras, des ultrasons ou des radars, avec un système d'avertissement qui fonctionne par le biais d'un son, de feux clignotants, de vibrations ou d'une combinaison de ces types d'avertissement.
Avantages
- Ce système est pratique pour les changements de voie, où se produisent généralement la plupart des collisions entre voitures.
- Il optimise la capacité du conducteur à réagir aux événements imprévus générés par les véhicules qui le suivent ou à prendre des décisions en fonction de la situation.
Désavantages
- Cette technologie est affectée par la vitesse. Par exemple, les motos ou les véhicules très rapides sont plus difficiles à détecter par certains capteurs.
- L’étendue de surveillance du système varie selon la marque.
- Ces systèmes nécessitent une supervision et une action constantes de la part du conducteur.
Noms communs
- Blind Spot Warning (BSW)
- Active blind spot assist
- Active blind spot detection
- Advanced blind spot monitoring
- Blind spot assist
- Blind spot detection
- Blind spot information
- Blind Spot Information System
- Blind spot intervention
- Blind spot monitor
- Blind spot monitoring
- Blind spot monitoring system
- Blind spot warning
- Blind spot collision warning
- Blind spot detection
- Lane departure alert with side blind zone alert
- Lane Change Assist
- Lane Change Assist (Side Assist)
- OEM 1 Side Assist
- Intelligent blind spot detection
Publications les plus récentes sur PubMed
Résultats de recherche pour : blind spot information system, blind spot monitoring
- Estimated real-world safety benefits associated with blind spot monitoring systems in Australasian passenger vehicles
par Michael D Keall le 11 février 2026 à 11:00 amCONCLUSIONS: Despite the relatively low prevalence of lane change crashes generally, the estimated 15% reduction is significant. In the Australasian crash data analyzed, older drivers had an elevated rate of lane change crashes and may consequently gain greater benefit from blind spot monitoring systems.
- But doctor, will I be able to drive? Car mirror placement design and viewing angles required for safe binocular vision for driverspar Hanna Richkind le 3 novembre 2025 à 11:00 am
CONCLUSIONS: Patients with strabismus or postsurgical limitations may experience diplopia when using mirrors that require extreme gaze angles. Clinicians should incorporate driving-related visual demands into postoperative counselling. Encouraging rearward-lowered seating and recommending vehicles with narrower mirror angles may reduce symptoms. In some cases, adaptive devices (wide-angle mirrors, blind spot monitoring) may be necessary for safe and comfortable driving.
- Empirical Validation of a Multidirectional Ultrasonic Pedestrian Detection System for Heavy-Duty Vehicles Under Adverse Weather Conditionspar Hyeon-Suk Jeong le 13 septembre 2025 à 10:00 am
Pedestrian accidents involving heavy vehicles such as trucks and buses remain a critical safety issue, primarily due to structural blind spots. While existing systems like radar-based FCW and BSD have been adopted, they are not fully optimized for pedestrian detection, particularly under adverse weather conditions. This study focused on the empirical validation of a 360-degree pedestrian collision avoidance system using multichannel ultrasonic sensors specifically designed for heavy-duty...
- Assessing advanced driver assistance systems in police vehicles under demanding conditionspar Farzaneh Shahini le 18 septembre 2024 à 10:00 am
Advanced driver-assistance systems (ADAS) are technologies that can enhance drivers' safety by relieving them from some driving related activities. However, police driving conditions and demands are different from those of civilian drivers. The objective of this study was to assess the impact of ADAS such as forward collision warning (FCW), automatic emergency braking (AEB), and blind spot monitoring (BSM) on police officers' driving performance, workload, and trust in vehicle safety to provide...
- Naturalistic driving study on the impact of an aftermarket blind spot monitoring system on the driver's behaviour of heavy goods vehicles and buses on reducing conflicts with pedestrians and cyclistspar Ernst Tomasch le 3 août 2023 à 10:00 am
The risk being severely or fatally injured in crashes with heavy goods vehicle and buses is much higher compared to other vehicles. Especially vulnerable road users such as pedestrian and cyclists are at high risk. In the European Union 4600 pedestrian and more than 2000 cyclists were killed in 2019. 18% of the fatalities were counted in crashes with heavy goods vehicles or buses. Blind spot situations and driver inattention or distraction are causing and contributing crash factors. Driver...
- Teen driver crashes potentially preventable by crash avoidance features and teen-driver-specific safety technologiespar Alexandra S Mueller le 19 mai 2022 à 10:00 am
CONCLUSIONS: Crash avoidance features and teen-driver-specific vehicle technologies appear to address different risk factors and crash scenarios, which emphasizes the importance of utilizing both types of safety features to reduce the crash risk of teen drivers.
- Learning to drive: Parental attitudes toward introducing teen drivers to advanced driver assistance systemspar Rebecca A Weast le 7 décembre 2021 à 11:00 am
CONCLUSIONS: Specific concerns about the potential impact of ADAS on teen driving safety and skill acquisition do not prevent parents from using such systems, although the teaching strategies parents use vary according to their preferences for individual systems.
- Is a flick-through enough? A content analysis of Advanced Driver Assistance Systems (ADAS) user manualspar Oscar Oviedo-Trespalacios le 17 juin 2021 à 10:00 am
Advanced Driver Assistance Systems (ADAS) are being developed and installed in increasing numbers. Some of the most popular ADAS include blind spot monitoring and cruise control which are fitted in the majority of new vehicles sold in high-income countries. With more drivers having access to these technologies, it is imperative to develop policy and strategies to guarantee the safe uptake of ADAS. One key issue is that ADAS education has been primarily centred on the user manual which are not...