A method of alerting a driver of a vehicle is provided. The method includes: receiving alert settings configured by a user through a user interface; and selectively generating an alert pattern for at least one of a haptic alert device, an auditory alert device, and a visual alert device based on the
A method of alerting a driver of a vehicle is provided. The method includes: receiving alert settings configured by a user through a user interface; and selectively generating an alert pattern for at least one of a haptic alert device, an auditory alert device, and a visual alert device based on the alert settings.
대표청구항▼
1. A method of alerting a driver of a vehicle, comprising: receiving alert settings indicating a value associated with at least one alert pattern which indicates an attribute of a signal to be generated, the alert settings configured by a user through a user interface; andselectively generating an a
1. A method of alerting a driver of a vehicle, comprising: receiving alert settings indicating a value associated with at least one alert pattern which indicates an attribute of a signal to be generated, the alert settings configured by a user through a user interface; andselectively generating an alert pattern for a haptic alert device, an auditory alert device, a visual alert device, and an infotainment system based on the alert settings,wherein the alert settings for the haptic alert device are based on at least one of a duration, a rate, and an intensity,wherein the alert settings for the auditory alert device are based on at least one of a duration, a rate, and a frequency,wherein the alert settings for the visual alert device are based on at least one of a duration, a location, and a frequency,wherein the alert settings from the infotainment system are based on an occurrence of at least one of muting, haptic feedback, pattern display, and a type of at least one of muting, haptic feedback, and pattern display. 2. The method of claim 1, wherein the receiving the alert settings is based on a user selecting at least one of an alert conditions type, a vehicle conditions type, a driving scenarios type, or a group of conditions type of an alert type selection menu of the user interface. 3. The method of claim 1, wherein the receiving the alert settings is based on a user selecting a particular alert condition of an alert condition selection menu of the user interface. 4. The method of claim 1, wherein the receiving the alert settings is based on a user selecting a particular group of conditions of a group of conditions selection menu of the user interface. 5. The method of claim 1, wherein the receiving the alert settings is based on a user selecting a particular driving scenario of a driving scenario selection menu of the user interface. 6. The method of claim 1, wherein the receiving the alert settings is based on a user selecting a vehicle condition of a vehicle conditions selection menu of the user interface. 7. The method of claim 1, wherein the receiving the alert settings is based on a user selecting a driver of a driver selection menu. 8. The method of claim 1, wherein the receiving the alert settings is based on a key fob, where each driver of the vehicle is associated with a different key fob. 9. The method of claim 1, wherein the receiving the alert settings is based on a user selecting an alert device from an alert device selection menu of the user interface. 10. A control system for alerting a driver of a vehicle, comprising: a first non-transitory module that receives, by a processor, alert settings indicating a value associated with at least one alert pattern which indicates an attribute of a signal to be generated, the alert settings configured by a user through a user interface; anda second non-transitory module that selectively generates, by a processor, an alert pattern for a haptic alert device, an auditory alert device, a visual alert device, and an infotainment system based on the alert settings,wherein the alert settings for the haptic alert device are based on at least one of a duration, a rate, and an intensity,wherein the alert settings for the auditory alert device are based on at least one of a duration, a rate, and a frequency,wherein the alert settings for the visual alert device are based on at least one of a duration, a location, and a frequency,wherein the alert settings from the infotainment system are based on an occurrence of at least one of muting, haptic feedback, pattern display, and a type of at least one of muting, haptic feedback, and pattern display. 11. The control system of claim 10, wherein the first non-transitory module receives the alert settings based on a user selecting at least one of an alert conditions type, a vehicle conditions type, a driving scenarios type, or a group of conditions type of an alert type selection menu of the user interface. 12. The control system of claim 10, wherein the first non-transitory module receives the alert settings based on a user selecting a particular alert condition of an alert condition selection menu of the user interface. 13. The control system of claim 10, wherein the first non-transitory module receives the alert settings based on a user selecting a particular group of conditions of a group of conditions selection menu of the user interface. 14. The control system of claim 10, wherein the first non-transitory module receives the alert settings based on a user selecting a particular driving scenario of a driving scenario selection menu of the user interface. 15. The control system of claim 10, wherein the first non-transitory module receives the alert settings based on a user selecting a vehicle condition of a vehicle conditions selection menu of the user interface. 16. The control system of claim 10, wherein the first non-transitory module receives the alert settings based on a user selecting a driver of a driver selection menu. 17. The control system of claim 10, wherein the first non-transitory module receives the alert settings based on a user selecting an alert device from an alert device selection menu of the user interface. 18. A vehicle, comprising: at least one collision avoidance system that generates conditions data; anda control module that receives that the conditions data, that receives alert settings indicating a value associated with at least one alert pattern which indicates an attribute of a signal to be generated, the alert settings configured by a user through a user interface, and that generates an alert pattern for at least one of a haptic alert device, an auditory alert device, a visual alert device, and an infotainment system based on the alert settings,wherein the alert settings for the haptic alert device are based on at least one of a duration, a rate, and an intensity,wherein the alert settings for the auditory alert device are based on at least one of a duration, a rate, and a frequency,wherein the alert settings for the visual alert device are based on at least one of a duration, a location, and a frequency,wherein the alert settings from the infotainment system are based on an occurrence of at least one of muting, haptic feedback, pattern display, and a type of at least one of muting, haptic feedback, and pattern display.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (20)
Franke Uwe,DEX ; Hahn Stefan,DEX, Apparatus for determining the distance of a vehicle from a roadway side marking.
Menig Paul M. ; Bishel Richard A. ; Renner Goetz,DEX ; Ghitea ; Jr. Nicolae ; Kirn Chris ; Powell Jared A. ; Brandt Peter Charles, Integrated message display system for a vehicle.
Murphy, Mark J.; Gillespie, Alan; English, Eoin Edward; Geraghty, Donal; Dempsey, Dennis A., Reactive networks to reduce acoustic noise and ensure maximum efficiencies in driving piezoelectric elements in haptic applications.
Sleichter, III, Charles G.; Cutler, Stanley; Gerth, Gayle B.; Otis, Jr., Alton B.; Chau, Taylor, Vibro-tactile alert and massaging system having directionally oriented stimuli.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.