Branding of electrically propelled vehicles via the generation of specific operating output
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B60L-009/00
B60T-007/16
H02P-001/00
출원번호
US-0679292
(2012-11-16)
등록번호
US-8862299
(2014-10-14)
발명자
/ 주소
Ricci, Christopher P.
출원인 / 주소
Flextronics AP, LLC
대리인 / 주소
Sheridan Ross P.C.
인용정보
피인용 횟수 :
33인용 특허 :
23
초록
The present disclosure is related to a perceptible output control system for a vehicle that can perform a number of different operations that are particularly useful for electric vehicles.
대표청구항▼
1. A method, comprising: determining, by a microprocessor executable output control system, a stimulus for generating a perceptible output for at least one of an occupant and non-occupant of a vehicle; andproviding, by an output source and at least one of interiorly and exteriorly to the vehicle, th
1. A method, comprising: determining, by a microprocessor executable output control system, a stimulus for generating a perceptible output for at least one of an occupant and non-occupant of a vehicle; andproviding, by an output source and at least one of interiorly and exteriorly to the vehicle, the perceptible output, wherein at least one of the following is true of the perceptible output:(i) the perceptible output comprises both audio and visual components and is provided exteriorly to the vehicle in response to identification, by the microprocessor, of an object in a potential path of the vehicle when the vehicle is in motion;(ii) the perceptible output comprises both audio and visual components and is associated with one or more of a particular brand, make, model, and type of the vehicle, with differing brands, makes, models, and types of vehicles having differing perceptible outputs, the perceptible output provided by the output source being selected, by the microprocessor executable output control system, from among a plurality of possible perceptible outputs based on an identifier indicative of one or more of a particular brand, make, model, and type of the vehicle;(iii) the perceptible output comprises both audio and visual components and simulates noise of a vehicle operation and is a function of a set of vehicle occupant preferences, with differing possible occupants of the vehicle having differing corresponding perceptible outputs, the perceptible output provided by the output source being selected, by the microprocessor executable output control system, from among the differing corresponding perceptible outputs based on occupant input and/or an identifier of an occupant currently in the vehicle;(iv) the perceptible output is provided exteriorly to the vehicle and is a function of a determined geographic location of the vehicle, with differing vehicle locations having differing corresponding perceptible outputs; and(v) the perceptible output is a function of a sensed roadside electronic device, with differing roadside electronic devices being associated with differing corresponding perceptible outputs. 2. The method of claim 1, wherein the perceptible output comprises both audio and visual components and is provided to a non-occupant exterior to the vehicle, the perceptible output is in response to detection, by an imaging sensor, of an object in a probable path of the vehicle when the vehicle is in motion. 3. The method of claim 2, wherein output of the imaging sensor is used to determine a distance, trajectory and/or speed of the object. 4. The method of claim 1, wherein the perceptible output comprises both audio and visual components and is provided to a non-occupant exterior to the vehicle, the perceptible output is in response to sensed information received from one or more of the following sensors: a wheel state sensor that senses one or more of vehicle speed, acceleration, deceleration, wheel rotation, wheel speed, and wheel slip, a power source energy output sensor that senses a power output of a vehicle power source by measuring one or more of current engine speed, and energy input and/or output, a switch state sensor that determines a current activation or deactivation state of a power source activation/deactivation switch, a transmission setting sensor that determines a current setting of a vehicle transmission, a gear controller sensor that determines a current setting of a vehicle gear controller, a power controller sensor that determines a current setting of a vehicle power controller, a brake sensor that determines a current state of a vehicle braking system, a seating system sensor that determines a seat setting and current weight of a seated vehicle occupant in a seat of the vehicle, exterior and/or interior sound receivers that receive and convert sound waves into an equivalent analog or digital signal, safety system state sensors that determine a current state of a vehicular safety system and/or seat belt setting, a brake control setting sensor, an accelerator pedal setting sensor, a clutch pedal setting sensor, an emergency brake pedal setting sensor, a door setting sensor, and a window setting sensor. 5. The method of claim 1, wherein the perceptible output is associated with one or more of a particular brand, make, model, and type of the vehicle, with differing brands, makes, models, and types of vehicles having differing perceptible outputs, the perceptible output corresponds to an output profile, wherein the corresponding output profile is selected by the control system from among a plurality of output profiles based on the identifier indicative of the particular brand, make, model, and type of the vehicle, and wherein the plurality of output profiles and identifier are stored in memory on board the vehicle. 6. The method of claim 1, wherein the perceptible output is associated with one or more of a particular brand, make, model, and type of the vehicle, with differing brands, makes, models, and types of vehicles having differing perceptible outputs, the perceptible output simulates noise emissions of an internal combustion engine, wherein the perceptible output is emitted exteriorly and/or interiorly to the vehicle, wherein an output profile corresponding to the output defines the perceptible output by values corresponding to one or more of pitch, frequency, wavelength, wavenumber, amplitude, sound intensity, sound pressure, sound quality, direction of sound propagation, and loudness and defines temporal changes in the one or more of pitch, frequency, wavelength, wavenumber, amplitude, sound intensity, sound pressure, sound quality, direction of sound propagation, and loudness, and wherein the vehicle is an electric vehicle. 7. The method of claim 1, wherein the perceptible output simulates noise of a vehicle operation and is a function of a set of preferences of the occupant of the vehicle occupant, with differing possible occupants having differing corresponding perceptible outputs, the perceptible output corresponds to an output profile, wherein the corresponding output profile is selected by the control system from among a plurality of output profiles based on input from or relating to an occupant of the vehicle, and wherein the plurality of output profiles are stored in memory on board the vehicle. 8. The method of claim 7, wherein the perceptible output is simulated noise emissions of an internal combustion engine, wherein the perceptible output is emitted exteriorly and/or interiorly to the vehicle, and wherein an output profile corresponding to the output defines the perceptible output by values corresponding to one or more of pitch, frequency, wavelength, wavenumber, amplitude, sound intensity, sound pressure, sound quality, direction of sound propagation, and loudness and defines temporal changes in the one or more of pitch, frequency, wavelength, wavenumber, amplitude, sound intensity, sound pressure, sound quality, direction of sound propagation, and loudness. 9. The method of claim 8, wherein the perceptible output is for a brand, make, model, and type of vehicle different from the corresponding one of brand, make, model, and type of the vehicle. 10. The method of claim 7, wherein the vehicle operation is not occupant entertainment and the perceptible output is neither music nor video and wherein the identity of the occupant is determined automatically and appropriate output profile selected. 11. The method of claim 1, wherein the perceptible output is a function of a determined geographic location of the vehicle, with differing vehicle locations having differing corresponding perceptible outputs, the perceptible output is a function of received satellite positioning signals indicating a current location of the vehicle as a function of time and further comprising using the current location of the vehicle to determine a feature in proximity to the vehicle. 12. The method of claim 1, wherein the perceptible output is a function of a sensed roadside electronic device, with differing roadside electronic devices having differing corresponding perceptible outputs, the roadside electronic device indicates a possible presence of an animal, a pedestrian, a school, and a bicyclist. 13. The method of claim 1, wherein the perceptible output is emitted one or interiorly and exteriorly to the vehicle and further comprising: emitting the other of interiorly and exteriorly to the vehicle a noise-cancellation output, the noise-cancellation output having substantially the same amplitude but with an inverted phase to a selected component of the perceptible output, whereby the selected component is substantially cancelled by interference. 14. A tangible and non-transitory computer readable medium comprising microprocessor executable instructions to perform the steps of claim 1. 15. A method, comprising: determining, by a control system, a set of characteristics and/or parameters describing a selected sound component generated interiorly to a vehicle and emitted exteriorly to the vehicle;determining, by the control system, a noise-cancellation output to emit exteriorly of the vehicle to cancel by interference the selected sound component; andemitting, by a sound generation system, the noise-cancellation output exteriorly to the vehicle. 16. The method of claim 15, wherein the noise-cancellation output has substantially the same amplitude but with an inverted phase to the selected sound component, whereby the selected sound component is substantially cancelled by interference. 17. A tangible and non-transitory computer readable medium comprising microprocessor executable instructions to perform the steps of claim 15. 18. A vehicle control system operable to perform the steps of claim 15. 19. A control system for a vehicle, comprising: a microprocessor;a microprocessor executable data collector to collect sensed information for generating a perceptible output for at least one of an occupant and non-occupant of a vehicle; anda microprocessor executable output controller to provide, by an output source and at least one of interiorly and exteriorly to the vehicle, the perceptible output, wherein at least one of the following is true of the perceptible output:(i) the perceptible output comprises both audio and visual components and is provided exteriorly to the vehicle in response to identification by the microprocessor of an object in a path of the vehicle when the vehicle is in motion;(ii) the perceptible output comprises both audio and visual components and is associated with one or more of a particular brand, make, model, and type of the vehicle, with differing brands, makes, models, and types of vehicles having differing perceptible outputs, the perceptible output provided by the output source being selected, by the microprocessor executable output controller, from among a plurality of possible perceptible outputs based on an identifier indicative of one or more of a particular brand, make, model, and type of the vehicle;(iii) the perceptible output comprises both audio and visual components and simulates noise of a vehicle operation and is a function of a set of vehicle occupant preferences, with differing possible occupants of the vehicle having differing corresponding perceptible outputs, the perceptible output provided by the output source being selected, by the microprocessor executable output controller, from among the differing corresponding perceptible outputs based on occupant input and/or an identifier of an occupant currently in the vehicle;(iv) the perceptible output is provided exteriorly to the vehicle and is a function of a determined geographic location of the vehicle, with differing vehicle locations being associated with differing corresponding perceptible outputs; and(v) the perceptible output is a function of a sensed roadside electronic device, with differing roadside electronic devices having differing corresponding perceptible outputs. 20. The vehicle of claim 19, wherein the perceptible output comprises both audio and visual components and is provided to a non-occupant exterior to the vehicle, the perceptible output is in response to detection, by an imaging sensor, of an object in a probable path of the vehicle when the vehicle is in motion. 21. The vehicle of claim 20, wherein output of the imaging sensor is used to determine a distance, trajectory and/or speed of the object. 22. The vehicle of claim 19, wherein the perceptible output comprises both audio and visual components and is provided to a non-occupant exterior to the vehicle, the perceptible output is in response to sensed information received from one or more of the following sensors: a wheel state sensor that senses one or more of vehicle speed, acceleration, deceleration, wheel rotation, wheel speed, and wheel slip, a power source energy output sensor that senses a power output of a vehicle power source by measuring one or more of current engine speed, and energy input and/or output, a switch state sensor that determines a current activation or deactivation state of a power source activation/deactivation switch, a transmission setting sensor that determines a current setting of a vehicle transmission, a gear controller sensor that determines a current setting of a vehicle gear controller, a power controller sensor that determines a current setting of a vehicle power controller, a brake sensor that determines a current state of a vehicle braking system, a seating system sensor that determines a seat setting and current weight of a seated vehicle occupant in a seat of the vehicle, exterior and/or interior sound receivers that receive and convert sound waves into an equivalent analog or digital signal, safety system state sensors that determine a current state of a vehicular safety system and/or seat belt setting, a brake control setting sensor, an accelerator pedal setting sensor, a clutch pedal setting sensor, an emergency brake pedal setting sensor, a door setting sensor, and a window setting sensor. 23. The vehicle of claim 19, wherein the perceptible output is associated with one or more of a particular brand, make, model, and type of the vehicle, with differing brands, makes, models, and types of vehicles having differing perceptible outputs, the perceptible output corresponds to an output profile, wherein the corresponding output profile is selected by a microprocessor executable output profile selector from among a plurality of output profiles based on the identifier indicative of the particular brand, make, model, and type of the vehicle, and wherein the plurality of output profiles and identifier are stored in memory on board the vehicle. 24. The vehicle of claim 19, wherein the perceptible output is associated with one or more of a particular brand, make, model, and type of the vehicle, with differing brands, makes, models, and types of vehicles having differing perceptible outputs, the perceptible output simulates noise emissions of an internal combustion engine, wherein the perceptible output is emitted exteriorly and/or interiorly to the vehicle, wherein an output profile corresponding to the output defines the perceptible output by values corresponding to one or more of pitch, frequency, wavelength, wavenumber, amplitude, sound intensity, sound pressure, sound quality, direction of sound propagation, and loudness and defines temporal changes in the one or more of pitch, frequency, wavelength, wavenumber, amplitude, sound intensity, sound pressure, sound quality, direction of sound propagation, and loudness, and wherein the vehicle is an electric vehicle. 25. The vehicle of claim 19, wherein the perceptible output simulates noise of a vehicle operation and is a function of a set of preferences of the occupant of the vehicle occupant, with differing occupants having differing corresponding perceptible outputs, the perceptible output corresponds to an output profile, wherein the corresponding output profile is selected by a microprocessor executable output profile selector from among a plurality of output profiles based on input from or relating to an occupant of the vehicle, and wherein the plurality of output profiles are stored in memory on board the vehicle. 26. The vehicle of claim 25, wherein the perceptible output is simulated noise emissions of an internal combustion engine, wherein the perceptible output is emitted exteriorly and/or interiorly to the vehicle, and wherein an output profile corresponding to the output defines the perceptible output by values corresponding to one or more of pitch, frequency, wavelength, wavenumber, amplitude, sound intensity, sound pressure, sound quality, direction of sound propagation, and loudness and defines temporal changes in the one or more of pitch, frequency, wavelength, wavenumber, amplitude, sound intensity, sound pressure, sound quality, direction of sound propagation, and loudness. 27. The vehicle of claim 26, wherein the perceptible output is for a brand, make, model, and type of vehicle different from the corresponding one of brand, make, model, and type of the vehicle. 28. The vehicle of claim 25, wherein the vehicle operation is not occupant entertainment and the perceptible output is neither music nor video and wherein the identity of the occupant is determined automatically and appropriate output profile selected. 29. The vehicle of claim 26, wherein the perceptible output is a function of a determined geographic location of the vehicle, with differing vehicle locations having differing corresponding perceptible outputs, the perceptible output is a function of received satellite positioning signals indicating a current location of the vehicle as a function of time and further comprising using the current location of the vehicle to determine a feature in proximity to the vehicle. 30. The vehicle of claim 19, wherein the perceptible output is a function of a sensed roadside electronic device, with differing roadside electronic devices having differing corresponding perceptible outputs, the roadside electronic device indicates a possible presence of an animal, a pedestrian, a school, and a bicyclist. 31. The vehicle of claim 19, wherein the perceptible output is emitted one or interiorly and exteriorly to the vehicle and further comprising: emitting the other of interiorly and exteriorly to the vehicle a noise-cancellation output, the noise-cancellation output having substantially the same amplitude but with an inverted phase to a selected component of the perceptible output, whereby the selected component is substantially cancelled by interference.
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이 특허에 인용된 특허 (23)
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