Patent Application
20160352297
The present invention is directed to an audio volume control system and in particular to an audio volume control system for automatically adjusting audio volume during occupant communication within an interior space.
The use of an audio system that includes a radio, CD player, and the like during operation of a motor vehicle is known. In addition, it is known that when an individual within the interior of a motor vehicle desires to speak to another individual within the vehicle or talk on a cell phone while the audio system is in operation, the volume of the audio system can need to be reduced or “turned down.” Heretofore known systems require that an individual manually reduce such a volume, which can in turn require the individual to use one of their hands to physically do so. As such, a system and process that affords for a volume of an audio system that is transmitting sound within an interior space to be automatically reduced when an individual within the interior space communicates or speaks would be desirable.
An audio volume control system is provided. The system includes an interior space within a physical boundary and an audio system with an acoustic speaker. The audio system with the acoustic speaker is operable to transmit sound in the form of music, news, talk radio, etc., into the interior space. A microphone is also included and is operable to detect sound waves in the interior space and transmit sound wave signals corresponding to the detected sound waves. An electronic control unit (ECU) is part of the audio volume control system and is in communication with the audio system and the microphone. The ECU is configured to instruct the audio system to reduce a volume of sound being transmitted into the interior space when an individual is detected speaking within the interior space.
In some instances, a voice recognition system (VRS) is included and is operable to recognize a voice of the individual and transmit a voice-recognized signal to the ECU when the voice of the individual is recognized. The ECU can then instruct the audio system to reduce the volume of sound being transmitted into the interior space when the voice-recognized signal is received from the VRS.
An occupant detection system (ODS) can optionally be included and be operable to detect when an occupant is in the interior space and transmit an occupant-detected signal to the ECU when the occupant is detected. In such instances, the ECU can be configured to instruct the audio system to reduce the volume of sound being transmitted into the interior space when the voice-recognized signal is received from the VRS and the occupant-detected signal is received from the ODS. The ODS can be selected from at least one of a camera ODS, an ultrasound ODS, and a weight sensor ODS.
In other instances, the ECU is configured to receive acoustic signals directly from the audio system, the acoustic signals corresponding to the sound transmitted into the interior space. The ECU is also configured to subtract the received acoustic signals from sound wave signals received from the microphone. In such instances, the ECU is configured to instruct the audio system to reduce the volume of sound being transmitted into the interior space after the acoustic signals received directly from the audio system are subtracted from the sound wave signals received from the microphone and the individual is detected to be speaking within the interior space. Such a system can also include the ODS which is operable to detect when an occupant is in the interior space and transmit an occupant-detected signal to the ECU. Also, the ECU can be configured to instruct the audio system to reduce the volume of sound being transmitted into the interior space after the acoustic signals received directly from the audio system are subtracted from the sound wave signals received from the microphone and the occupant-detected signal is received from the ODS.
A process for reducing the volume of an audio system when an individual is speaking includes providing an audio volume control system and the system detecting the individual is speaking within an interior space. Thereafter, the ECU instructs the audio system to reduce a volume of sound being transmitted into the interior space.
An audio volume control system for an audio system that produces and transmits sound an interior space is provided. The system automatically reduces a volume of the sound transmitted into the interior space when an individual within the space is speaking. As such, the audio volume control system has utility for automatically reducing the volume of a radio, CD player, etc. that is playing within a motor vehicle when an individual traveling in the vehicle desires to speak to another individual within the vehicle or speak to someone else using a cell phone.
The audio volume control system includes an interior space within a physical boundary and an audio system with at least one acoustic speaker. The audio system can be any audio system known to those skilled in the art and can include a radio, a CD player, a tape player, an amplifier, and the like. The at least one acoustic speaker is operable to transmit sound into the interior space as is known to those skilled in the art.
A microphone is also included in the audio volume control system and is operable to detect sound waves in the interior space and transmit sound wave signals corresponding to the detected sound waves to an electronic device. It is appreciated that the sound waves can be the result of the sound transmitted by the at least one acoustic speaker and one or more individuals speaking within the interior space.
The audio volume control system also includes an electronic control unit (ECU) in communication with the audio system and the microphone. The ECU can be in direct electrical communication with the audio system and the microphone, and/or in wireless communication therewith. The ECU is configured to instruct the audio system to reduce a volume of sound being transmitted into the interior space when an individual located within the interior space is speaking. In some instances, the ECU can be configured to instruct the audio system to increase the volume of the sound after it is determined that the individual is no longer speaking within the interior space. In this manner, an individual within the interior space can be listening to the audio system and upon starting to speak to another individual in the interior space or beginning to speak on a cell phone, the volume of the audio system is automatically reduced. It is appreciated that the volume of the sound is reduced to such an extent that the individual can speak in a normal tone of voice, i.e. does not have to yell or raise their voice, and thus be able to carry on a normal conversation with another individual within the interior space or via a cell phone. It is also appreciated that when the individual is speaking, he/she is not giving a command to a voice recognition system to reduce the volume of the audio system, i.e. the individual is simply initiating a conversion with another person.
The audio volume control system can include a voice recognition system (VRS) that can recognize a voice of one or more individuals within the interior space and transmit a voice-recognized signal to the ECU. It is appreciated that the VRS can be “trained” to recognize a particular voice, e.g. an operator of a motor vehicle, such that when the individual speaks during the transmission of sound from the audio system, the VRS can distinguish between the voice of the individual and the audio system sound. In this manner, the audio volume control system can determine or distinguish between sound from the audio system and sound from the individual speaking within the interior space.
The audio volume control system can optionally include an occupant detection system (ODS) that is operable to detect when an occupant, i.e. an individual, is in the interior space and transmit an occupant-detected signal to the ECU. In this manner, the audio volume control system can detect when one or more individuals are located within the interior space and thus assist in determining whether or not sound waves detected by the microphone have originated or are caused by an individual that is speaking.
When an ODS is part of the audio volume control system, the ECU can be configured to instruct the audio system to reduce the volume of the sound being transmitted by the audio system into the interior space when both the voice-recognized signal and the occupant-detected signal are received from the VRS and ODS, respectively. The ODS can be any ODS known to those skilled in the art, illustratively including a video camera-based ODS, an ultrasound-based ODS, and/or a weight sensor-based ODS.
The ECU can be configured to receive acoustic signals directly from the audio system with the acoustic signals corresponding to the sound transmitted into the interior space. Stated differently, the audio system can provide a direct feed of acoustic signals that generate sound via the at least one acoustic speaker to the ECU. The ECU can also be configured to subtract the received acoustic signals from the sound wave signals received from the microphone. As such, the ECU can detect if an individual is speaking within the interior space since sound waves originating from the audio system can be removed or subtracted from the sound wave signals transmitted by the microphone. In this manner when an individual is not speaking within the interior space, the resultant signal processed by the ECU corresponds to a relatively quiet interior space. In the alternative, when an individual is speaking in the interior space, the signal processed by the ECU corresponds to the sound of an individual speaking within the interior space.
The audio volume control system can be used in a process for automatically reducing the volume of the audio system when an individual within the interior space is speaking. The audio volume control system detects when a person is speaking within the interior space and the ECU instructs the audio system to reduce a volume of sound being transmitted therein.
Referring now to
The system 10 includes an audio system 110 with at least one acoustic speaker 120. As shown in the figure, a plurality of acoustic speakers can be present and located at various locations such that sound in the form of music, news talk radio, etc., is transmitted into the interior space 100. At least one microphone 130 can be included and is operable to detect sound waves in the interior space 100 and also operable to transmit sound wave signals corresponding to the detected sound waves to an electronic device.
The audio system 110 and the microphone 130 are in communication with an ECU 140 and can transmit acoustic signals and sound wave signals, respectively, to the ECU 140. The ECU 140 is configured to instruct the audio system 110 to reduce a volume of sound being transmitted into the interior space 100 when an individual or occupant ‘O’ is detected to be speaking within the interior space 100. More than one occupant O can be located within the interior space 100 and be located at specific locations 150. For example and for illustrative purposes, the locations 150 can be seats within a vehicle interior. As such, the occupants O within the interior space 100 can be seated on the seats 150. In addition, it is appreciated that any one of the occupants O can attempt to communicate or speak with a different occupant O while the audio system 110 is playing music, news, talk radio, etc. in the interior space 100. As such, the audio volume control system 10 affords for the volume of the audio system 110 to be automatically reduced when one of the occupants O begins to speak.
The audio volume control system 10 can include an occupant detection system 132 which is operable to detect if an occupant O is present within the interior space 100 and transmit an occupant-detected signal to the ECU 140. The occupant detection system (ODS) 132 can also detect where the one or more occupants O are located within the interior space 100. As such, the audio volume control system 10 is optionally be energized only when an occupant O is detected within the interior space 100. For example and illustrative purposes, the ODS 132 can be a camera- or video-based ODS that can recognize from a digital image when an occupant ‘O’ is within the interior space 100. In the alternative or in addition to, the ODS 132 can be an ultrasound-based ODS that can determine if one or more occupants are within the interior space 100 via transmitted and received ultrasonic waves. The ODS 132 can also be a weight-sensor based ODS in which the weight of an occupant on a seat, standing pad, etc., can be detected and thus determine if one or more occupants are within the interior space 100.
An illustrative embodiment of a control panel 111 for the audio system 110 is shown in
The ECU 140 is illustratively shown in
Turning now to
Another process according to one aspect disclosed herein is shown generally at reference numeral 40 in
Another process according to one aspect disclosed herein is shown in
It is appreciated that a volume control manual override in the volume control audio system can be included such that an individual can talk or speak while the audio system continues to operate at a preset volume level. For example and for illustrative purposes, an occupant of a vehicle may want to “sing along” with music playing from the audio system and thus not desire that the volume of the audio system be reduced. Such a process is illustratively shown in
The above examples, embodiments, etc. are provided for illustrative purposes and are not meant to limit the scope of the instant invention. Changes, modifications, etc. made by those skilled in the art can still fall within the scope of the instant disclosure and thus the scope of the invention is provided by the claims and all equivalents thereof.
