This application is a national stage filing based upon International PCT Application No. PCT/AT2018/060141, filed 10 Jul. 2018, which claims priority to Austria application No. A 50569/2017, filed 10 Jul. 2017.
The present invention relates to a process for modifying an audio signal that comprises the following steps:
The invention also relates to a device for modifying an audio signal comprising at least one fractionizing unit for fractionizing an incoming audio signal into different frequency bands, a plurality of compression units for compressing at least a part of the frequency bands as a function of a determined compression parameter and a control unit for determining the values of the compression parameter by means of a specific I/O function for each frequency band and using a single control parameter as input value.
In many fields of the economy and industry, audio signals have to be modified in order to fit specific applications. Especially hearing aid devices amplify and alter audio signals in order to improve perception by hearing-impaired individuals and increase their understanding of spoken words. Most modern instruments use multichannel compression with at least one compression parameter per channel, e.g. compression ratio, time constants (or variables), gain, etc. Even if only a few channels with different frequency bands are used, a large amount of adjustable parameters can be defined. Many users of such hearing devices are unable to understand all technical details of all adjustments available and are overwhelmed by the task of adjusting it fast in a good manner. Even experts in the field of audio signal modification often have difficulties finding the right adjustment due to the large amount of possible parameters to be modified.
Therefore it is an object of the invention to simplify the process of adjusting the modification of the audio signal.
According to the invention, this objective is achieved by the process according to claim 1 or by the device according to claim 6.
By using a single control parameter for all frequency bands, the adjustment of this control parameter can alter all values of the compression parameter of the bands. This means that the compression of different frequency bands can be altered in a different way by only changing one control parameter. This simplifies the modification of the audio signal significantly and can also be done by a layman without any knowledge of signal modification. The exact extent of this adjustment is determined by I/O functions (Input-Output functions) of the frequency bands. Each I/O function can have a different form and determines the manner of compression made for a specific frequency band.
The value of the control parameter can be adjusted in steps or continuously, depending on the embodiment. It can be easier for the user if an embodiment is provided that offers for example only 10 different values for the control parameter to simplify the adjustment.
The compression parameter selected can be any parameter that alters the manner of compression or that relates to compression, like for example the amplitude range that is compressed. Normally, the compression takes place in a certain amplitude range, while outside of this amplitude range a different modification is made. For example, louder sounds with higher amplitudes may be amplified linearly or very high amplitudes may even be reduced, and lower sounds may be damped in order to inhibit amplifying of unwanted signals. But also, the audio signal can be compressed within two or more different amplitude ranges, and the compression characteristics can differ in between these ranges.
In a preferred embodiment, a characteristic gain of the compression is chosen as the compression parameter. This characteristic gain can be the gain that is set in the range of compression if it is a linear gain, or it can, for example be the mean gain of the amplitude range in which the compression is performed. Another characteristic gain can be the gain at an amplitude where the gain changes from one linear phase to another linear phase. In this case, it can be advantageous if not the absolute gain is used but the change of gain is used as compression parameter. It can also be advantageous to use the gain at the amplitude where the compression stops or begins.
In an alternative embodiment, the compression parameter is a characteristic amplitude in which the gain changes. This could be an amplitude where the compression stops and an amplitude range with linear gain or no gain begins, or the amplitude where the gain of the compression changes could also be a good choice of compression parameter, as these amplitudes mark a significant change in the way the signal is amplified. But it shall be noted that apart from certain amplitudes or gains many other compression parameters can be chosen, for example the curvature of the compression curve or the magnitude of a jump in the curve.
In a further embodiment of the invention, for every value of the control parameter the value of the compression parameter of a frequency band is higher than or the same as the values of the compression parameter of all frequency bands covering lower frequencies. As hearing loss normally starts with having problems noticing high frequencies before experiencing problems with lower frequencies, this is preferred, as the values of the compression parameter of the frequency bands change in an ascending manner depending on the frequencies covered by the frequency band. It can be especially beneficial if at lower values of the control parameter the values of the compression parameter of some lower frequencies are set to a minimum while only the values of the compression parameter of some frequency bands covering higher frequencies are altered by changing between these low values of the control parameter. Also, or in addition to this it can be beneficial to set the values of the compression parameter of frequency bands covering high frequencies to a maximum when high values of the control parameter are set and only the values of the compression parameter of some frequency bands covering lower frequencies are altered by changing between these high values of the control parameter. This can be determined by adjusting the I/O functions of the frequency bands.
If two possible compression parameters should be modified in a simple way it can be advantageous if the values of two compression parameters are obtained by using two control parameters. In that case the audio signal can be modified by changing two different compression parameters to different extents depending on the frequency bands, but the modification can still be made quickly without difficulty or professional knowledge. Of course, the values of three or more compression parameters can be obtained by using three or more control parameters, although an increasing number of control parameters means an increasing number of possibilities at modifying the audio signal. Therefore the number should be chosen depending on the knowledge of the user and the circumstances the process is used in.
The objective can also be solved by a device previously described in which the control unit controls all compression units. The control unit can receive the single control parameter from a switch with various settings. There can be a specified number of settings or an infinite number. Depending on the setting, the control parameter can be chosen by a user. This one control parameter then sets the values of the compression parameter of all compression units by their specific I/O functions and transmits them to the respective compression units. Therefore the user can modify the audio signal significantly and to different extents within different frequency bands by setting just one switch.
Number | Date | Country | Kind |
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A 50569/2017 | Jul 2017 | AT | national |
Filing Document | Filing Date | Country | Kind |
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PCT/AT2018/060141 | 7/10/2018 | WO |
Publishing Document | Publishing Date | Country | Kind |
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WO2019/010511 | 1/17/2019 | WO | A |
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Number | Date | Country | |
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20200227056 A1 | Jul 2020 | US |