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A& r amplifier examples

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More particularly, this invention relates to apparatus for overcoming the acoustic deficiencies of a sound system as perceived by a listener which can result when speakers within the sound system are not ideally positioned. In a sound reproduction environment various factors may serve to degrade the quality of reproduced sound as perceived by a listener. Such factors distinguish the sound reproduction from that of an original sound stage.

One such factor is the location of speakers in a sound stage which, if inappropriately placed, may lead to a distorted sound-pressure response over the audible frequency spectrum.

The placement of speakers also affects the perceived width of a soundstage. For example, speakers act as point sources of sound limiting their ability to reproduce reverberant sounds that are easily perceived in a live sound stage.

In fact, the perceived sound stage width of many audio reproduction systems is limited to the distance separating a pair of speakers when placed in front of a listener. Another factor degrading the quality of reproduced sound may result from microphones which record sound differently from the way the human hearing system perceives sound. In an attempt to overcome the factors which degrade the quality of reproduced sound, countless efforts have been expended to alter the characteristics of a sound reproduction environment to mimic that heard by a listener in a live sound stage.

Some efforts at stereo image enhancement have focused on the acoustic abilities and limitations of the human ear. The human ear's auditory response is sensitive to sound intensity, phase differences between certain sounds, the frequency of the sound itself, and the direction from which sound emanates. Despite the complexity of the human auditory system, the frequency response of the human ear is relatively constant from person to person.

When sound waves having a constant sound pressure level across all frequencies are directed at a listener from a single location, the human ear will react differently to the individual frequency components of the sound. For example, when sound of equal sound pressure is directed towards a listener from in front of the listener, the pressure level created within the listener's ear by a sound of hertz will be different from that of hertz.

In addition to frequency sensitivity, the human auditory system reacts differently to sounds impinging upon the ear from various angles. Specifically, the sound pressure level within the human ear will vary with the direction of sound. The shape of the outer ear, or pinna, and the inner ear canal are largely responsible for the frequency contouring of sounds as a function of direction. The human auditory response is sensitive to both azimuth and elevation changes of a sound's origin.

This is particularly true for complex sound signals, i. The variance in sound pressure within the ear is interpreted by the brain to provide indications of a sound's origin.

When a recorded sound is reproduced, the directional cues to the sound's origin, as interpreted by the ear from sound pressure information, will thus be dependent upon the actual location of speakers that reproduce the sound. A constant sound pressure level, i.

Such a response is often desirable to achieve a realistic sound image. However, the quality of a set of speakers may be less than ideal, and they may not be placed in the most acoustically-desirable location. Both such factors often lead to disrupted sound pressure characteristics.

Sound systems of the prior art have disclosed methods to "correct" the sound pressure emanating from speakers to create a spatially correct response thereby improving the resulting sound image.

To achieve a more spatially correct response for a given sound system, it is known to select and apply head-related-transfer-functions HRTFs to an audio signal. HRTFs are based on the acoustics of the human hearing system. Application of an HRTF is used to adjust the amplitudes of portions of the audio signal to compensate for spatial distortion.

HRTF-based principles may also be used to relocate a stereo image from non-optimally placed loudspeakers. The efforts made in the prior art to correct acoustic deficiencies within an audio reproduction system have often focused on the deficiencies present in automobile sound systems.

One such attempt is disclosed in both U. Patent No. In the disclosures of Kunugi and Tokumo, a system for correcting sound absorption levels and for avoiding sound wave interference is described for use within a vehicle. The disclosed system includes a sound-pressure correcting circuit and a signal-delay circuit for achieving the desired frequency response. The sound-pressure correction is achieved by a high-frequency boost of the sound signal applied in three stages.

The first stage is a high-frequency correction for the average sound absorption factor of a vehicle, the second high-frequency correction stage is dependent upon the sound absorption factor of a specific vehicle, and the third high-frequency correction factor is dependent upon the number of passengers seated within the vehicle. The system in Satoh provides a correction parameter for sound signals directed to front left, front right, rear left and rear right speakers of a sound field, such as in an automobile.

Prestored acoustic characteristics relating to frequency and reflection are utilized to adapt the audio reproduction control device to a variety of sound environments.

Another system designed to modify a frequency response characteristic within an automobile is disclosed in U. The system of Knibbeler attempts to create a flat frequency response at two separate non-coincident listening positions, such as the front and rear positions in an automobile passenger compartment, by adjusting a pair of filter units. Each of the filter units receives an input signal and affects an output signal delivered to a corresponding sound transducer.

Still other patents disclose sound systems which alter an audio signal to equalize the frequency response. Such patents include U. EP-A describes a method and apparatus for dividing a single channel signal into two signals and then adjusting the differential phase and amplitude of the two signals on a frequency dependent basis. Thus, the frequency response of an amplifier connected to an of the filters can be shaped in a manner to compensate for the frequency response of speakers connected to the system.

Despite the contributions from the prior art, there exists a need for an image correction apparatus which can easily be adapted to a variety of sound reproduction environments which have distorted spatial characteristics. There is also a need for such an image correction system which operates in conjunction with an image enhancement apparatus to spatially enhance the corrected stereo image. The acoustic correction apparatus as disclosed herein, and the associated methods of operation, provide a sophisticated and effective system for improving a sound image in an imperfect reproduction environment.

The present invention is defined in the appendant claims. To achieve an improved stereo image, an image correction device divides an input signal into first and second frequency ranges which collectively contain substantially all of the audio frequency spectrum. The frequency response characteristics of the input signal within the first and second frequency ranges are separately corrected and combined to create an output signal having a relatively flat frequency-response characteristic with respect to a listener.

The level of frequency correction, i. The design of the acoustic correction apparatus allows for easy and independent correction of the input signal within individual frequency ranges to achieve a spatially-corrected and relocated sound image.

Within an audio reproduction environment, speakers may be placed at a location remote from a listener's ears thereby adversely affecting a sound image perceived by the listener. For example, within an automobile, speakers for producing low, mid, and high range audio signals may be positioned in door panels below the listener's ears. The acoustic correction apparatus of the present invention relocates the sound image to an apparent position near the listener's ear level.

In some audio reproduction environments, the high-frequency transducers, or tweeters, are placed at locations remote from mid-range or low-frequency transducers, i. In an automobile, mid-range speakers are often placed in door panels or similar locations located near the legs or feet of a listener.

Tweeters, however, may be positioned at height near or above the listener's ear level to avoid interference or absorption by surrounding objects. The small size of tweeters allows for such remote placement within a vehicle. When tweeters are placed near a listener's ear, the sound pressure level at the listener's ears among the high-frequency ranges may be greater than the corresponding low-frequency ranges.

Accordingly, the acoustic correction apparatus is designed so that correction of the higher frequency components may be either positive or negative.

That is, the higher frequency components may be either boosted or attenuated, relative to a lower frequency component, to compensate for remote placement of the tweeters. The exact source of origin perceived by a listener will depend on the level of spatial correction.

In the context of an automobile, the acoustic correction apparatus disclosed herein may be used, in connection with door-mounted speakers, to achieve a substantially flat frequency response at an occupant's ear.


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EP0756437B1 - Acoustic correction apparatus - Google Patents

a& r amplifier examples

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The authors aim to determine the differences between functional programming languages, to identify the capabilities of the most popular languages by comparing and analyzing them. To identify the main features, it is necessary to consider their data structures, as well as the application scope. The authors also aim to analyze and compare examples from various fields of language application using metrics of the program texts complexity. The five most popular specialized functional languages are selected: Erlang, Lisp, F , Scala and Haskel. An overview of the official documentation was conducted to obtain information on the capabilities of each language; their data structures and the application scope were studied. The experimental research base is formed from texts of the existing open source software systems and matched by similar applications and equal volume of text.

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Have you started using R and found obstacles to efficiently move from running analyses to reporting results? I know I have I started using R around 3 years ago. The first few months, I was frustrated often because I couldn't even read and manipulate data efficiently, when the REAL work was analyzing the data.




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