JPH0420111A - Fuzzy sound quality controller - Google Patents

Abstract

PURPOSE:To control sound quality by calculating a weight to a gain of each frequency band based on a membership function stored in a membership function storage device and a degree of sound quality inputted from a control input device so as to enter the degree of abstract expression. CONSTITUTION:The controller is provided with a sound quality control input device 1 entering the degree of sound quality in abstract expression and a membership function storage device 2 storing a membership function representing the gain distribution of the sound quality in abstract expression by the sound quality control input device 1. Then weighting calculation is implemented based on the membership function stored in the membership function storage device 2 and the degree of sound quality inputted by the sound quality control input device 1 and the gain of each frequency band is decided by a weight calculation device 3. Thus, the sound quality is controlled by inputting the degree of abstract expression.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of the Invention The present invention relates to a signal processing device for controlling the sound quality of an audio signal.

BACKGROUND OF THE INVENTION In recent years, development of audio equipment such as compact disc-7' layers, digital audio tape recorders, and control amplifiers has become active, and corresponding signal processing techniques have also made remarkable progress. Furthermore, there is a growing desire to develop not only audio equipment with excellent physical and electrical characteristics, but equipment that is more suited to human sensibilities.

An example of a conventional sound quality control device will be described below.

FIG. 3 is a block diagram showing the configuration of a conventional sound quality control device. In FIG. 3, 4 is a nine-element equalizer, 5 is an audio signal input terminal, 6 is an audio signal output terminal, and 7 is a gain control input device.

The operation of the sound quality control device configured as described above will be explained below.

The audio signal input from the audio signal input terminal 5 is input to the equalizer 4. In equalizer 4, 9
Gain control for amplification or attenuation is performed for each of the two different frequency bands, and the resulting signal is output to the audio signal output terminal 6. On the other hand, the gain control input device 7 allows the user to set the gain value of each of nine different frequency bands to be controlled by the equalizer 4, and the user adjusts the gain of each frequency band.

Problems to be Solved by the Invention However, with the above conventional configuration, sound quality can only be controlled by electrical characteristics such as frequency bands and their gains, and it is difficult for users who understand the relationship between electrical characteristics and sound quality to control the sound quality. The problem was that you couldn't use it without it.

The present invention is intended to solve the above-mentioned conventional problems, and it is an object of the present invention to provide a sound quality control device that allows control using abstract concepts held by humans as parameters.

Means for Solving the Problems To achieve this object, the fuzzy sound quality control device of the present invention includes a sound quality control input device for inputting the degree of sound quality expressed in abstraction, and a sound quality control input device for inputting the degree of sound quality expressed in abstraction by the sound quality control input device. A membership function storage device that stores membership functions indicating gain distribution in each frequency band, and weighting based on the membership functions stored in the membership function storage device and the degree of sound quality input from the control input device. The configuration includes a weighting calculation device that calculates and determines the gain of each frequency band.

Operation With the above-described configuration, the present invention expresses the relationship between abstract concepts felt by humans and electrical characteristics using membership functions in fuzzy theory, and weights each membership function for multiple abstract concepts. By performing calculations, it is possible to determine the gain of each frequency band, which is the electrical characteristic to be controlled. That is, the sound quality can be controlled by inputting the degree of abstract expression.

Example An embodiment of the present invention will be described with reference to the drawings.

FIG. 1 is a block diagram showing the configuration of a fuzzy sound quality control device in an embodiment of the present invention. In FIG. 1, 1 is a sound quality control input device, 11 is an input terminal for inputting the degree of "hard sound", 12 is an input terminal for inputting the degree of "clear sound", and 13 is the input terminal for inputting the degree of "heavy sound". Input terminal for input; 2 is membership function storage device; 3 is weighting calculation device; 4
is a 9-element equalizer, 5 is an audio signal input terminal,
6 is an audio signal output terminal.

The contents stored in the membership function storage device 2 are as follows:
Each of the three types of "hard sound", "clear sound", and "heavy sound" has gain distribution information for nine frequency bands, and there are 27 membership functions.

An example of this membership function is shown in FIG. Figure 2 represents a "hard sound." To create this membership function, we used the conventional sound quality control device shown in Figure 3, had multiple people adjust the gain of 9 frequency bands to produce a "hard sound," and adjusted the gain of 3 to 8 kHz frequency bands. This is a statistical processing of the distribution of gain with control over . Increase the number of operations performed by one person, increase the number of people performing operations, and collect data on a large number of gain distributions. Then, normalize so that the result of integration over the entire gain range becomes 1,
What determines the frequency is the membership function in the 3 to 6 kHz frequency band. Similarly, membership functions for all nine frequency bands are determined. Further, membership functions are obtained for "clear sound" and "heavy sound" and stored in the membership function storage device 2.

The operation of the fuzzy sound quality control device of this embodiment configured as described above will be explained below.

A user operates the sound quality control input device 1 to control the sound quality. An input terminal 11 for inputting the degree of "hard sound" inputs how hard the sound is in a range of 0 to 1 (0 indicates not hard at all, 1 indicates hard). Similarly, "clear sound"
The input terminal 12 for inputting the degree of "heavy sound" and the input terminal 13 for inputting the degree of "heavy sound" are each input in the range of 0 to 1.

The weighting calculation device 3 calculates frequencies and sound quality control input device 1 for each frequency band by the membership function storage device 2.
The gain is determined from the degree input from. “Hard sound” input terminal 1 of sound quality control input device 1 for each frequency band.
The degree entered from 1 is multiplied by the membership function corresponding to it. "Clear sound" and "heavy sound" are also calculated, and the membership function and multiplication are combined to find the average gain. This average gain is the gain to be controlled in each frequency band, and is output to the equalizer 4. The equalizer 4 divides the audio signal input from the audio signal input terminal 5 into nine frequency bands, amplifies or attenuates each frequency band by the gain obtained from the weighting calculation device 3, and synthesizes the signals. It is output to the audio signal output terminal 6.

As described above, according to this embodiment, the sound quality control input device 1.
By providing the membership function storage device 29 and the weighting calculation device 3, instead of controlling the sound quality by frequency band and electrical characteristics such as gain, it is possible to Sound quality can be controlled based on the level of abstraction.

In this example, "hard sound" and "clear sound" are used.

Although we controlled the sound quality of three types of ``heavy sounds,'' it is also possible to control similar sounds with sensory expressions such as ``crisp sounds'' and ``bumpy sounds.'' Furthermore, although a nine-element equalizer is used in this embodiment, an equalizer with more elements may be used.

Effects of the Invention As described above, the present invention provides a sound quality control input device for inputting the degree of sound quality expressed in an abstract manner, and a membership function that indicates the gain distribution in each frequency band of the sound quality abstractly represented by the sound quality control input device. a membership function storage device that stores , and weighting that determines the gain of each frequency band by calculating weights from the membership functions stored in the membership function storage device and the degree of sound quality input from the sound quality control input device. By providing a computing device, it is possible to control the sound quality by inputting the degree of abstraction, and it is possible to realize audio equipment that suits human sensibilities.

[Brief explanation of drawings]

FIG. 1 is a block diagram showing the configuration of a sound quality control device in an example of fuzzy sound quality according to an embodiment of the present invention. 1... Sound quality control input device, 2... Membership function storage device, 3... Weighting calculation device, 4
... Equalizer, 7... Gain control input device. Name of agent: Patent attorney Shigetaka Awano and others 18th! ? Figure t≦ Su12 p1 Fudong J

Claims (1)

[Claims] An equalizer that divides into a plurality of frequency bands and controls the gain of a signal within each frequency band; a sound quality control input device that inputs a degree of abstractly expressed sound quality; and an equalizer that controls the gain of a signal within each frequency band; A membership function storage device that stores a membership function indicating a gain distribution in each frequency band of the expressed sound quality, and a membership function stored in the membership function storage device and input from a control input device. It consists of a weighting calculation device that calculates weights based on the degree of sound quality obtained and determines the gain of each frequency band. A fuzzy sound quality control device, characterized in that the membership function is created through statistical processing.