SK2572000A3 - Method and device for imitation of music, especially symphonic orchestra - Google Patents

Abstract

The mode is based on using musical patterns of a band, which are pre-recorded during an independent recording session, stored in musical patterns modules and controlled via MIDI transducer by a computer control unit. Equipement consists of a MIDI transducer (1), connected to a computer control unit (1) and musical patterns storing modules (3.3) with each of the outputs connected to a respective electroacoustical transducer (4), featured by a defined spatial setup provided in a manner simulating the instruments setup of a real orchestra.

Description

Technical field

The present invention relates to a method of making an imitated musical body, in particular a symphony orchestra and a device according to this method, i. replacing the real spatial setting of the players of individual musical instruments of the orchestra with the spatial setting of the corresponding electroacoustic converters. The invention falls within the field of electroacoustics.

BACKGROUND OF THE INVENTION

There are currently several ways of reproducing music in general. Apart from mono music reproduction systems, stereosystems are now commonly used to provide spatial perception of sound. Stereosystems are further refined to improve their selected characteristics. This is evidenced by the multi-channel recording and reproduction system solution of Japanese patent specification 62082587, which reduces the unevenness of dynamic characteristics by frequency division of acoustic signals into assigned channels terminated by the loudspeaker. The wiring is useful in a three-way speaker system.

Similarly, systems are designed where electrical signals representing acoustic signals of a certain wavelength are redistributed into a selection of dedicated speakers.

International patent application PCT / JP97 / 00368 discloses the use of an electronic acoustic instrument, wherein each musical instrument is recorded on a separate track. One music speaker is assigned to each music track.

The speakers are freely arranged on the wall, floor, ceiling, etc. The sound field is thus close to the live performance of the orchestra.

The disadvantages of the aforementioned systems and electronic musical instruments are that the reproduction of the recording cannot control the quality of the interpretation of the individual musical instruments individually, since it is only a reproduction of a multi-track recording to multiple speakers.

Therefore, there has been a demand to address the above-mentioned shortcomings by technical means. This effort results in a newly created method of imitating any musical body, in particular a symphony orchestra, and the imitated musical body itself, by means of technical means, further described in the present invention.

SUMMARY OF THE INVENTION

The aforementioned drawbacks are largely eliminated by the method of imitating a musical ensemble, in particular a symphony orchestra according to the present invention, which is based on the fact that independent music samples or music samples independently taken from individual instruments of the music ensemble but especially the symphony orchestra are independently stored carriers in the music sample modules and are independently or dependent controlled via a MIDI converter by a computer control unit. The term MIDI is explained at the end of the description.

Control is effected by assigning a plurality of audio output signals from the music sample modules to a plurality of electroacoustic transducers to transform them into sound waves. The assignment is based on the fact that only one output of musical instrument samples is assigned to one electroacoustic transducer at a time. At the same time, each musical instrument of a real musical ensemble, in particular a symphonic orchestra, has only one electroacoustic transducer of the imitated musical ensemble, in particular a symphonic orchestra. Finally, the principle of spatial placement of electroacoustic transducers of imitated musical ensemble with spatial occupation of instruments of a real musical ensemble or orchestra is also observed. It is clear that the number of instruments in a real musical body corresponds to the same number of musical samples of the imitated musical body, in particular the orchestra, and the same number of electroacoustic transducers.

The control also allows independent access to parts of individual instruments, such as: changing the tempo, changing the part of each instrument, coloring the tones, eliminating them or adding them with MIDI editing features and options.

For the present method of imitating a musical body, but especially a symphony orchestra, a device according to the present invention has been proposed by which the method is realized. Its essence consists of a MIDI converter whose input is connected to a computer control unit and whose outputs are separately connected to the respective inputs of the musical instrument modules, in particular the symphony orchestra. The MIDI converter and the computer control unit with software control the launching of the installed music samples in the individual music modules, reading the music samples of the individual instruments of the music ensemble from the CD - ROM. It is also possible to control the tempo of the track. The outputs of each music sample module are separately connected to the corresponding electroacoustic transducer. Each electroacoustic transducer of an imitated musical ensemble by its location in the space, usually the stage, corresponds to the location of the individual instrument in the real musical ensemble, especially in the symphony orchestra. Every electroacoustic transducer representing a single instrument of a musical ensemble, in particular a symphony orchestra, must meet the requirement of its frequency range and musical performance. To ensure the quality of the reproduced sound, it is advantageous to mount the electroacoustic transducer in the loudspeaker.

From the standpoint of some complex embodiments, it is essential for the invention that audio converters and / or low frequency amplifiers are included between each separate output of the music sample modules of a musical instrument, in particular a symphonic orchestra and separate electroacoustic transducers.

Another object of the present invention is a special arrangement of electroacoustic transducers, where these are directionally controlled in the vertical and horizontal axes and / or are active. Directional control of the rotation of electroacoustic transducers in two independent and mutually perpendicular axes imitates the directional tilting of the musical instrument during real play with the possibility of controlling the movement of the slave software.

For an analogous embodiment of the device according to the invention, an essential feature is also the connection of the MIDI converter to the MIDI keyboard, where the music composer or arranger records the individual parties into the music program.

Finally, an essential feature of the device according to the invention for another analogous implementation is that at least the music sample modules of the musical instrument instruments, in particular the symphony orchestra, are software equipment of the computer control unit, thereby reducing the number of components of the device according to the invention. It is then sufficient to connect only active electroacoustic inverters to the high-performance computer.

The advantages of a method and device for imitating a musical ensemble, in particular a symphony orchestra, are that it allows the conductor, performer or arranger to fully realize his artistic concept of the work. Problems with imperfect recording and interpretation, problems with tuning between instruments and rhythmic inaccuracies can be eliminated to a minimum. The big advantage is that the arranger can create new sound models, which can also be verified in real time in real time, allowing direct control of all expressive elements of music, including agogics. The arranger is the creator of all the elementary parts of the interpretation of the composition and can edit in detail each musical instrument in the orchestra separately, thus determining the manner of musical expression of each player in the orchestra, taking into account the final effect. Under all conditions, the resulting sound quality is at a higher level than the state of the art.

BRIEF DESCRIPTION OF THE DRAWINGS

The apparatus for imitating a musical ensemble, in particular a symphonic orchestra according to the present invention, will be described in more detail with reference to the drawings, in which: FIG. 1 shows a basic embodiment of the invention. Fig. 2 shows a derivative variant largely implemented by software with a set of separate low-frequency amplifiers. Fig. 3 shows an analogous embodiment of the invention with active electroacoustic transducers. Fig. 4 shows a three-axis controlled rotation of the electroacoustic transducer. Finally, FIG. 5 shows the spatial arrangement of electroacoustic transducers of the imitated symphony orchestra on the stage.

Example

Example 1

In this example of a particular embodiment, a method of imitating a real 65-member symphonic orchestra according to the invention is shown in principle in FIG. 5. The method is based on the fact that in samples 3.3 of the music samples, independent samples of the individual musical instruments are preferably stored on CDs. They are independently recorded sound samples of individual instruments of the orchestra or they are standard independent music sample samples. These musical instrument samples are controlled by a computer control unit 1 via MIDI converter 2, where the reproduction of the individual parts of the composition is controlled such that the set of output audio signals from outputs 3.2 of the modules 3.3 of the musical sample instruments of the symphonic orchestra is defined by a set of electroacoustic transducers 4. This means that only one of the outputs 3.2 of the music sample modules 3.3 is assigned only the electroacoustic transducer 4, which is assigned to each symphonic orchestra. Control by a reader control unit 1 dependent or independent, to color tones, variations, musical one defined spatially imitated placed symphonic orchestra,

musical instruments real MIDI converter 2 and po- rests also in the option intervention parts like is change pace

exclusion or addition, individual instruments, or even the entire symphony orchestra. This method allows both the controlled reproduction of the composition created by the imitated symphony orchestra and in this way, but also allows the composer to easily compose a whole new composition for the symphony orchestra.

Example 2

Based on the method of imitating the real symphonic orchestra according to the invention, a device imitating the real 65-member symphony orchestra shown in FIG. 1. In this example, the basic wiring of the device according to the invention is described. The device consists of seven modules 3.3.1 to 3.3.7 of musical samples of the instruments of the symphony orchestra called. Sampler. Inputs 3.1 of modules 3.3.1 to 3.3.7 of musical instruments of the symphonic orchestra are connected to outputs 2.1 of MIDI converter 2. If MIDI converter 2 does not contain the appropriate number of outputs, then it is necessary to interconnect and sequentially connect more MIDI converters 2 to achieve the required number their outputs. MIDI converter 2 is further connected to the computer control unit 1. The music keyboard 7 is connected to MIDI converter 2. Modules 3.3.1 to 3.3.7 of the musical samples of the symphony orchestra instruments automatically include audio converters 5.1 to 5.65 at their outputs. These outputs are directly connected to the set of active electroacoustic converters by outputs 3.2.1 to 3.2.65

4.1 to 4.65, where only one appropriately defined electroacoustic transducer 4 is mounted to the loudspeaker with its audio amplifier 5 per output 3.2 of the 3.3 music sample modules. Each electroacoustic transducer 4.1 to 4.65 from the imitated symphony orchestra is positioned in space corresponds to the location of an individual instrument in a real symphony orchestra. Illustratively, the location of the electroacoustic transducer 4J representing the first violin in the first sector on the left is shown. An electroacoustic transducer <64 representing timpani is located in the fifteenth sector at the rear as shown in FIG. 5. Each electroacoustic transducer 4.1 to 4.65 mounted in the loudspeaker is preferably adjustable in height, but also in the horizontal axis and in the vertical axis, as shown in FIG. 4. This allows the sound of the respective imitated musical instrument to be subtly directed when it is tilted or rolled spatially, possibly emphasizing the first violin soloist and changing the imitated seating position to the imitated standing position.

Example 3

In this example, the wiring of a derivative variant of the wiring device of the six member brass band of the present invention shown in FIG. 2, which is predominantly implemented by software. The connection consists of a computer control unit 1 connected to a MIDI converter 2, to which the music keyboard 7 is connected. The module 3.3 of the music samples of a six-member brass band is software of the computer control unit 1, in which the MIDI music program is also installed. The computer control unit is equipped with an analog output bus where one to six 5.1 to 5.6 audio converters are installed. which depends on the number of analog outputs. Their outputs 3.2.1 to 3.2.6 are connected via separate audio amplifiers 6.1 to 6.6 to electroacoustic transducers 4.1 to 4.6, the layout of which is analogous to that of Example 1.

Example 4

In this example, the wiring of the device of the previous example is described, but with active loudspeakers, as shown in FIG. 3. The only difference is that stand-alone audio amplifiers 6.1 to 6.6 are installed in active loudspeakers.

The technical abbreviation "MIDI" is derived from the name "Musical Instruments Digital Interface" and means "digital operation of musical instruments" and refers to both hardware and software.

Industrial usability

The method of imitating a musical body, in particular a symphonic orchestra, and the device itself of the imitated musical body, in particular a symphonic orchestra according to the present invention, can be used on quick tours because of its simplicity and absence of music body or orchestra players. The method and apparatus are particularly useful in sound and film studios where the film is faithfully synchronized with scenic music.

Claims (6)

PATENT CLAIMS Method for imitating a musical ensemble, in particular a symphony orchestra, characterized in that the independent music samples or music samples independently taken from individual instruments of the musical ensemble, in particular the symphony orchestra, are independently stored in the music sample modules (3.3) and are independently or dependent controlled via a MIDI converter (2) by a computer control unit (1) such that: - a set of output audio signals from the music sample modules (3.3) is assigned to a plurality of electroacoustic transducers (4), where only one of the outputs (3.2) of the music sample modules (3.3) is assigned only one defined spatially located electroacoustic transducer (4) ), an imitated musical ensemble, in particular a symphony orchestra, which always belongs to an individual instrument of a real musical ensemble, especially a symphony orchestra; - allows independent intervention in parts of individual instruments, such as: changing the tempo, changing the part of each instrument, coloring the tones, eliminating them or adding them by MIDI editing elements; Device for imitating a musical body, in particular a symphonic orchestra, using the method according to claim 1, characterized in that it consists of a MIDI converter (2), the input of which is connected to a computer control unit (1) and whose outputs (2.1, 2.2 to 2) .N), where N = min 3, are separately connected to the corresponding inputs (3.1.1, 3.1.2 to 3.1.N) of the modules (3.3.1,3.3.2 to 3.3.N) musical samples of instruments of the musical ensemble, in particular the orchestra, whose outputs (3.2.1, 3.2.2 to 3.2.N) are separately connected to the respective electroacoustic transducer (4.1 to 4.N), where each electroacoustic transducer (4.1, 4.2 to 4.N) by its placement in space corresponds to the defined placement of an individual instrument in a real musical ensemble, especially in a symphony orchestra. A device for imitating a musical ensemble, in particular a symphonic orchestra according to claim 2, characterized in that between each separate output (3.2.1, 3.2.2 to 3.2.N) of the music sample instruments (3) of the musical ensemble instruments, in particular the orchestra, and standalone electroacoustic transducers (4.1 to 4.N) include audio converters (5.1, 5.2 to 5.N) and / or low-frequency amplifiers (6.1, 6.2 to 6.N). Device for imitating a musical body, in particular a symphonic orchestra according to claims 2 to 3, characterized in that the electroacoustic transducers (4.1, 4.2 to 4.N) are directionally controlled in the vertical and horizontal axes and / or are active. Device for imitating a musical body, in particular a symphonic orchestra according to claim 2, characterized in that the MIDI converter (2) is connected to the keyboard (7). Device for imitating a musical ensemble, in particular a symphonic orchestra according to claim 2, characterized in that at least modules (3.3.1, 3.3.2 to 3.3.N) of the musical ensemble instruments of the musical ensemble, in particular the orchestra, are software of the computer control unit (3.3). 1).