KR20200136274A - Method for supporting puzzle-based music composition and the computing device using the same - Google Patents

Abstract

According to the present invention, a method for supporting puzzle-based composition comprises the steps of: (a) determining, by a computing device, at least one piece of candidate data corresponding to specific music development-related cluster information when selection information for a specific progress unit among music progress units and the specific music development-related cluster information corresponding thereto are obtained, wherein the music progress units are at least one node or units dividing the at least one node into a predetermined unit; (b) displaying, by the computing device, predetermined geometric structures corresponding to each of the pieces of candidate data; and (c) determining, by the computing device, specific candidate data corresponding to a specific geometric structure from the candidate data when the specific geometric structure is selected from the geometric structures.

Description

Puzzle-based composition support method and computing device using the same {METHOD FOR SUPPORTING PUZZLE-BASED MUSIC COMPOSITION AND THE COMPUTING DEVICE USING THE SAME}

The present invention relates to a method for supporting a user to compose a composition in a puzzle method and a computing device using the same.

In recent years, with the development of information and communication technology, a good environment for the general public to access and use music continues to be created. As a representative example, on the YouTube (YOUTUBE) site, you can easily access numerous music contents, and you can easily share contents created using music as background music with others. As the environment changes, the general public who does not have professional knowledge about music has become more interested in music, and furthermore, the scope of interest in music composition is expanding.

The advent of a computer-based music tool called Digital Audio Workstation (DAW) has contributed to lowering the difficulty of composing and editing music. You can check software related to DAW and how to use it in the article posted on the internet blog (Cherry Clock, "Composition Software", January 31, 2019, https://cherryclock.tistory.com/42). However, as stated in the above article, in order to effectively use composition software such as DAW, the user's understanding of composition theory is required, and due to the nature of composition, which is an area of creation, it is difficult for ordinary people without knowledge of music to compose. It is true that it is still difficult.

Therefore, there is a need for a method or tool that allows ordinary people without specialized knowledge about music to easily compose music.

Accordingly, it is an object of the present invention to solve all of the above-described problems.

In addition, another object of the present invention is to provide a method for supporting composition by a puzzle method, so that a user can experience and compose various music compositions.

In addition, another object of the present invention is to enable a user to learn music theory by providing a method for supporting composition in a puzzle method.

In order to achieve the object of the present invention as described above, and to realize the characteristic effects of the present invention described later, the characteristic configuration of the present invention is as follows.

According to an aspect of the present invention, a method of supporting composition by a puzzle method, comprising: (a) a music progress unit-the progress unit is at least one measure or divided into a predetermined unit-for a specific progress unit Determining, by a computing device, at least one candidate data corresponding to the specific music development related cluster information when selection information and specific music development related cluster information corresponding thereto are obtained; (b) displaying, by the computing device, a predetermined geometric structure corresponding to each of the candidate data; And (c) when a specific geometric structure is selected from among the geometric structures, determining, by the computing device, specific candidate data corresponding to the specific geometric structure from among the candidate data. Including, a puzzle method composition support method is provided.

As an example, before step (a), when information on a plurality of existing music is obtained as (a0) learning data, the computing device proceeds at least one of a rhythm, a chord, and a melody corresponding to each of the existing music. By learning information, a plurality of reference progress information-The plurality of reference progress information includes information on at least some of a plurality of rhythms, a plurality of chords, and a plurality of melody that may come to each of a plurality of neighboring progress units, Each of the plurality of reference progress information corresponds to each progress probability information corresponding to a probability value at which each of the plurality of reference progress information can be selected, and the plurality of reference progress information and the corresponding plurality of reference progress information Storing the progress probability information of the data in a predetermined database; In addition, in step (a), in determining the candidate data, the computing device determines whether there is pre-specified progress candidate data determined in advance corresponding to a previous or next progress unit of the specific progress unit. To determine the candidate data by additionally referring to a plurality of reference progress information corresponding to the predetermined progression candidate data, a plurality of progression probability information corresponding to the predetermined progression candidate data, and the predetermined progression candidate data. Characterized in, a puzzle method composition support method is provided.

As an example, in the step (b), the computing device determines an order of displaying the geometric structure or displays the shape of the geometric structure with reference to information on each of the progress probability corresponding to each of the candidate data. It characterized in that, a puzzle method composition support method is provided.

As an example, in step (b), a geometric structure displayed corresponding to each of the candidate data and a geometric structure displayed corresponding to the pre-specific progress candidate data are in the form of a two-dimensional or three-dimensional block, and the pre-specified progress Each of the first block displayed corresponding to the candidate data and each second block displayed corresponding to the candidate data has at least one coupling portion-the coupling portion includes at least one protruding portion or a depression portion. And, the computing device includes: (i) information on the shape of the first block, (ii) a plurality of reference progress information determined on the premise of the shape of the first block, and (iii) a plurality of corresponding information. With reference to the progress probability information of, the meshing value of the coupling part of the first block and the coupling part of the second block-The meshing value is a line corresponding to the entire coupling part of each of the first block and the second block, or It is the ratio of a line or surface that is joined among the planes, and the greater the probability value corresponding to the plurality of progress probability information, the larger the engagement value is-and the protrusion or the protrusion of the second block according to the engagement value It characterized in that the shape of the depression is determined, a method for supporting composition in a puzzle method is provided.

As an example, if, after step (c), (d) the specific progress unit and at least one highlight progress unit selected from the previous or next progress unit of the specific progress unit is obtained, the computing device, (i ) A process of modifying candidate data corresponding to the highlight progress unit with reference to predetermined first highlight rule data, and (ii) a process of modifying the candidate data corresponding to the highlight progress unit, and (ii) (1 ) If at least one pre-progress candidate data exists, at least a part of each of the pre-progress candidate data is modified with reference to predetermined second highlight rule data, and (2) the pre-progress candidate data does not exist. Waits for the post-progression candidate data corresponding to the previous or post-progression unit based on the highlight progress unit to be determined, and when the post-progress candidate data is determined later, the post-progress candidate data is referred to the second highlight rule data. There is provided a method for supporting composition in a puzzle method, characterized in that the process of supporting correction is performed.

As an example, in the step (a), the computing device additionally acquires selection information for a specific channel corresponding to two or more of a rhythm, a chord, and a melody, and the specific music development related cluster information and the specific channel A method for supporting composition of a puzzle method is provided, characterized in that the candidate data corresponding to the selection information is determined.

As an example, before step (a), if (aa) information on a plurality of existing music is obtained as learning data, the computing device may perform a rhythm, a code, and a rhythm corresponding to a predetermined progress unit for each of the existing music. Information on combinations of two or more of the melody is learned, and a plurality of harmony information-The plurality of harmony information is information on at least some of a plurality of rhythms, a plurality of chords, and a plurality of melody that can be included in the predetermined progress unit together. Including, wherein each of the plurality of matching information corresponds to each matching probability information corresponding to a probability value at which the corresponding matching information can be selected-to obtain, and the plurality of matching information and the plurality of matching probability corresponding thereto Storing the information in a predetermined database; In addition, in the step (a), in determining the candidate data, the computing device has predetermined matching candidate data determined in advance corresponding to the specific processing unit in some channels of the specific channels. It is determined whether the pre-specific matching candidate data exists, and determining the candidate data by additionally referring to a plurality of matching information corresponding thereto, a plurality of matching probability information corresponding thereto, and the pre-specific matching candidate data. Characterized in, a puzzle method composition support method is provided.

As an example, in step (b), the computing device determines the order of displaying the geometric structure or determines the shape of the geometric structure with reference to information on each of the specific matching probabilities corresponding to each of the candidate data. A method of supporting composition of a puzzle method is provided, which comprises displaying.

As an example, in step (b), a geometric structure displayed corresponding to each of the candidate data and a geometric structure displayed corresponding to each of the pre-specific matching candidate data are in the form of a two-dimensional or three-dimensional block. Each of the third block displayed in correspondence with matching candidate data and each fourth block displayed in correspondence with the candidate data has at least one coupling portion-the coupling portion including at least one protrusion or depression. Characterized in that the computing device includes: (i) information on the shape of the third block, (ii) a plurality of matching information determined on the premise of the shape of the third block, and (iii) a plurality of corresponding information. With additional reference to the matching probability information of, the meshing value of the coupling portion of the third block and the coupling portion of the fourth block-The meshing value corresponds to the entire coupling portion of each of the third block and the fourth block. It is the ratio of the line or plane that is combined among the lines or planes that are combined, and the greater the probability value corresponding to the plurality of matching probabilities, the greater the meshing value-and determines the value of the second block according to the meshing value. A method for supporting composition in a puzzle method is provided, characterized in that the shape of the protrusion or the depression is determined.

As an example, after the step (b), (b1) when a selection by a user for a specific geometric structure is detected, the computing device refers to specific candidate data corresponding to the specific geometric structure. , Outputting or supporting at least one sound; The puzzle method composition support method is provided, which further includes.

In addition, according to another aspect of the present invention, there is provided a computing device supporting composition in a puzzle method, comprising: at least one memory for storing instructions; And at least one processor configured to execute the instructions. Including, wherein the processor, (I) music progress unit-the progress unit is at least one measure or divided into a predetermined unit-selection information for a specific progress unit and corresponding specific music development related When cluster information is acquired, determining at least one candidate data corresponding to the specific music development related cluster information; (II) a process of displaying a predetermined geometric structure corresponding to each of the candidate data; And (III) when a specific geometric structure is selected from among the geometric structures, determining specific candidate data corresponding to the specific geometric structure from among the candidate data. A computing device is provided that supports the composition of the puzzle method.

As an example, before the (I) process, if information on a plurality of existing music is obtained as (I-0) learning data, the processor may perform at least one of a rhythm, a chord, and a melody corresponding to each of the existing music. By learning progress information, a plurality of reference progress information- The plurality of reference progress information includes information on at least some of a plurality of rhythms, a plurality of chords, and a plurality of melody that may come to each of a plurality of neighboring progress units, and , Each of the plurality of reference progress information corresponds to each progress probability information corresponding to a probability value at which each of the plurality of reference progress information can be selected, and the plurality of reference progress information and the corresponding A process of storing a plurality of progress probability information in a predetermined database; And, in the process (I), in determining the candidate data, the processor determines whether there is pre-determined predetermined progress candidate data corresponding to the previous or next progress unit of the specific progress unit. Thus, when the pre-specific progress candidate data exists, the candidate data is determined by additionally referring to a plurality of reference progress information corresponding thereto, a plurality of progress probability information corresponding thereto, and the pre-specific progress candidate data. In this way, a computing device supporting composition of a puzzle method is provided.

As an example, in the (II) process, the processor determines an order of displaying the geometric structure or displays the shape of the geometric structure with reference to information on each of the progress probability corresponding to each of the candidate data. It characterized in that, there is provided a puzzle method composition support computing device.

As an example, in the (II) process, a geometric structure displayed corresponding to each of the candidate data and a geometric structure displayed corresponding to the pre-specified progress candidate data are in the form of a two-dimensional or three-dimensional block, and the pre-specified progress Each of the first block displayed corresponding to the candidate data and each second block displayed corresponding to the candidate data has at least one coupling portion-the coupling portion includes at least one protruding portion or a depression portion. And, the processor includes: (i) information on the shape of the first block, (ii) a plurality of reference progress information determined on the premise of the shape of the first block, and (iii) a plurality of corresponding With reference to the progress probability information, the meshing value of the coupling portion of the first block and the coupling portion of the second block-The meshing value is a line or surface corresponding to the entire coupling portion of each of the first block and the second block. It is the ratio of the line or surface in which the combination is formed, and the greater the probability value corresponding to the plurality of progress probability information, the larger the engagement value is-and the protrusion or the protrusion of the second block is determined according to the engagement value. It is characterized in that the shape of the depression is determined, a puzzle method composition support computing device is provided.

As an example, after the process (III), when information for selecting at least one highlight progress unit among (IV) the specific progress unit and the previous or next progress unit of the specific progress unit is acquired, the processor, (i) A process of modifying candidate data corresponding to the highlight progress unit with reference to predetermined first highlight rule data, and (ii) a pre-determined (1) corresponding to a previous or subsequent progress unit based on the highlight progress unit. If at least one pre-progress candidate data exists, at least a part of each of the pre-progress candidate data is modified with reference to predetermined second highlight rule data, and (2) when the pre-progress candidate data does not exist, Waiting for the determination of post-progression candidate data corresponding to the previous or subsequent progression unit based on the highlight progress unit, and if the post-progression candidate data is determined later, the post-progression candidate data is modified with reference to the second highlight rule data. It characterized in that performing a process that supports to enable, a puzzle method composition support computing device is provided.

As an example, in the (I) process, the processor further acquires selection information for a specific channel corresponding to two or more of rhythm, chord, and melody, and the specific music development related cluster information and the specific channel There is provided a puzzle method composition support computing device, characterized in that determining the candidate data corresponding to the selection information.

As an example, prior to the (I) process, if information on a plurality of existing music is obtained as (I-00) learning data, the processor, for each of the existing music, a rhythm and a code corresponding to a predetermined unit of progression. And a plurality of harmony information by learning information on a combination of two or more of the melody-the plurality of harmony information is for at least some of a plurality of rhythms, a plurality of chords, and a plurality of melody that may be included together in the predetermined progress unit. Information, and each of the plurality of matching information corresponds to each matching probability information corresponding to a probability value at which the corresponding matching information can be selected-and the plurality of matching information and the plurality of matching information corresponding thereto Storing probability information in a predetermined database; In the process (I), in determining the candidate data, the processor determines whether there is pre-specific matching candidate data determined in advance corresponding to the specific processing unit in some channels of the specific channels. By determining and determining the candidate data by additionally referring to a plurality of matching information corresponding to the predetermined matching candidate data, a plurality of matching probability information corresponding to the predetermined matching candidate data, and the predetermined matching candidate data. In this way, a computing device supporting composition of a puzzle method is provided.

As an example, in the (II) process, the processor determines an order of displaying the geometric structure or displays the shape of the geometric structure by referring to information on each of the specific matching probabilities corresponding to each of the candidate data. It characterized in that, a puzzle method composition support computing device is provided.

As an example, in the process (II), a geometric structure displayed corresponding to each of the candidate data and a geometric structure displayed corresponding to each of the pre-specific matching candidate data are in the form of a two-dimensional or three-dimensional block. Each of the third block displayed in correspondence with matching candidate data and each fourth block displayed in correspondence with the candidate data has at least one coupling portion-the coupling portion including at least one protrusion or depression. Characterized by,

The processor includes (i) information on the shape of the third block, (ii) a plurality of matching information determined on the premise of the shape of the third block, and (iii) a plurality of matching probability information corresponding thereto. For further reference, the engagement value of the engagement portion of the third block and the engagement portion of the fourth block-The engagement value is from a line or plane corresponding to the entire engagement portion of each of the third block and the fourth block. It is the ratio of the line or surface in which the coupling is formed, and the greater the probability value corresponding to the plurality of matching probability, the larger the engagement value is-and the protrusion or the depression of the second block is determined according to the engagement value. A computing device supporting composition of a puzzle method, characterized in that the shape is determined, is provided.

As an example, after the (II) process, (II-1) when a selection by a user for a specific geometric structure is detected, the processor refers to specific candidate data corresponding to the specific geometric structure. Thus, a process of outputting or supporting at least one sound; In addition, a puzzle method composition support computing device is provided.

According to the present invention, the following effects are obtained.

According to the present invention, by providing a method for supporting composition in a puzzle method, even a user without specialized knowledge about music can easily compose and edit music.

In addition, the present invention provides a method for supporting composition in a puzzle method, thereby enabling a user to experience and compose various music compositions.

In addition, the present invention has an effect of enabling a user to learn music theory by providing a method of supporting composition in a puzzle method.

1 is a diagram schematically illustrating a computing device supporting composition in a puzzle method according to an embodiment of the present invention.
2 is a flowchart schematically showing a basic process for supporting composition in a puzzle method according to an embodiment of the present invention.
3A and 3B are flowcharts schematically illustrating a process in which a computing device learns reference progress information and matching information by using a plurality of existing music information as learning data, according to an embodiment of the present invention.
4A and 4B are part of a data structure including reference progress information and matching information, which are results of learning by a computing device, and progress probability information and matching probability information corresponding to each, according to an embodiment of the present invention. It is a diagram schematically showing.
5A and 5B are diagrams illustrating a method of assembling a geometric structure corresponding to a predetermined progress unit and a channel unit as a puzzle piece on a predetermined two-dimensional plane according to an embodiment of the present invention.
6 is a diagram schematically illustrating a process of setting a specific progress unit as a highlight unit according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE INVENTION The detailed description of the present invention to be described later refers to the accompanying drawings, which illustrate specific embodiments in which the present invention may be practiced. These embodiments are described in detail sufficient to enable a person skilled in the art to practice the present invention. It is to be understood that the various embodiments of the present invention are different from each other, but need not be mutually exclusive. For example, specific shapes, structures, and characteristics described herein may be implemented in other embodiments without departing from the spirit and scope of the present invention in relation to one embodiment.

In addition, it is to be understood that the location or arrangement of individual components within each disclosed embodiment may be changed without departing from the spirit and scope of the present invention. Accordingly, the detailed description to be described below is not intended to be taken in a limiting sense, and the scope of the present invention, if properly described, is limited only by the appended claims, along with all scopes equivalent to those claimed by the claims. Like reference numerals in the drawings refer to the same or similar functions over several aspects.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings in order to enable those of ordinary skill in the art to easily implement the present invention.

1 is a diagram schematically illustrating a computing device supporting composition in a puzzle method according to an embodiment of the present invention.

Referring to FIG. 1, a computing device 100 supporting composition in a puzzle method may include a memory 110 and a processor 120. At this time, the memory 110 may store instructions of the processor. Specifically, the instructions are codes generated for the purpose of causing the server 100 to function in a specific manner, and a computer or other programmable data processing equipment May be stored in a computer usable or computer readable memory. Instructions may perform processes for performing the functions described in the specification of the present invention.

In addition, the processor 120 may include a hardware configuration such as a micro processing unit (MPU) or a central processing unit (CPU), a cache memory, and a data bus. In addition, it may include an operating system and a software configuration of an application that performs a specific purpose.

Next, the computing device 100 may include a database (not shown). At this time, the database is a medium for storing various data for music generation and editing, and reference progress information and matching information, which are the results of learning using existing music as learning data, and progress probability information and matching probability corresponding to each Information, etc. may be included, but the present invention is not limited thereto. In addition, the database is a flash memory type, a hard disk type, a multimedia card micro type, a card type memory (for example, SD or XD memory), and RAM (Random Access Memory, RAM), SRAM (Static Random Access Memory), ROM (ReadOnly Memory, ROM), EEPROM (Electrically Erasable Programmable ReadOnly Memory), PROM (Programmable ReadOnly Memory), magnetic memory, magnetic disk, at least one type of optical disk It may include a storage medium of, but is not limited thereto, and may include any medium capable of storing data. In addition, the database may be installed inside the computing device 100 to transmit data or record received data, and may be implemented by being separated into two or more as shown.

Therefore, the computing device 100 is not limited to the configuration of FIG. 1, and may be an independent terminal with a built-in database or a server connected to an external computing device.

2 is a flowchart schematically showing a basic process of supporting composition in a puzzle method according to an embodiment of the present invention.

Referring to FIG. 2, in the process of the computing device 100 supporting composition in a puzzle method according to an embodiment of the present invention, first, the processor 120 of the computing device 100 provides selection information for a specific progress unit. And obtaining (S201) specific cluster information related to music development corresponding thereto. In this case, the progress unit may mean at least one measure or divided into a predetermined unit. If a specific progress unit is selected from among them, the processor 120 selects information on the specific progress unit and a specific music corresponding thereto. Deployment-related cluster information can be obtained. In addition, the music development-related cluster divides the development process of music into predetermined stages. For example, each of the prestigious stages used in a narrative structure in music and literature may become a music development-related cluster, and may be part of a node or A plurality of bars may correspond to the same music development related cluster.

Next, the processor 120 may determine candidate data corresponding to the specific music development related cluster information (S202). Here, the candidate data is a group of candidates that can be applied to the specific music development-related cluster, and each of the candidate data is calculated by performing an operation in real time by the processor 120 or by referring to data stored in the database through predetermined learning. It may be determined, but is not limited thereto and may vary according to the conditions of the invention.

Then, the processor 120 may display a predetermined geometric structure corresponding to each of the determined candidate data (S203). In this case, the predetermined geometrical structure may be in the form of a two-dimensional or three-dimensional block, and the corresponding geometrical structure may be displayed in a predetermined two-dimensional plane or a three-dimensional three-dimensional space and implemented in the user's display computing device. It will not be limited to this.

Next, a specific geometric structure may be selected (S204). The specific geometric structure may be selected from at least one geometric structure displayed in the previous process, and the method for selecting the specific geometric structure may be that the user directly selects a specific geometric structure from among the geometric structures displayed on the display, or the processor ( 120) may be automatically selected by performing a predetermined operation, and this may be performed differently depending on the implementation conditions of the invention.

Then, the processor 120 may determine specific candidate data corresponding to the selected specific geometric structure (S205). In the previous process, since each geometric structure is displayed corresponding to each of the determined candidate data, if a specific geometric structure is selected from among the determined candidate data, candidate data corresponding thereto may be specified. However, the above-described correspondence relationship is not limited thereto, and the criteria may be differently set and applied for each implementation condition of the invention.

As described above, by repeatedly performing a process of specifying candidate data for each of a specific progress unit and a specific music development related cluster corresponding thereto, the composition of the entire music can be made.

3A and 3B are flowcharts schematically illustrating a process in which a computing device learns progress information and matching information by using a plurality of existing music information as learning data, according to an embodiment of the present invention.

3A and 3B, according to an embodiment of the present invention, the processor 120 of the computing device 100 acquires information on a plurality of existing music as learning data (S301-1, S301-2). can do. Then, the processor 120 may perform a learning process for the acquired existing music, and the learning process includes (i) learning progress information of at least one of a rhythm, a chord, and a melody corresponding to each of the existing music ( S302-1) to obtain a plurality of reference progress information including information on at least some of a plurality of rhythms, a plurality of chords, and a plurality of melodies that may come to each of the plurality of neighboring progress units (S303-1), A process of storing (S304-1) each progress probability information corresponding to a probability value at which each of the acquired reference progress information can be selected in a predetermined database (S304-1), and (ii) in a predetermined progress unit. Information on at least some of a plurality of rhythms, a plurality of chords, and a plurality of melodies that may be included together in the predetermined progress unit by learning information on combinations of two or more of the corresponding rhythms, chords, and melodies (S302-2) Acquiring a plurality of matching information to be included (S303-2), and storing each matching probability information corresponding to a probability value at which each of the obtained matching information can be selected together with the obtained matching information in a predetermined database (S304- It may be accomplished including at least one of the processes of 2). Of course, the above-described learning process is not limited thereto, and a method for performing learning or a detailed execution condition may vary depending on the implementation conditions of the invention. For example, the processor 120 may refer to the above-described learning process as the entire learning data. However, learning data used in a process of learning the reference progress information by classifying learning data according to a predetermined criterion may be used differently from learning data used in a process of learning the matching information.

The reference progress information and matching information, which are the results of such a learning process, and progress probability information and matching probability information corresponding to each of the reference progress information and matching probability information, may be at least partially referred to by the process 120 and applied to a process of determining candidate data.

4A and 4B are data including reference progress information and matching information, which are a result of learning by the computing device 100, and progress probability information and matching probability information corresponding to each, according to an embodiment of the present invention. It is a diagram schematically showing a part of the structure.

Referring to FIG. 4A, according to an embodiment of the present invention, a part of a data structure including a plurality of reference progress information and progress probability information corresponding to the plurality of reference progress information is included in the music development related cluster A 410 as a reference. It may include data such as a melody pattern a1 (421), a melody pattern a2 (422) that may come to the neighboring music development-related cluster A+1 (420) in response to the melody pattern a (411) that may come, A value 431 of 0.3 as a probability value at which the progression leading to the melody pattern a and the melody pattern a1 is selected may be included together as progress probability data corresponding thereto. Similarly, it is shown in FIG. 4A that the progression probability data corresponding to the progression leading to the melody pattern a and the melody pattern a2 may be 0.2 (432). In addition, for the case where the melody pattern b (412) comes to the music development related cluster A (410), as described above, the melody pattern b1 (423) and the melody pattern that can come to the next music development related cluster A+1 (420) Data for b2 424 and progress probability data 433 and 434 corresponding to the data may be included in a part of the data structure and stored in a predetermined database.

Referring to FIG. 4B, according to an embodiment of the present invention, a part of a data structure including a plurality of matching information and matching probability information corresponding to each is based on a specific music development related cluster K 450 , A code that is at least a part of a melody pattern k1 461, which is at least a part of the entire melody pattern corresponding to channel 1 460, which is a channel corresponding to the melody, and the entire code pattern corresponding to channel 2 470, which is a channel corresponding to the code It may include data such as the pattern k1 (471), and the melody pattern k1 (461) and the chord pattern k1 (471) are a probability value of 0.35 for selecting a combination included in the specific music development related cluster K (450). The value 481 may be included together as matching probability data corresponding thereto. Similarly, it is shown in FIG. 4B that the matching probability data corresponding to the combination of the melody pattern k1 461 and the code pattern k2 472 may be 0.23 (482). In addition, when the melody pattern k2 (462) and the chord pattern k1 (473) are combined, and when the melody pattern k2 (462) and the chord pattern k2 (474) are combined, they correspond to each of them as described above. Matching probability data 483 and 484 may be included in a part of the data structure and stored in a predetermined database.

Some of these data structures are an embodiment of the invention, and the name, structure, and correspondence of each data may vary according to the conditions of implementation of the invention, and the probability value of each of the progress probability and matching probability data is also the implementation of the invention. It can be set to a different value according to the criteria set in the condition. For example, the probability that the progression pattern in which the melody pattern a and the melody pattern a1 is connected is selected assuming that the melody pattern a is determined, and the probability value that the melody pattern a1 can come may be the progression probability data. A probability value obtained by multiplying the selection probability of the melody pattern a by the selection probability of the melody pattern a1 may be the progress probability data in consideration of the selection probability of the pattern a.

5A and 5B are diagrams illustrating a method of assembling a geometric structure corresponding to a predetermined progress unit and a channel unit as a puzzle piece on a predetermined two-dimensional plane according to an embodiment of the present invention.

5A and 5B, a predetermined two-dimensional plane expressing a method of composing a composition by combining a geometric structure corresponding to a predetermined progress unit and a channel unit as a puzzle piece is a progress unit and a music development-related cluster corresponding thereto. A progress axis in which units are displayed in order (505, 506) and channels (10, 20, 30) corresponding to each of the rhythm, chord, and melody may be displayed based on the displayed channel axis, and each of the progress axis and the channel axis A geometric structure may be arranged as a puzzle piece at each of the positions corresponding to the coordinates of. Of course, the two-dimensional plane is not limited thereto, and may be expressed so that it can be viewed as three-dimensional even though it is a two-dimensional plane, or may be implemented as a real three-dimensional space such as a hologram, in this case, a puzzle piece The geometrical structure as can also be expressed in a two-dimensional or three-dimensional form. In addition, each of the progress axis and the channel axis does not always have to be divided into a constant scale, and a different scale may be applied for each section according to an implementation condition of the invention.

In addition, the 2D plane may include music development related cluster symbols 501, 502, 503, and 504 displayed corresponding to each of the music development related clusters. If a specific music development related cluster symbol is selected among them, the processor 120 determines candidate data including at least one of a rhythm, a chord, and a melody based on the coordinates with reference to information on the selected specific music development related cluster. In this case, if there is information on which a specific channel corresponding to at least one of a rhythm, a chord, and a melody is selected, the processor 120 may additionally refer to it to determine the candidate data. In addition, in Figs. 5A and 5B, only one cluster symbol related to music development is shown for each of the preliminary stages, but the present invention is not limited thereto, and each symbol may be displayed for all repeated stages according to an exemplary embodiment of the invention. , Each symbol may be displayed in correspondence with each progression unit or measure of music, not a cluster related to music development.

As an example of the invention, the process of determining each of the candidate data in the direction of the progress axis may proceed as follows. As shown in FIG. 5A, when a music development related cluster symbol 502 corresponding to'Win' is selected while the channel 10 corresponding to the rhythm is selected, the processor 120 refers to each selection information. Thus, the position 51 to which candidate data is to be determined can be set. Then, the processor 120 may determine whether there is pre-determined pre-specific progress candidate data corresponding to the previous or next progress unit based on the set position 51. In FIG. ') The geometric structure 510 shown at the location of the coordinates may correspond to pre-specific progress candidate data. In this way, when pre-specified progress candidate data exists, the processor 120 additionally refers to a plurality of reference progress information corresponding to the pre-specific progress candidate data, a plurality of progress probability information corresponding thereto, and the pre-specific progress candidate data. Thus, candidate data applicable to the specific location 51 may be determined.

In addition, the expression of'candidate' may not be appropriate because the'pre-specific progress candidate data' means data that has already been determined, but for convenience, the expression'candidate' is used to emphasize that it has been decided among at least one candidate data. Used. Even afterwards, the case of using the expression'candidate' even though it is a term for referring to one already selected and determined among at least one candidate will be the same reason as described above.

In addition, as another example of the invention, a method of determining each candidate data in a channel axis direction may proceed as follows. As shown in FIG. 5B, when a specific channel 20 corresponding to a rhythm and a chord is selected, and a music development related cluster symbol 502 corresponding to'ki' is selected, the processor 120 selects each The position 52 to which candidate data is to be determined may be set with reference to the information. In this case, when determining the candidate data in the channel axis direction, it is necessary to assume a case in which two or more of a rhythm, a chord, and a melody are combined, so that a specific channel 40 corresponding to the rhythm and the chord is selected in FIG. 5B. However, in contrast, when the selected specific channel corresponds to only one of a rhythm, a chord, and a melody (for example, a rhythm), the processor 120 is positioned adjacent to the specific channel and at least one corresponding to at least one of a chord or a melody The channel of may be automatically selected, and this may be different depending on the implementation conditions of the invention. In addition, since a channel corresponding to two or more of the rhythm, chord, and melody is selected, there may be two or more positions to be determined for candidate data, as shown in FIG. 5B ('ki','code ') It may be the position 52 of the coordinates, but it may be the position of the coordinates ('ki','rhythm'). In this case, the processor 120 may automatically determine a specific location to first determine candidate data from among two or more location candidates, or perform a process such as displaying information on the location candidate on the display so that the user can select a location. It may be performed to obtain information on a final position to determine candidate data, which may vary depending on the implementation conditions of the invention.

When the position 52 to determine candidate data is determined through the above process, the processor 120 corresponds to a specific progress unit of the position 52 to some of the initially selected specific channels, and a predetermined match is determined in advance. It can be determined whether the candidate data exists, and a specific geometric structure 510 shown in the coordinates ('ki','rhythm') in FIG. 5B may correspond to the pre-specific matching candidate data. In this way, when pre-specific matching candidate data exists, the processor 120 additionally refers to a plurality of matching information corresponding to the predetermined matching candidate data, a plurality of progress probability information corresponding thereto, and the pre-specific matching candidate data. Candidate data applicable to a specific location 52 may be determined.

Then, the processor 120 determines an order in which geometric structures corresponding to each of the determined candidate data are displayed, with reference to information on each progress probability corresponding to each of the determined candidate data or information on each matching probability, or The shape of the geometric structure can be displayed. In this case, the order in which the geometric structures are displayed may be an order in which the progress probability or matching probability corresponding to the corresponding geometric structure is high. In addition, the shape of the geometric structure may be determined and displayed differently according to the progress probability or matching probability, which may vary according to the implementation conditions of the invention.

And, when the user's selection for a specific geometric structure among the geometric structures displayed in the implementation process of the invention is detected, the processor 120 outputs at least one sound by referring to specific candidate data corresponding to the selected specific geometric structure, or You can support to print.

As an example of the invention, the geometric structure displayed in correspondence with each of the determined candidate data, the geometric structure displayed in correspondence with the pre-specified progress candidate data, and the geometric structure displayed in correspondence with the pre-specified matching candidate data are each combined at least one. It may be in the form of a two-dimensional or three-dimensional block including a portion, and in this case, the coupling portion may include at least one protruding portion or a depression portion.

Referring to FIGS. 5A and 5B in more detail, as shown in FIG. 5A, pre-specific progress candidate data is determined at the position of the coordinates ('Gi','Rhythm'), and the corresponding geometrical structure 510 (hereinafter, the first block) ) Is displayed, geometrical structure candidates 520, 530, 540, 550 and hereinafter second blocks that the processor 120 can apply to the position of the coordinates ('power','rhythm') in the direction of the progress axis ) Can be displayed at a predetermined position on a two-dimensional plane. At this time, the shape and display order of each of the second blocks 520, 530, 540, 550, etc. may be determined with reference to information on each progression probability corresponding to each of the candidate data determined as mentioned above. , In addition, the processor 120 includes information on the shape of the first block 510 that is already displayed, a plurality of reference progress information determined on the premise of the shape of the first block 510, and a plurality of corresponding A specific block among the first block 510 and the second blocks 520, 530, 540, and 550 that can be applied to the position of the coordinates ('power','rhythm') with additional reference to progress probability information It is possible to determine the meshing value, which is the degree of meshing of each joint. In this case, the meshing value is a ratio of a line or surface that is joined among lines or surfaces corresponding to the entire coupling portion of each of the two interdigitated blocks, and the larger the probability value corresponding to the progress probability information, the larger the meshing value may be. . In addition, the size and shape of the depressions 511 and protrusions 521, 531, 541, and 551 included in the coupling portions of each of the two blocks to be coupled may be determined according to the determined engagement value. In FIG. 5A, the first block ( Since the depression 511 of the 510 has already been determined, the protrusions 521 of each of the second blocks 520, 530, 540 and 550 that can be applied to the position of the ('win','rhythm') coordinates The 531 and 541 or the depression 551 may be determined differently according to the size of the engagement value. As in the case of FIG. 5A, when the meshing value is the highest above a predetermined first threshold, second blocks 520, 530, 540, and 550 that can be applied to the position of the coordinates ('power','rhythm') ), the shape and size of the protrusion 521 included in the coupling portion of the first candidate block 520 match the shape and size of the depression 511 included in the coupling portion of the first block 510 When the engagement value is less than the first threshold or more than a predetermined second threshold, the protrusions 531 and 541 included in the coupling portions of the second candidate block 530 and the third candidate block 540 are It may be determined that the degree of matching with the shape and size of the depression 511 included in the coupling portion of the first block 510 is low, and when the meshing value is less than the second predetermined threshold, the fourth candidate block 550 Like the depression 551 included in the coupling portion, it may be determined not to match the shape and size of the depression 511 included in the coupling portion of the first block 510.

And, as shown in FIG. 5B, in a state in which pre-specific matching candidate data is determined at the position of the coordinates ('ki','rhythm') and the corresponding geometric structure 510 (hereinafter, a third block) is displayed, the processor 120 Geometry candidates (560, 570, 580, 590, hereinafter 4th blocks) that can be applied to the position of the coordinates of the ('Gi','Code') in the channel axis direction are displayed at a predetermined position on the 2D plane can do. At this time, the shape and display order of each of the fourth blocks 560, 570, 580, and 590 may be determined by referring to information on each matching probability corresponding to each of the determined candidate data, and in addition to the processor 120, information on the shape of the third block 510 that is already displayed, a plurality of matching information determined on the premise of the shape of the third block 510, and a plurality of matching probability information corresponding thereto. For further reference, the combination of each specific block among the third block 510 and the fourth blocks 560, 570, 580, 590 that can be applied to the position of the coordinates ('group','code') The meshing value, which is the degree of meshing, can be determined. In this case, the meshing value is the ratio of the line or surface that is joined among the lines or planes corresponding to the entire joint of each of the two interlocking blocks, and the larger the probability value corresponding to the plurality of matching probability information, the larger the meshing value. I can. In addition, the size and shape of the depressions 512 and protrusions 561, 571, 581, and 591 included in the coupling portions of each of the two blocks may be determined according to the determined engagement value. In FIG. 5B, the third block 510 ) Of the concave part 512 is already determined, so the protrusions 561 and 571 of each of the fourth blocks 560, 570, 580, 590 that can be applied to the position of the coordinates ('gi','code') , 581) or the depression 591 may be determined differently depending on the size of the engagement value. As in the case of FIG. 5B, when the meshing value is the highest above a predetermined first threshold, the first candidate block 560 is combined among the fourth blocks applicable to the position of the coordinates ('group','code') The shape and size of the protrusion 561 included in the portion may be determined to have a high degree of coincidence with the shape and size of the depression 512 included in the coupling portion of the third block 510, and the engagement value If it is less than the 1 threshold or above the predetermined second threshold, it is included in the coupling portion of the third block 510, such as the protrusions 571 and 581 included in the coupling portion of the second candidate block 570 or the third candidate block 580 It may be determined that the degree of matching with the shape and size of the recessed portion 512 is low, and when the engagement value is less than a predetermined second threshold, the recessed portion 591 included in the coupling portion of the fourth candidate block 590 and Likewise, it may be determined not to match the shape and size of the recessed portion 512 included in the coupling portion of the third block 510.

6 is a diagram schematically illustrating a process of setting a specific progress unit as a highlight unit according to an embodiment of the present invention.

Referring to FIG. 6, when a specific progress unit and at least one of a previous progress unit or a next progress unit of the specific progress unit are selected as the highlight progress unit 610, the processor 120 performs a predetermined first highlight. A process of modifying candidate data corresponding to the highlight progress unit 610 to fit the highlight section may be performed with reference to the rule data. In this case, FIG. 6 shows that a predetermined highlight unit selection symbol 601 is displayed in order to select a highlight progress unit, and the highlight unit selection process is started by selecting it, but the present invention is not limited thereto. It can be different.

In addition, the processor 120 determines whether there is at least one pre-progress candidate data determined in advance in correspondence with the previous progress unit 611 or the next progress unit 612 based on the highlight progress unit 610, ( 1) When at least one advance candidate data is present, at least a part of each of the advance highlight candidate data is modified with reference to predetermined second highlight rule data, and (2) when there is no advance candidate data Based on the highlight progress unit 610, it waits for the post progression candidate data corresponding to the previous progression unit 611 or the next progression unit 612 to be determined, and when post progression candidate data is determined, predetermined second highlight rule data A process of supporting correction of post-process candidate data determined with reference to may be performed. For example, the previous unit 611 of the highlight progress unit 610 is a unit that prepares to enter the highlight section, and the second highlight rule data corresponding thereto supports highlight sections such as jump progress and triple notes. Data to be added or modified in order to be added may be included, and the processor 120 may modify the corresponding unit 611 by referring to this.

The embodiments according to the present invention described above may be implemented in the form of program instructions that can be executed through various computer components and recorded in a computer-readable recording medium. The computer-readable recording medium may include program instructions, data files, data structures, etc. alone or in combination. The program instructions recorded in the computer-readable recording medium may be specially designed and configured for the present invention, or may be known and usable to those skilled in the computer software field. Examples of computer-readable recording media include magnetic media such as hard disks, floppy disks and magnetic tapes, optical recording media such as CD-ROMs and DVDs, and magnetooptical media such as floptical disks. , And a hardware computing device specially configured to store and execute program instructions such as ROM, RAM, flash memory, and the like. Examples of the program instructions include not only machine language codes such as those produced by a compiler, but also high-level language codes that can be executed by a computer using an interpreter or the like. The hardware computing device may be configured to operate as one or more software modules to perform processing according to the present invention, and vice versa.

In the above, the present invention has been described by specific matters such as specific elements and limited embodiments and drawings, but this is provided only to help a more general understanding of the present invention, and the present invention is not limited to the above embodiments. , Anyone with ordinary knowledge in the technical field to which the present invention pertains can make various modifications and variations from these descriptions.

Therefore, the spirit of the present invention is limited to the above-described embodiments and should not be defined, and all modifications that are equally or equivalent to the claims as well as the claims to be described later fall within the scope of the spirit of the present invention. I would say.

100: server 110: memory
120: processor
430: progress probability information column 480: match probability information column
51: candidate position in the progress axis direction 52: candidate position in the channel axis direction
510: A geometric structure determined in advance in correspondence with pre-specified progress candidate data or pre-specified matching data
520, 530, 540, 550: geometric structure candidate group of candidate positions in the direction of the progress axis
560, 570, 580, 590: geometrical structure candidate group of candidate positions in the channel axis direction
610: Highlight progress section 611: Highlight progress section
612: Progress section after highlight

Claims (20)

As a way to support composition in a puzzle way,
(a) Music progress unit-The progress unit is at least one measure or divided into a predetermined unit-When selection information for a specific progress unit and cluster information related to specific music development corresponding thereto are obtained, the computing device A, determining at least one candidate data corresponding to the specific music development related cluster information;
(b) displaying, by the computing device, a predetermined geometric structure corresponding to each of the candidate data; And
(c) when a specific geometric structure is selected from among the geometric structures, determining, by the computing device, specific candidate data corresponding to the specific geometric structure from among the candidate data;
Including, the puzzle method composition support method. The method of claim 1,
Before step (a),
(a0) When information on a plurality of existing music is obtained as learning data, the computing device learns progress information of at least one of rhythm, chord, and melody corresponding to each of the existing music, and a plurality of reference progress information- The plurality of reference progress information includes information on at least some of a plurality of rhythms, a plurality of chords, and a plurality of melody that may come to each of a plurality of neighboring progress units, and each of the plurality of reference progress information includes the plurality of Each of the reference progress information corresponding to each progress probability information corresponding to a selectable probability value-is obtained, and the plurality of reference progress information and the plurality of progress probability information corresponding thereto are stored in a predetermined database. step;
In addition,
In step (a),
In determining the candidate data, the computing device determines whether there is pre-specific progress candidate data determined in advance corresponding to a previous or next progress unit of the specific progress unit, and the pre-specified progress candidate data exists. A method for supporting composition of a puzzle method, characterized in that the candidate data is determined by additionally referring to a plurality of reference progress information corresponding to this, a plurality of progress probability information corresponding thereto, and the pre-specific progress candidate data. The method of claim 2,
In step (b),
The computing device determines an order of displaying the geometrical structure or displays the shape of the geometrical structure with reference to information on each of the progression probabilities corresponding to each of the candidate data. Way. The method of claim 3,
In step (b),
The geometric structure displayed corresponding to each of the candidate data and the geometric structure displayed corresponding to the pre-specific progress candidate data are in the form of a two-dimensional or three-dimensional block, and a first block that is displayed corresponding to the pre-specified progress candidate data And each second block displayed in correspondence with the candidate data has at least one coupling portion-the coupling portion includes at least one protrusion or depression,
The computing device includes: (i) information on the shape of the first block, (ii) a plurality of reference progress information determined on the premise of the shape of the first block, and (iii) a plurality of progress probability corresponding thereto. With reference to information, an engagement value of the engagement portion of the first block and the engagement portion of the second block-The engagement value is a combination of a line or plane corresponding to the entire engagement portion of each of the first block and the second block. Is the ratio of the formed line or surface, and as the probability value corresponding to the plurality of progress probability information increases, the engagement value has a larger value, and the protrusion or the depression of the second block is determined according to the engagement value. Characterized in determining the shape, the puzzle method composition support method. The method of claim 2,
After step (c) above,
(d) When information for selecting at least one highlight progress unit from among the specific progress unit and the previous or next progress unit of the specific progress unit is obtained, the computing device (i) selects candidate data corresponding to the highlight progress unit. A process of modifying with reference to predetermined first highlight rule data, and (ii) (1) at least one pre-progress candidate data that is determined in advance in correspondence with a previous or subsequent progress unit based on the highlight progress unit. In this case, at least a part of each of the pre-progress candidate data is corrected with reference to predetermined second highlight rule data, and (2) if the pre-progress candidate data does not exist, before or after the highlight progress unit Waiting for the post process candidate data corresponding to the progress unit to be determined, and if the post progress candidate data is determined later, a process of supporting the post process candidate data to be modified with reference to the second highlight rule data is performed. How to apply for puzzle-based composition. The method of claim 1,
In step (a),
The computing device additionally acquires selection information for a specific channel corresponding to two or more of a rhythm, a chord, and a melody, and stores the candidate data corresponding to the specific music development-related cluster information and the selection information for the specific channel. A method of supporting composition of a puzzle method, characterized in that to determine. The method of claim 6,
Before step (a),
(aa) When information on a plurality of existing music is obtained as learning data, the computing device learns information on a combination of two or more of rhythm, chord, and melody corresponding to a predetermined unit of progress for each of the existing music. , A plurality of harmony information-the plurality of harmony information includes information on at least some of a plurality of rhythms, a plurality of chords, and a plurality of melody that may be included in the predetermined progress unit, each of the plurality of harmony information Acquiring-and storing the plurality of matching information and the plurality of matching probability information corresponding to the matching information in a predetermined database;
In addition,
In step (a),
In determining the candidate data, the computing device determines whether there is pre-specific matching candidate data determined in advance corresponding to the specific progress unit in some of the specific channels, and the pre-specific matching candidate data exists. The method for supporting composition of a puzzle method, characterized in that the candidate data is determined by additionally referring to a plurality of matching information corresponding thereto, a plurality of matching probability information corresponding thereto, and the pre-specific matching candidate data. The method of claim 7,
In step (b),
The computing device, by referring to information on each of the specific matching probabilities corresponding to each of the candidate data, determines an order of displaying the geometric structure or displays the shape of the geometric structure. How to apply. The method of claim 8,
In step (b),
The geometric structure displayed corresponding to each of the candidate data and the geometric structure displayed corresponding to each of the pre-specific matching candidate data are in the form of a two-dimensional or three-dimensional block, and a third displayed corresponding to the pre-specific matching candidate data Each fourth block displayed in correspondence with the block and the candidate data is characterized in that each has at least one coupling portion-the coupling portion includes at least one protrusion or depression,
The computing device includes: (i) information on the shape of the third block, (ii) a plurality of matching information determined on the premise of the shape of the third block, and (iii) a plurality of matching probability information corresponding thereto. With additional reference, the engagement value of the engagement portion of the third block and the engagement portion of the fourth block-The engagement value is a line or surface corresponding to the entire engagement portion of each of the third block and the fourth block. It is the ratio of the line or surface in which the connection is made among the plurality, and as the probability value corresponding to the plurality of matching probabilities increases, the meshing value has a larger value-and the protrusion or the depression of the second block according to the meshing value Characterized in determining the form of wealth, puzzle method composition support method. The method of claim 1,
After step (b),
(b1) When a user selects a specific geometric structure among the geometric structures, the computing device supports to output or output at least one sound with reference to specific candidate data corresponding to the specific geometric structure. Step to do;
In addition, the puzzle method composition support method comprising. As a computing device that supports composition in a puzzle method,
At least one memory for storing instructions; And
At least one processor configured to execute the instructions;
Including,
The processor,
(I) Music progress unit-The progress unit is at least one measure or divided into a predetermined unit-When selection information for a specific progress unit and cluster information related to specific music development corresponding thereto are obtained, the specific A process of determining at least one candidate data corresponding to cluster information related to music development; (II) a process of displaying a predetermined geometric structure corresponding to each of the candidate data; And (III) when a specific geometric structure is selected from among the geometric structures, a process of determining specific candidate data corresponding to the specific geometric structure among the candidate data;
Computing device that supports puzzle composition. The method of claim 11,
Prior to the above (I) process,
(I-0) When information on a plurality of existing music is obtained as learning data, the processor learns progress information of at least one of rhythm, chord, and melody corresponding to each of the existing music, and a plurality of reference progress information -The plurality of reference progress information includes information on at least some of a plurality of rhythms, a plurality of chords, and a plurality of melody that may come to each of a plurality of neighboring progress units, and each of the plurality of reference progress information includes: Each of the plurality of reference progress information corresponds to each progress probability information corresponding to a selectable probability value-and stores the plurality of reference progress information and the plurality of progress probability information corresponding thereto in a predetermined database The process of doing;
Additionally,
In the above (I) process,
In determining the candidate data, the processor determines whether there is pre-specific progress candidate data determined in advance corresponding to the previous or next progress unit of the specific progress unit, and if the pre-specific progress candidate data exists, A computing device supporting puzzle-based composition, characterized in that the candidate data is determined by additionally referring to a plurality of reference progress information, a plurality of progress probability information corresponding thereto, and the pre-specific progress candidate data. The method of claim 12,
In the above (II) process,
The processor, by referring to information on each of the progress probabilities corresponding to each of the candidate data, determines an order of displaying the geometric structure or displays the shape of the geometric structure. Device. The method of claim 13,
In the above (II) process,
The geometric structure displayed corresponding to each of the candidate data and the geometric structure displayed corresponding to the pre-specific progress candidate data are in the form of a two-dimensional or three-dimensional block, and a first block that is displayed corresponding to the pre-specified progress candidate data And each second block displayed in correspondence with the candidate data has at least one coupling portion-the coupling portion includes at least one protrusion or depression,
The processor includes (i) information on the shape of the first block, (ii) a plurality of reference progress information determined on the premise of the shape of the first block, and (iii) a plurality of progress probability information corresponding thereto. With reference to, the engagement value of the engagement portion of the first block and the engagement portion of the second block-The engagement value is a combination of a line or plane corresponding to the entire engagement portion of each of the first block and the second block. It is the ratio of the formed line or surface, and the larger the probability value corresponding to the plurality of progress probability information, the larger the meshing value is-and the shape of the protrusion or the depression of the second block according to the meshing value Characterized in that to determine the, puzzle method composition support computing device. The method of claim 12,
After the above (III) process,
(IV) When information for selecting at least one highlight progress unit from among the specific progress unit and the previous or next progress unit of the specific progress unit is obtained, the processor (i) determines candidate data corresponding to the highlight progress unit. A process of modifying with reference to the first highlight rule data of, and (ii) when there is (1) at least one pre-progress candidate data that is determined in advance in correspondence with a previous or subsequent progress unit based on the highlight progress unit. At least a part of each of the pre-progress candidate data is corrected with reference to predetermined second highlight rule data, and (2) if the pre-progress candidate data does not exist, proceeds before or after the highlight progress unit. Waiting for the post process candidate data corresponding to the unit to be determined, and when the post progress candidate data is determined later, a process of supporting the post process candidate data to be modified with reference to the second highlight rule data is performed. A computing device that supports compositional, puzzle-based compositions. The method of claim 11,
In the above (I) process,
The processor additionally acquires selection information for a specific channel corresponding to two or more of a rhythm, a chord, and a melody, and determines the candidate data corresponding to the specific music development related cluster information and the selection information for the specific channel. It characterized in that the, puzzle method composition support computing device. The method of claim 16,
Prior to the above (I) process,
(I-00) When information about a plurality of existing music is acquired as learning data, the processor learns information on a combination of two or more of rhythm, chord, and melody corresponding to a predetermined unit of progress for each of the existing music. Thus, a plurality of harmony information-The plurality of harmony information includes information on at least some of a plurality of rhythms, a plurality of chords, and a plurality of melody that may be included in the predetermined progress unit, each of the plurality of harmony information Is a process of acquiring-and storing the plurality of matching information and the plurality of matching probability information corresponding to the matching information in a predetermined database;
Additionally,
In the above (I) process,
In determining the candidate data, the processor determines whether pre-specific matching candidate data corresponding to the specific progress unit exists in some channels of the specific channels, and the pre-specific matching candidate data exists. A computing device supporting puzzle method composition, characterized in that the candidate data is determined by additionally referring to a plurality of matching information corresponding thereto, a plurality of matching probability information corresponding thereto, and the pre-specific matching candidate data. The method of claim 17,
In the above (II) process,
The processor, by referring to information on each of the specific matching probabilities corresponding to each of the candidate data, determines an order of displaying the geometrical structure or displays the shape of the geometrical structure. Computing device. The method of claim 18,
In the above (II) process,
The geometric structure displayed corresponding to each of the candidate data and the geometric structure displayed corresponding to each of the pre-specific matching candidate data are in the form of a two-dimensional or three-dimensional block, and a third displayed corresponding to the pre-specific matching candidate data Each fourth block displayed in correspondence with the block and the candidate data is characterized in that each has at least one coupling portion-the coupling portion includes at least one protrusion or depression,
The processor includes (i) information on the shape of the third block, (ii) a plurality of matching information determined on the premise of the shape of the third block, and (iii) a plurality of matching probability information corresponding thereto. For further reference, the engagement value of the engagement portion of the third block and the engagement portion of the fourth block-The engagement value is from a line or plane corresponding to the entire engagement portion of each of the third block and the fourth block. It is the ratio of the line or surface in which the coupling is formed, and the greater the probability value corresponding to the plurality of matching probability, the larger the engagement value is-and the protrusion or the depression of the second block is determined according to the engagement value. Computing device that supports composition of a puzzle method, characterized in that the shape is determined. The method of claim 11,
After the above (II) process,
(II-1) When a selection by the user for a specific geometric structure among the geometric structures is detected, the processor may output or output at least one sound with reference to specific candidate data corresponding to the specific geometric structure. Supporting process;
Computing device that supports the composition of the puzzle method to further perform.

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