The present invention relates generally to performance guide apparatus and programs which, in a performance of an electronic keyboard instrument, visually indicate, to a human player, information necessary for the keyboard instrument performance, such as keys to be depressed and respective depression timing of the keys. More particularly, the present invention relates to an improved performance guide apparatus and program for providing a visual performance guide display that not only allows a human player to intuitively predict with ease each key to be next depressed and depression timing of the key but also is enjoyable to see so that the human player can enjoy playing the keyboard instrument.
Performance guide apparatus and programs have been known which visually indicate, to a human player who plays an electronic musical instrument provided with a keyboard as a performance operator section (i.e., electronic keyboard instrument), each key to be depressed (i.e., each position to be operated on the keyboard) and depression timing of the key. Various types of such performance guide apparatus for visually indicating, to a human player, keys to be depressed and respective depression timing of the keys have been proposed, an example of which is disclosed in Japanese Patent Application Laid-open Publication Nos. 2000-081882 or 2002-372967. In the performance guide apparatus disclosed in the No. 2000-081882 publication, a display device, having a linear array of a plurality of display elements (e.g., LEDs) provided in corresponding relation to the keys of the keyboard, is disposed near the keyboard; such a display device will hereinafter be referred to as “linear display device” for convenience of description. In the disclosed performance guide apparatus, the display elements corresponding to the keyboard keys are sequentially illuminated and deilluminated (i.e., turned on and off) in accordance with predetermined performance timing.
Further, in the performance guide apparatus disclosed in the No. 2002-372967 publication, a display device, having a plurality of display members provided in corresponding relation to the keys of the keyboard (such as rectangular liquid crystal display members with their respective lengths extending in the longitudinal direction of the corresponding keys, or display member comprising a plurality of display elements arranged or arrayed in the longitudinal direction of the corresponding keys), is disposed near the keyboard; such a display device will hereinafter be referred to as “planar display device” for convenience of description. In the disclosed apparatus, a performance guide is provided by scrolling the display on the display member, corresponding to the key to be depressed, in the longitudinal direction of the key in accordance with performance timing of that key to thereby visually indicate depression timing of the key.
However, with the first-mentioned conventional performance guide by the linear display device having the plurality of linearly-arranged display elements, the display elements, disposed at positions corresponding to the keys to be depressed, are merely illuminated in accordance with the depression timing, and thus, it is difficult for the human player to know in advance each key to be next depressed and depression timing of the key. Consequently, performance operation by the human player tends to become discrete and clumsy or unsmooth operation, like a “whack-a-mole game”, where the human player merely depresses each key to be next depressed in accordance with the illumination of the corresponding display element. Thus, the conventional performance guide would present the problem that performance operation by the human player can hardly become smooth and can not improve satisfactorily. The second-mentioned conventional performance guide by the planar display device having the plurality of display members is advantageous in that the human player can easily know in advance each key to be next depressed and depression timing of the key, but this performance guide would present the inconvenience that, because only scrolling the display tends to be very boring and unenjoyable, it is extremely difficult to allow the human player, such as a child or beginner in particular, to enjoy playing the keyboard with interest for a considerably long time.
Further, because the aforementioned conventional performance guide technique via the linear display device or planar display device merely indicates the key to be next depressed and depression timing of the key, it is difficult from the conventional performance guide technique to provide a clear visual performance guide display for a special rendition style, such as cross-under-fingering, cross-over-fingering or approach-fingering, that is performance operation intended to achieve a smoother performance.
In view of the foregoing, it is an object of the present invention to provide an improved performance guide apparatus and program which can provide a human player with an easy-to-follow guide display of information necessary for a keyboard performance, such as keys to be depressed and depression timing of the keys. More specifically, the present invention seeks to provide a performance guide apparatus and program which can effect a guide display of information necessary for a keyboard performance, including information of not only an ordinary rendition style but also a special rendition style such as cross-under-fingering, cross-over-fingering or approach-fingering, by dynamically drawing a given two-dimensional trajectory from a position corresponding to a key to be currently depressed to another position corresponding to another key to be next depressed.
In order to accomplish the above-mentioned object, the present invention provides an improved performance guide apparatus, which comprises: a performance operation section including a plurality of performance operators; a two-dimensional display section provided near the performance operation section; an acquisition section that acquires performance data; and a display control section that, in accordance with the acquired performance data, controls a display on the two-dimensional display section so as to indicate each of the performance operators to be operated in accordance with a progression of a performance. In accordance with the passage of time, the display control section causes the two-dimensional display section to effect a dynamic visual display moving, in a given two-dimensional trajectory, from a first display position corresponding to the performance operator to be currently depressed to a second display position corresponding to the performance operator to be next depressed.
The two-dimensional display section is provided near the operator section that is in the form of, for example, a keyboard, and, in accordance with the acquired performance data, the display on this display section is controlled so as to indicate each of the performance operators to be operated in accordance with a progression of a performance. In accordance with the passage of time, the display control section causes the two-dimensional display section to effect a dynamic visual display moving, and in a given two-dimensional trajectory, from a first display position corresponding to the performance operator to be currently depressed to a second display position corresponding to the performance operator to be next depressed. In this way, a human player can intuitively predict with ease the key to be next depressed and depression timing of the next key, by following the visual display that, for example, draws a so-called bouncing-ball-like two-dimensional trajectory appearing as if a ball were bouncing. Further, with the performance guide display by the non-conventional or novel bouncing-ball-like two dimensional trajectory display, the human player can enjoy playing the keyboard for a considerably long time, without getting bored, as if the player were following a bouncing ball.
According to another aspect of the present invention, there is provided a performance guide apparatus which comprises: a performance operation section including a plurality of performance operators; a two-dimensional display section provided near the performance operation section; an acquisition section that acquires performance data; a determination section that, on the basis of the performance data acquired by the acquisition section, determines a performance style based on at least one of cross-under-fingering, cross-over-fingering and approach-fingering rendition styles a first display control section that controls the two-dimensional display section to display a performance operator corresponding to at least one of a reference finger, fixed finger and moving finger, specified in accordance with the performance style determined by the determination section, in a display style different from a display style of a performance operator that is to be next operated according to another performance style based on another rendition style than the at least one rendition style; and a second display control section that, in accordance with the acquired performance data, controls the two-dimensional display section to indicate a performance operator to be operated in accordance with predetermined operation timing. The second display control section controls the two-dimensional display section to draw a given two-dimensional trajectory that, in accordance with passage of time, moves to a performance operator to be next operated.
Such arrangements can provide the human player with clear performance guide displays for special rendition styles, such as cross-under-fingering, cross-over-fingering and approach-fingering rendition styles, that are each performance operation intended for a smoother performance. Particularly, by effecting a performance guide display with a given two-dimensional trajectory, the present invention can provide clear performance guide displays for special rendition styles, such as cross-under-fingering, cross-over-fingering and approach-fingering.
The present invention may be constructed and implemented not only as the apparatus invention as discussed above but also as a method invention. Also, the present invention may be arranged and implemented as a software program for execution by a processor such as a computer or DSP, as well as a storage medium storing such a software program. Further, the processor used in the present invention may comprise a dedicated processor with dedicated logic built in hardware, not to mention a computer or other general-purpose type processor capable of running a desired software program.
The following will describe embodiments of the present invention, but it should be appreciated that the present invention is not limited to the described embodiments and various modifications of the invention are possible without departing from the basic principles. The scope of the present invention is therefore to be determined solely by the appended claims.
For better understanding of the objects and other features of the present invention, its preferred embodiments will be described hereinbelow in greater detail with reference to the accompanying drawings, in which:
The ROM 2 has prestored therein various programs to be executed by the CPU 1 and various data. The RAM 3 is used as a working memory for temporarily storing various data generated as the CPU 1 executes a predetermined program, as a memory for storing the currently-executed program and data related thereto, and for various other purposes. Predetermined address regions of the RAM 3 are allocated to various functions and used as registers, flags, tables, memories, etc. Performance operator section 4A is, for example, in the form of a keyboard having a plurality of keys for designating pitches of tones to be generated and a plurality of key switches provided in corresponding relation to the keys. The performance operator section (e.g., keyboard) 4A can be used not only in a manual performance by a user or human player, but also as means for setting various performance parameters, such as those related to tone colors and effects to be used in the electronic keyboard instrument, input means for selecting performance data to be subjected to the performance guide processing (i.e., performance data for which a visual performance guide is to be provided), etc. The detection circuit 4 detects depression and release of the keys on the performance operator section 4A to thereby produce corresponding detection outputs. Setting operator (e.g., switch) section 5A includes, for example, parameter setting switches for setting various performance parameters to be used in a manual performance etc., performance guide setting switches for determining whether or not to effect a visual performance guide, data selection switches for selecting performance data to be subjected to the performance guide processing (i.e., performance data for which a visual performance guide is to be provided), and part selection switches for selecting a performance part to be subjected to the performance guide processing (e.g., from among a right-hand performance part, left-hand performance part, etc.). The performance operator section 5A may of course include various other operators, such as a numerical-value-data inputting key pad and letter (or character)-data inputting keyboard operable to select, set and control a tone pitch, tone color, effect and the like and a mouse for manipulating a predetermined pointing device displayed on a display section 6A. The detection circuit 5 detects operating states of the above-mentioned switches and outputs switch information, corresponding to the detected operating states, to the CPU 1 via the data and address bus 1D.
The display circuit 6 visually displays, on the display section 6A that is, for example, in the form of a liquid crystal display (LCD) panel or CRT, types and current setting states of performance parameters, a list of performance data, musical scores of music pieces for which a visual performance guide is to be provided, controlling states of the CPU 1, and various other information. By referring to the various information displayed on the display section 6A, the user or human player can, for example, readily set various performance parameters to be used in a manual performance and select performance data of a music piece for which a visual performance guide is to be provided. Further, the display circuit 6 can control a display on a planar display section 6B, in addition to screen control of the above-mentioned display section 6A, to thereby provide a performance guide. Namely, in the instant embodiment, the planar display section 6B is used as a display device for guide-displaying (i.e., displaying for performance guide purposes) information necessary for a keyboard performance, such as keys to be depressed and depression timing of the keys.
Referring back to
The external storage device 10 is provided for storing various data, such as performance data (i.e., performance data files), as well as control-related data, such as various control programs to be executed by the CPU 1. Where a particular control program is not prestored in the ROM 2, the control program may be prestored in the external storage device (e.g., hard disk device) 10, so that, by reading the control program from the external storage device 10 into the RAM 3, the CPU 1 is allowed to operate in exactly the same way as in the case where the particular control program is stored in the program memory 2. This arrangement greatly facilitates version upgrade of the control program, addition of a new control program, etc. The external storage device 10 may comprise any of various removable-type media other than the hard disk (HD), such as a flexible disk (FD), compact disk (CD-ROM or CD-RAM), magneto-optical disk (MO) and digital versatile disk (DVD), or a semiconductor memory, such as a flash memory.
The MIDI interface (I/F) 11 is provided for inputting performance data of the MIDI format (i.e., MIDI data) from externally-connected other MIDI equipment 11A or the like to the electronic keyboard instrument, and for outputting performance data of the MIDI format (i.e., MIDI data) from the electronic keyboard instrument to the other MIDI equipment 11A or the like. The other MIDI equipment 11A may be one provided with an operator section of any type (or operating type), such as the keyboard type, stringed instrument type, wind instrument type, percussion instrument type or body-attachable type, as long as it can generate MIDI data in response to operation by a user or human player of the equipment. The MIDI interface 11 may be a general-purpose interface rather than a dedicated MIDI interface, such as RS-232C, USB (Universal Serial Bus) or IEEE1394, in which case other data than MIDI event data may be communicated (i.e., transmitted and received) at the same time. In the case where any one of the above-mentioned general-purpose interfaces is used as the MIDI interface 11, the other MIDI equipment 11A may be arranged to communicate other data than MIDI event data. Of course, the performance data may be in any other format than the MIDI format, in which case the MIDI interface 11 and other MIDI equipment 11A are constructed in conformity with the data of the other format. The communication interface (I/F) 12 is an interface connected to a wired or wireless communication network X, such as a LAN, the Internet, telephone line network, etc., via which it can be connected to a desired server computer 12A to receive various desired control programs and data from the server computer 12A. Namely, where any control program or data is not stored in the ROM 2 or external storage device (e.g., hard disk) 10, the communication interface 12 is used to download the control program or data from the server computer 12A. It should be appreciated that the communication interface 12 may be of either or both of wired and wireless types.
Furthermore, the electronic keyboard instrument of the present invention is not limited to the type where the performance operator section 4A, display section 6A, tone generator circuit 7, etc. are incorporated together within the body of the electronic keyboard instrument; for example, the electronic keyboard instrument may be constructed such that the above-mentioned components are provided separately and interconnected via communication facilities, such as a MIDI interface, various networks and/or the like. Moreover, the electronic keyboard instrument of the present invention may be applied to any desired types of apparatus or equipment other than electronic keyboard instruments as described above, such as personal computers, karaoke apparatus, game apparatus, portable telephones or portable communication terminals like PDAs. Further, the present invention may be applied to mechanical pianos provided with a string striking mechanism combined with a performance data reproducing device, without being limited to electronic musical instruments that electronically generate tones. Particularly, the present invention is suitable for application to player pianos having a performance data reproducing device incorporated therein. Such apparatus or equipment, like portable communication terminals, connected to communication networks need not have their function completed by themselves, and the present invention is suited to applications where a visual performance guide is provided by receiving performance data through download or streaming-reproduction from a server computer.
Next, a description will be made about a specific example of the performance guide display on the planar display section 6B shown in
In the case where the performance guide display is to be effected to instruct the human operator to sequentially depress the keys in the pitch order of “C”→“D”→“G”→“E” as illustrated in
As set forth above, the performance guide apparatus of the present invention adjusts or controls illumination states of the individual LEDs on the planar display section 6B to provide a visual performance guide by a display that dynamically draws a so-called “bouncing-ball-like” two-dimensional trajectory (or “bouncing display”) appearing as if a ball were bouncing. However, if the time length of the bouncing trajectory display, appearing as if a ball were bouncing from the key to be currently depressed (i.e., current key) to the key to be next depressed (i.e., next key), is too short, the human operator may fail to accurately follow the bouncing display so that his or her operation on the keyboard may not be executed in time. Thus, when the note length of the current key is long, the bouncing display is performed for as long a time as possible, using a predetermined trajectory function such that the bouncing display time length (i.e., length in the time-axis direction) from the current key to the next key can be made proportional to the note length of the current key. In the case where the performance guide display is performed so that the keys are depressed in the pitch order of “C”→“D”→“G”→“E” as illustrated in
Preferably, the LED that becomes a landing point of the above-mentioned bouncing display, i.e. the lowermost LED of the LED group 6Ba corresponding to the key to be next depressed, is indicated in advance in a different display style (e.g., in a different color or different brightness) from the above-mentioned display drawing in advance a two-dimensional bouncing trajectory; the different display style may be blinking of the LED. For example, when the performance guide indication is to be effected for the section from the key of “D” to the key of “G” as indicated by arrow “3” in the illustrated example of
Only one of the LEDs falling on the two-dimensional trajectory path may be illuminated at a time or simultaneously, but, if it is likely that the trajectory to be dynamically drawn will not be displayed smoothly with only one LED illuminated at a time, two or more adjoining ones of the LEDs falling on the trajectory path may be illuminated simultaneously to permit a smoother trajectory display. In this case, the two or more LEDs to be illuminated simultaneously need not necessarily be in the same display style (e.g., same brightness).
With reference to
At step S1, a performance data set or file of a music piece for which a visual performance guide is to be provided is selected in response to operation, by the human player, of any of the data selection switches, and the thus-selected performance data file is read out from the external storage device 10 or the like loaded into a memory, such as the RAM 3. At step S2, the read performance data file is analyzed so as to create a performance guide data set (not shown). The performance guide data set is created to cover the entire music piece (i.e., all notes of the music piece) for a particular performance part to be subjected to the performance guide, and the performance guide data set comprises two different kinds of data: trajectory display data; and advance indication data. The trajectory display data include various data stored in corresponding relation to all of the notes included in the performance part to be subjected to the performance guide and in accordance with the passage of a performance time of the music piece in question, and the various data include data indicative of a start point position and display shift start timing of the given two-dimensional trajectory, an end point position and shift end timing of the given two-dimensional trajectory, particular kind of a trajectory function to be used to effect the display that dynamically draw the given two-dimensional trajectory (such as a triangular waveform, parabolic curve, elongated semiellipse; the trajectory function data is used only in a case where the trajectory shape is to be varied, during the guide, from a default shape as will be later described), parameters of the trajectory function (such as a bouncing height; the trajectory function parameter data is used only in a case where the bouncing height is to be varied from a default height). Namely, the trajectory display data are data for dynamically drawing the given two-dimensional trajectory that moves from a position corresponding to a key to be currently depressed to a position corresponding to a key to be next depressed. The advance indication data, on the other hand, include various other data stored in corresponding relation to the notes included in the performance part to be subjected to the performance guide and in accordance with the passage of a performance time of the music piece in question, and the various other data include data indicative of a position, display start timing and display end timing of each advance indication. Namely, the advance indication data are data for indicating in advance a position of each key to be next depressed. Operations for creating such performance guide data will be later described in detail with primary reference to
At step S3, the visual performance guide is displayed on the planar display section 6B, on the basis of the created performance guide data, for the performance part for which an instruction for providing the performance guide has been given by the user (i.e., performance part to be subjected to the performance guide). Namely, first, on the basis of the advance indication data, the LED corresponding to the position to be indicated in advance is first illuminated, in accordance with the display start timing, in a different display style from the trajectory display. Then, on the basis of the trajectory display data, the LED corresponding to the trajectory start point position is illuminated in accordance with the shift start timing. Then, LEDs, provided at positions corresponding to coordinate positions calculated by trajectory function calculations are sequentially illuminated in accordance with the passage of time; in this case, the last-illuminated LED may be deilluminated in response to illumination of one particular LED. Then, the display style of the LED corresponding to the end point position having been indicated in advance is changed to agree with the display style of the trajectory display. In this manner, the performance guide display is effected, on the basis of the above-mentioned trajectory display data, for the performance part for which the instruction for providing the performance guide has been given, while an automatic performance is executed, on the basis of the corresponding performance data, for each other performance part for which no instruction for providing the performance guide has been given. As a consequence, the human player can appropriately perform key operation on the keyboard to an automatic performance for a desired performance part of a desired music piece by following the performance guide display based on the given two-dimensional trajectory dynamically drawn on the planar display section 6B.
Further, the following paragraphs describe a “performance guide data creation process” carried out in the “performance guide processing” (see step S2 of
At step S11, trajectory display data representative of a descending trajectory and advance indication data are created and stored for the note of the key to be first depressed. Namely, trajectory display data to display a trajectory indicated by arrow “1” of
The performance guide display may be effected in any other suitable styles than the above-described style (see
With the display style of
By dynamically drawing a given two-dimensional trajectory on the planar display section 6B of
First, consider a case where a performance guide display is to be effected so as to instruct depression of keys, for example, in the pitch order of “C”→“D”→“G”→“E”, as shown in
Then, as indicated by arrow “4”, the performance guide indication is effected for the key of the pitch “F”, to be subjected to “cross-under-fingering” rendition style operation, by sequentially controlling, prior to depression timing of the key of the pitch “F”, the illumination states of the LEDs, located beneath the row of reference positions, of the LED groups 6Ba corresponding to the keys of the pitches “C”, “C#(D ♭)”, “D”, “D#(E ♭)”, “E” and “F”. More specifically, the reference-position LED of the LED group 6Ba corresponding to the key of the pitch “C” is first illuminated, and then predetermined LEDs of the LED groups 6Ba corresponding to the keys of the pitches “C”, “C#(D ♭)”, “D”, “D#(E ♭)”, “E” and “F” are illuminated so as to dynamically draw a given two-dimensional trajectory that first descends away from the reference position of the LED groups 6Ba corresponding to the key of the pitch “C” and then moves upward to the reference-position LED of the LED group 6Ba corresponding to the key of the pitch “F”, as indicated by arrow “4”. Namely, in this case, the end position of the performance guide indication for the most-recently-operated (i.e., last-operated) key of the pitch “E” is not in succession with the start position of the performance guide indication for the key of the pitch “F” to be next depressed, and the performance guide display is effected by dynamically drawing a given two-dimensional trajectory which, in accordance with the passage of time, moves downwardly away from the reference position corresponding to the key of the pitch “C”, last operated with the thumb that is to be subjected to cross-under-fingering operation, toward the reference position corresponding to the key of the pitch “F” to be next depressed. Thus, the two-dimensional guiding trajectory, moving below (i.e., in the figure, along a region lower than ) the row of reference positions, can indicate, in a manner easy to visually follow, that the key depression operation is to be performed with a “cross-under-fingering” rendition style where the finger to be used for depressing the key to be next depressed should be caused to pass under another finger.
When a performance guide display is to be effected to instruct depression of keys, for example, in the pitch order of “F”→“E”→“D”→“C”, as shown in
At step S21, trajectory display data representative of a descending trajectory and advance indication data are created and stored for the note of the key to be first depressed. A next step S22, advance indication data is created for the note of the key to be next depressed. At step S23, it is determined, on the basis of fingering data, which of ordinary, cross-under-fingering, cross-over-fingering and approach-fingering rendition styles is to be applied. Such a rendition style determination is made in accordance with rendition style determination rules to be explained below and on the basis of the fingering data that are, for example, included in the performance data or determined on the basis of the performance data. First, in the case of a right-hand performance, it is determined that the rendition style to be applied is “cross-under-fingering” if a note following a note to be performed with another finger than the thumb is higher in pitch than the above-mentioned note to be with another finger than the thumb. Second, it is determined that the rendition style to be applied is “cross-over-fingering” if a note following a note to be performed with the thumb is lower in pitch than the above-mentioned note to be performed with the thumb and is to be performed with another finger than the thumb. Third, it is determined that the rendition style to be applied is “approach-fingering” if a note following a note to be performed with the thumb is of a high pitch close to the pitch of the above-mentioned note to be performed with the thumb and is to be performed with a finger, such as the medicinal or little finger, remote from the thumb. The rendition style determination rules are not limited to the aforementioned. Further, the rendition style to be applied may be determined in any other suitable manner that is not based on particular rendition style determination rules. For example, data each indicative of a rendition style may be included in advance in the performance data, and the rendition style to be applied may be determined by referring to such rendition style data.
At step S24, respective parameters of the start and end point positions of a trajectory are determined on the basis of the performance data. If, for example, any one of cross-under-fingering, cross-over-fingering and approach-fingering rendition styles has been determined as the rendition style to be applied, the reference-position LED of the LED group 6Ba, corresponding to the key where the reference-position LED of at least one of the thumb, fixed finger and moving finger has already been placed, is illuminated in a predetermined display style a predetermined time (that may be either a fixed time or a time variable depending on the note length of the preceding note) before the performance timing of the key to be performed with the rendition style. Also, parameters of the trajectory start point and end point are determined such that a two-dimensional trajectory is drawn from the illuminated reference-position LED to the reference-position LED of the LED group 6Ba corresponding to the key to be depressed with the finger that should be cause to pass under or pass over another key to or approach the key to be next depressed. Note that, if the rendition style to be applied is an ordinary rendition style, the parameters of the start point and end point may be determined in the manner already explained above (see step S13 of
If an ordinary rendition style and special rendition style are guide-displayed in combination in the same display style, the human player might get confused, and hence, there is a need to appropriately modify the display style. Thus,
Section (a) of
The display styles for the thumb (reference finger), fixed finger and moving finger may be differentiated from the display style for the other fingers by displaying the reference-position LEDs of the LED groups 6Ba corresponding to the thumb (reference finger), fixed finger and moving finger in different brightness, blinking patterns or the like, rather than in different colors, from the reference-position LEDs of the LED groups 6Ba corresponding to the other keys. Needless to say, the display styles for the reference finger, fixed finger and moving finger are differentiated from one another.
Where one finger is to serve as two or more of the reference, fixed and moving fingers, it is preferable that these two or more fingers be displayed in a particular display style representing all of the types of the two or more fingers. For example, where one finger is to serve as the reference and moving fingers, that the one finger is the reference finger may be indicated in a different color, and that the one finger is also the moving finger may be indicated in a blinking pattern.
Needless to say, the given two-dimensional trajectory to provide a visual performance guide for any one of special rendition styles, such as cross-under-fingering, cross-over-fingering and approach-fingering, may be differentiated in display style from trajectories for ordinary rendition styles.
Namely, according to the second embodiment having been set forth above, at least one of special rendition styles, i.e. cross-under-fingering, cross-over-fingering and approach-fingering, is determined, the display style for the predetermined LED corresponding to the key to be operated, in the determined special rendition style, by at least one of the thumb (reference finger), fixed finger and moving finger is differentiated from the display style for the LEDs corresponding to the other keys to be operated in ordinary rendition styles, and the finger to be manipulated through cross-under-fingering, cross-over-fingering or approach-fingering is displayed by drawing a two-dimensional trajectory. Such arrangements can visually indicate, to the human player, not only ordinary rendition styles but also special rendition styles, such as cross-under-fingering, cross-over-fingering and approach-fingering, through performance guide displays.
Further, whereas the planar display section 6B employed in the instant embodiment has been described above as including LED groups, each comprising an array of a plurality of (e.g., 12) LEDs, provided in corresponding relation to the keys of the keyboard, the present invention is not so limited. For example, the planar display section 6B may include a plurality of arrays of LED groups 6Ba per key, or it may be in the form of a dot-matrix type LED display device, LCD display device or any other suitable type of display device. Needless to say, if a greater number of such display elements are provided in higher density on the display section 6B, a smoother trajectory display is permitted. Therefore, the planar display section 6B may be implemented by an LCD display device comprising, for example, a single large-size display panel. However, such a large-size display panel tends to be expensive although it permits a smoother trajectory display, the construction of the planar display section 6B as described above in relation to the preferred embodiment is more advantageous because of its low cost.
Note that the above-mentioned LED groups 6Ba etc. may be incorporated in the interior of individual keyboard keys that are each formed of a translucent material, so as to effect a performance guide display by the respective bodies of the keys.
Furthermore, the format of the trajectory display data is not limited to the above-described format where combinations of the start point position and shift start timing and the end point position and shift end timing, types and parameters of the trajectory function are stored in corresponding relation to the notes of the music piece in question. Further, the trajectory display data to provide a visual performance guide need not necessarily be created for all of the notes prior to reproduction of the performance data; instead, the trajectory display data to provide a visual performance guide may be created, during reproduction of the performance data, on the basis of performance data having been read out in advance (i.e., pre-read) little by little.
Furthermore, it is preferable that illumination and deillumination of the individual LEDs be controlled to provide a performance guide display with an “afterimage” of a preceding trajectory.
Furthermore, whereas the preferred embodiment has been described above as illuminating the lowermost LED of the LED group 6Ba close to each key to be depressed, any other suitable LED located higher than the lowermost LED in the LED group 6Ba may be illuminated to indicate the key to be depressed.
Note that the second embodiment may be arranged to display any one or two, not all, of the cross-under-fingering, cross-over-fingering and approach-fingering rendition styles. Where more than one of the cross-under-fingering, cross-over-fingering and approach-fingering rendition styles can be guide-displayed, the embodiment may be arranged to allow the human player to select one or two of the displayable special rendition styles; namely, the human player can make a selection such that no visual guide display is effected for any one of the special rendition styles. If the cross-under-fingering rendition style is not guide-displayed, the lowermost LED, instead of the intermediate LED, of the LED group 6Ba may be illuminated as the reference-position LED in accordance with the performance timing.
The second embodiment may be arranged to display any one or two of the thumb (reference finger), fixed finger and moving finger, instead of displaying all of these fingers. Where more than one of the thumb (reference finger), fixed finger and moving finger can be displayed, the embodiment may be arranged to allow the human player to select one or two of these displayable fingers; namely, the human player can make a selection such that no visual guide display is effected for any one of the finger types. Further, the second embodiment may be arranged to allow the human player to set desired display styles of the individual finger types.
Number | Date | Country | Kind |
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2005-077355 | Mar 2005 | JP | national |
2005-095176 | Mar 2005 | JP | national |