Patent Abstract:
A computerized automated method for determining fingering of musical instruments from digitized scored music or tablature. The computerized automated finger finder method determines fingering such that hand movement is minimized on a specified instrument for maximum performance from analysis of the music score or tablature. The method also provides alternate fingering choices when the musician desires a different tonal stylization or finds an alternate fingering easier to play for their skill level.

Full Description:
CROSS-REFERENCE TO RELATED APPLICATIONS 
   This application is entitled to the benefit of Provisional Application Ser. No. 60/444,413 filed 2003 Feb. 2. 

   References Cited 
   Finger Finder Library For Guitar, copyright Feb. 4, 2002. 
   FEDERALLY SPONSORED RESEARCH 
   Not Applicable 
   SEQUENCE LISTING OR PROGRAM 
   Not Applicable 
   BACKGROUND OF THE INVENTION 
   1. Field of Invention 
   This invention relates to music, and in particular, to enhance the instrumentalists ability to perform musical scores. 
   2. Discussion of Prior Art 
   U.S. Pat. No. 6,201,174 to Eller (2001) discloses a computerized tablature composer that generates tablature notation from conventional staff notation. This is shown in the prior art figure, step  602 . However, how to perform this step is not obvious, and Eller&#39;s patent gives no indication on how to do this. In addition, Eller&#39;s patent does not generate an automated fingering sequence in order to perform the musical composition efficiently. 
   U.S. Pat. No. 5,396,828 to Farrand (1995) discloses a means for automatically producing guitar fingerboard information for chords from staff notation. Farrand&#39;s invention analyzes the music for various instruments and produces guitar chords that fit the harmonic rhythm of the melody, it does not give the fingering positioning of the exact notes in the staff notation that a guitar would play, and it only deals with chords, not individual notes of the melody. For example, in U.S. Pat. No. 5,396,828 FIG. 14, the first measure of the music depicts a D chord in second position on the guitar fingerboard; this is not, however, how the three notes shown in the staff of the music would be played by the guitar (i.e., Farrand&#39;s chord does not depict the exact voicing of the chord from the staff notation). 
   U.S. Pat. No. 5,639,977 to Hesnan (1997) discloses a music learning aid that displays playing instructions associated with musical notes. However, Hesnan&#39;s invention does not give an automated means for determining optimal or secondary fingering of an instrument for a given musical piece. 
   Various patents (e.g., U.S. Pat. Nos. 5,533,903, 5,639,977, 5,690,496, and 6,388,181) discuss the depiction of musical instrument fingering. However, none of them provide a method for automatically determining the fingering information. 
   BACKGROUND OF THE INVENTION 
   From the beginning of notated music, musicians have been composing music for other musicians to learn and perform. In classical staff notation, many composers have had or have the added skill of adding the symbols required, given a particular instrument, to explain the actual fingering of the musical score to be performed on the instrument by designating the fingers on the instrument for specific notes to accomplish the performance of the musical piece. That is called symbolic fingering notation. It is extremely important to the overall musical sound that the musical staff notation for each instrument have the proper symbolic fingering notation to maximize the efficiency of playing and control of time and sound (i.e., a way of the composer and virtuoso performer tell where to put your fingers). If fingering is added to a score, it is by this manual method and not automatically generated. 
   Although most string instruments also use some kind of tablature to determine the string length or pitch to be expressed other than standard musical notation, tablature is inefficient for the performer to play the piece since tablature only depicts the string length and not the proper fingering required to perform a musical composition. 
   The “Method of Automated Musical Instrument Finger Finding” is designed to automatically analyze musical data, which includes musical score and tablature data, and notate proper fingering for a musical instrument for someone to enhance their ability to play the music. 
   By far, most musical scores using both standard staff notation and/or tablature will not include fingering for the musician&#39;s maximum performance. Even if one does, the musician might want one or more fingering options of the score or portions of it. This invention analyzes music data (staff notation and/or tablature) for an instrument and provides the musician with the best possible fingering by predetermining what fingering to use for the instrument from the musical data. Range of notes, for example, would be a determining factor in the fingering. Other important factors would be tone, speed of performance, and the ability to play relaxed or natural to the physical limitations of one&#39;s skill level. Consequently, this invention also generates intelligent secondary options for the selection of fingering. 
   This invention would not only be useful for composers, but also for teachers explaining to their students the best way to play a musical composition, by music publishers allowing them to scan musical scores and have a “performance ready” printout of the music to sell, and by the performer who could now take any music available within the range of his instrument and use this invention to come up with a professionally correct fingering for the performance. This would be a tremendous time and labor saver. 
   BACKGROUND OF INVENTION—OBJECTS AND ADVANTAGES 
   Accordingly, several objects and advantages of the present invention are:
         (a) To decrease the costs and decrease the time-to-market of publishers getting music published with professional fingering information.   (b) Enhance performance and publication of music originally composed for one instrument to be easily performed on other instruments.   (c) Enhance sale of publication of music by making the music more easily playable.   (d) Music composition software would be enhanced and more attractive to customers with the addition of the finger finding feature of this invention.   (e) Enhance composers&#39; ability to compose by giving them knowledge on the ease of playability of their composition on an instrument.   (f) To enhance the ability of the performer with secondary options of fingering on their instrument.   (g) Enhance teaching abilities by teaching students how to play instruments for which the teacher is not as skilled on.       

   Further objects and advantages of the present invention will become apparent from a consideration of the drawings and ensuing description. 
   SUMMARY 
   In accordance with the present invention a method of generating the optimal and secondary fingering for a given musical instrument from musical score and/or tablature data. 

   
     BRIEF DESCRIPTION OF THE DRAWINGS 
       FIG. 1  illustrates an exemplary computing system for use in conjunction with an embodiment of the Finger Finder invention. 
       FIG. 2  illustrates the operational characteristics of the Finger Finder. 
       FIG. 3  is a flowchart giving the activities performed by the Finger Finder invention. 
       FIG. 4  illustrates an exemplary composition input for an exemplary embodiment of the Finger Finder invention. 
       FIG. 5  illustrates one of the options for the exemplary composition input for an exemplary embodiment of the Finger Finder invention. 
       FIG. 6  illustrates an exemplary embodiment of the Finger Finder invention where the complete fingering of a guitar composition is shown by the embodiment. 
   

   
     
       
             
           
             
             
           
         
             
                 
             
             
               DRAWINGS--Reference Numerals 
             
             
                 
             
           
           
             
                 
             
           
        
         
             
               100 
               Computing System 
             
             
               102 
               Drawing Tablet Input 
             
             
               104 
               Scanning Input System 
             
             
               106 
               Mouse Input 
             
             
               108 
               Keyboard Input 
             
             
               110 
               Microphone Input 
             
             
               112 
               MIDI Input/Output Device 
             
             
               114 
               Secondary Storage Input/Output Device 
             
             
               116 
               Display Monitor Output 
             
             
               118 
               Printer Output 
             
             
               120 
               Computer Network 
             
             
               200 
               Instrument Position Axis 
             
             
               202 
               Time Axis 
             
             
               204 
               Stroke 
             
             
               206 
               Positional Range Group 
             
             
               208 
               Positional Range Group 
             
             
               210 
               Positional Range Group 
             
             
               212 
               Positional Range Group 
             
             
               214 
               Positional Range Group 
             
             
               216 
               Transition from group 206 to group 212 
             
             
               218 
               Transition from group 212 to group 214 
             
             
               220 
               Positional Range Group 
             
             
               222 
               Transition from group 214 to group 228 
             
             
               224 
               Transition from group 230 to group 226 
             
             
               226 
               Positional Range Group 
             
             
               228 
               Positional Range Group 
             
             
               230 
               Positional Range Group 
             
             
               232 
               Transition from group 228 to group 230 
             
             
               234 
               Transition from group 228 to group 226 
             
             
               236 
               Transition from group 226 to group 244 
             
             
               238 
               Transition from group 230 to group 242 
             
             
               240 
               Transition from group 244 to group 250 
             
             
               242 
               Positional Range Group 
             
             
               244 
               Positional Range Group 
             
             
               246 
               Positional Range Group 
             
             
               248 
               Transition from group 244 to group 246 
             
             
               250 
               Positional Range Group 
             
             
               252 
               Transition from group 242 to group 250 
             
             
               300 
               Finger Finder Routine Entry Point 
             
             
               302 
               Initialization Activities Of Positional Range Stroke Group Creation 
             
             
                 
               and Assignment Of Strokes To Group 
             
             
               304 
               Decision Point: Determining If Finished Creating Groups And 
             
             
                 
               Assigning Strokes To Groups 
             
             
               306 
               Getting Positional Range Of A Stroke 
             
             
               308 
               Initialization Activities For Transversal Of Positional Ranges Of 
             
             
                 
               Stroke 
             
             
               310 
               Decision Point: Determining If On Last Positional Range Of Stroke 
             
             
               312 
               Activity To Access Next Stroke 
             
             
               314 
               Decision Point: Determining If Group Already Exists For Stroke&#39;s 
             
             
                 
               Positional Range 
             
             
               316 
               Adding Stroke To Existing Group 
             
             
               318 
               Creating New Positional Range Stroke Group For Stroke 
             
             
               320 
               Termination Activity Of Creating New Group 
             
             
               322 
               Decision Point: Determining If There Is Only One Group Stroke 
             
             
                 
               Is In 
             
             
               324 
               Denoting Stroke As One That Is Only In One Group 
             
             
               326 
               Activity To Access Next Positional Range Of Stroke 
             
             
               328 
               Initialization Activities For Determining Which Positional Range 
             
             
                 
               Groups Are Used 
             
             
               330 
               Decision Point: Determining If Finished Determining Which 
             
             
                 
               Positional Range Groups Are Used 
             
             
               332 
               Decision Point: Determining If Stroke Can Only Be Played In One 
             
             
                 
               Group 
             
             
               334 
               Decision Point: Determining If On Last Stroke 
             
             
               336 
               Decision Point: Determining If There Was A Previous Stroke That 
             
             
                 
               Could Only Be Played In One Group 
             
             
               338 
               Activity To Find Used Group(s) If On Last Stroke And Last Stroke 
             
             
                 
               Is In Multiple Groups 
             
             
               340 
               Activity To Find Used Group(s) Upon Finding First Stroke That 
             
             
                 
               Could Only Be Played In One Group 
             
             
               342 
               Activity To Find Used Group(s) Upon Finding Subsequent Stroke 
             
             
                 
               That Could Only Be Played In One Group 
             
             
               344 
               Activity After Finding Used Group(s) 
             
             
               346 
               Activity To Access Next Stroke 
             
             
               348 
               Initialization Activity For Determining Actual Fingering 
             
             
               350 
               Decision Point: Determining If Done 
             
             
               352 
               Finding Group Stroke Is In 
             
             
               354 
               Finding Key Boundary Stroke 
             
             
               356 
               Determining Hand Position On Instrument For Group 
             
             
               358 
               Determining Fingering Positions For Strokes In Group 
             
             
               360 
               Marking Group As Unused Once It Is Finished 
             
             
               362 
               Activity To Access Next Used Group 
             
             
               364 
               Finger Finder Exit Point 
             
             
               400 
               Composition Container 
             
             
               402 
               Composition Line Container 
             
             
               404 
               Measure Container 
             
             
               406 
               Stroke Container 
             
             
               408 
               Note Container 
             
             
               410 
               Chord Container 
             
             
               500 
               Half Note Playing At Same Time As Four Eighth Notes 
             
             
               502 
               Quarter Note Playing At Same Time As Two Eighth Notes 
             
             
               504 
               Six Eighth Notes In Succession 
             
             
               506 
               Eighth Note Duration Chord 
             
             
               508 
               Eighth Note Duration Chord 
             
             
               510 
               Eighth Note Duration Chord 
             
             
               512 
               Eighth Note Duration Chord 
             
             
               514 
               Eighth Note Duration Chord 
             
             
               516 
               Eighth Note Duration Chord 
             
             
               518 
               Half Note 
             
             
               520 
               Quarter Rest Note Giving Half Note Solo 
             
             
                 
               Duration 
             
             
               522 
               Quarter Note 
             
             
               524 
               Quarter Note 
             
             
               526 
               Quarter Note Duration Chord 
             
             
               600 
               Graphical Output Of Example Program Using Finger Finder 
             
             
                 
               Routine For Guitar 
             
             
               602 
               Window Containing Composition 
             
             
               604 
               Selected Stroke 
             
             
               606 
               Window Containing Fingering Of Selected Stroke 
             
             
               608 
               Row Of Fret Numbers 
             
             
               610 
               Column Of String Numbers 
             
             
               612 
               Finger Number In Circle 
             
             
                 
             
           
        
       
     
   
   DETAILED DESCRIPTION OF THE INVENTION 
     FIG. 1  shows an exemplary computing system for use in conjunction with an embodiment of the Finger Finder invention. Here, the Finger Finder invention is executing on  100 , with its input (a musical composition for an instrument) coming from some kind of input device, like:
         A tablet  102  where a user would enter a composition onto the tablet with a pen type of device.   A scanner  104  that a user would use to scan in sheet music.   A mouse  106  likely used in combination with a keyboard  108  that a user would use to enter a composition.   A microphone  110  that a user would play a musical instrument into to digitize and automatically notate the played composition.   A MIDI device  112 , like a common kind of electronic keyboard, a user could connect directly to their computer and play and automatically notate the played composition.   A data storage device  114  where a previously stored composition could reside.   A computer network (a LAN or a WAN, like the Internet)  120  where the composition could come from a remote machine.   The output of the Finger Finder invention could be:   Sent to a MIDI device  112  that can make use of the data.   Placed on a data storage device  114  for later retrieval or electronic publishing purposes.   Shown on a monitor  116  for viewing in a teaching or composition creation environment.   Printed to a plotter or printer  118  for paper publishing purposes.   Sent across a computer network  120  for remote analysis, paper or electronic publishing, or data storage or sharing purposes.       
   This invention automates the determination of instrument finger finding by the method of gathering and analyzing stroke groups.  FIG. 2  illustrates this. This figure is a plot of physical instrument position  200  in the horizontal dimension versus time  202  in the vertical dimension (time increasing going down). Thin individual boxes, like box  204 , represent the strokes, and a group of strokes are surrounded by a thicker box, like box  206 . The horizontal dimension of the group boxes represents positional range that the group of strokes can be played at; that is, the hand on the instrument can play all the strokes in the group in one place. 
   For the example shown in  FIG. 2 , the first several strokes can be played either at the positional ranges within group  206  or group  208 . Afterwards, the next couple of strokes can only be played within group  206 . For fingering determination based on efficient hand movement, group  208  would be discarded in favor of playing the first several strokes all within group  206  as no hand movement is required. However, an embodiment of this program may give the user an option to prefer playing all or some of the strokes in group  208  based on easier fingering of the instrument or preferable tonal qualities of the instrument at this position over the position of group  206 . This preference may be based on manual input by the user, or based on a setting within the program giving preference to one or more locations. 
   Likewise, there are some strokes afterwards that can be played either in group  206  or in group  210 , followed by strokes only being able to be played in group  206 . Again, for efficient hand movement, group  206  would be preferred, unless overridden by a user preference for other locations based on other criteria. 
   At a time later, there are a set of strokes that can either be played within group  206 ,  212 , or  220 , followed by a set of strokes that can be played within group  206 ,  212 ,  220 , or  214 , followed by a set of strokes that only be played within group  214 . Unless overridden by user preferences to the contrary, the finger finder would choose the strokes to be played within group  206 , transitioning to group  212  (via transition  216 ) at a musical key boundary, and then transitioning to group  214  (via transition  218 ) at a musical key boundary. (A musical key boundary would be marked, for example, as a C note in the key of C.) In this manner, there are two transitions from group  206  to group  214 , each transition giving the minimal hand movement across the instrument. Another user preference, however, may be to minimize the number of hand transitions, and so all the strokes would be played within group  206  followed by a direct transition to group  214  where the strokes within that group would be played until a transition to another group would be required. 
   The determination of going from group  206  to group  212  to group  214  was based on the fact that there were strokes that could only be played in group  214 , that group  206  had to be started at since starting at group  208  would have required an undesirable hand transition to group  206 , that going to group  210  was undesirable as another transition back to group  206  would have been needed, and that going to group  212  was desirable as that provided an intermediate minimal hand transition. 
   A second set of circumstances is shown following the strokes played within group  214  and transitioning to group  228  via transition  222 . At this point, there are multiple places to play the rest of the strokes. In this case, group determination is done by determining the minimal total path distance; that is, the total hand movement not just from one group to another, but taking into account all of the combinations of group traversal until the last stroke. 
   For example, from group  228 , either group  226  or  230  would have to be transitioned to as there is a set of strokes that can only be played in group  226  or  230 . From group  226  a transition to group  244  is required, and from group  230  a transition to group  242  or  226  would be required. From group  244  a transition to group  246  or group  250  would be required, and from group  242  a transition to group  250  would be required. The actual group transition sequence, without user preference overrides, would be determined by the minimum of the following transitions: 
   (i) Transition  234 +transition  236 +transition  248   
   (ii) Transition  234 +transition  236 +transition  240   
   (iii) Transition  232 .+transition  238 +transition  252   
   (iv) Transition  232 +transition  224 +transition  236 +transition  248   
   (v) Transition  232 +transition  224 +transition  236 +transition  240   
   In case of multiple paths having the same minimal total distance, the Finger Finder would prefer the path with the most right or left, or top or bottom, as appropriate for the instrument under consideration, number of groups. 
     FIG. 3  is a flowchart illustrating the activities performed by the Finger Finder invention, according to an exemplary embodiment of the invention.  FIG. 3A  shows the activities required for determining all of the groups and the strokes associated with the groups.  FIG. 3B  shows the activities required for determining which groups are to be used for Finger Finding purposes.  FIG. 3C  shows the activities required for determining the actual fingering positions on the instrument. 
   Step  300  is the entry in to the Finger Finder invention. The data input to the Finger Finder is the composition data of a musical instrument, as illustrated by  FIG. 4 . 
   Step  302  is the initialization activities of the Finger Finder. Activity variables are shown in this block that are used to qualify other activities later on. Activity variable NumStrokes represents the total number of strokes in the composition; this number is the actual number of fingering positions, where any repeated sequences in the composition are taken into account and duplicated and placed in the input stream. Activity variable StrokeIdx represents an index into the strokes, where index value 0 accesses the first stroke of the composition, and an index value of (NumStrokes −1) accesses the last stroke of the composition. Activity variable NumGroups represents the total number of positional range stroke groups that this flowchart creates. 
   Item  304  is a decision point. If all of the strokes in a composition have been handled (by creating positional range groups and assigning the strokes to these groups), then the Finger Finder next determines which groups are to be used for Finger Finding purposes, starting with activity  328 . 
   Activity  306  is the retrieving of all of the positional ranges on the instrument that the stroke under consideration can be played at. Activity  308  is the initialization activities required to access the different positional ranges of the stroke. 
   Activity  310  is a decision point. If all of the positional ranges of the current stroke have been handled, then activity  312  is branched to; otherwise, activity  314  is branched to. 
   Activity  312  is the activity required to access the next stroke. 
   Activity  314  is a decision point. If a positional range stroke group already exists at the current time (meaning that the previous stroke and the current stroke share a common group), then activity  316  is performed; otherwise, activity  318  is performed. 
   Activity  316  associates the current stroke to an existing positional range stroke group. Activity  318  creates a new positional range stroke group and associates the current stroke to this new group. Activity  320  increments by one the count of the total number of groups, to be used later. 
   Activity  322  is a decision point. If there is only one positional range group that the current stroke can be played in, then activity  324  is performed, in which the stroke is marked as a “termination point” (i.e., a stroke that can only be played in one group). After activity  324  or if the stroke can be played within multiple groups upon arriving at activity  322 , activity  326  is performed, which is done in order to access the current stroke&#39;s next positional range group. 
   Activity  328  is the initialization activities required to determine which groups are used for the purposes of finger finding. As before, Strokeldx is the variable used to access the strokes in the composition. Activity variable LastStrokeldxHandled represents the index into the strokes that was last handled by the activities of  FIG. 3B . 
   Activity  330  is a decision point, where if all of the groups have been found, then the flowchart starts the activities of determining the actual fingering, starting with activity  348 . If all the groups have not yet been handled, then activity  332  is gone to. 
   If a stroke under consideration can only be played within one positional range group (the stroke is a “termination point”), activity  332  branches to activity  336 , and if there was a previous termination point, then activity  336  branches activity  342  where the shortest path to the previous termination point is found, as described for  FIG. 2 , where the groups that are used are marked as such for later. If there was no previous termination point, then activity  336  branches to activity  340  where the shortest path to the first stroke in the composition is found, as described for  FIG. 2 , where the groups that are used are marked as such for later. 
   If the current stroke is not a termination point, then activity  332  branches to activity  334 , where if the current stroke is the last stroke in the composition, then activity  334  branches to activity  338  where the shortest path to the previously handled last stroke is found (which may be the first stroke of the composition if there are no termination points), as described for  FIG. 2 , where the groups that are used are marked as such for later. 
   After activity  338 ,  340 , or  342  is performed, activity variable LastStrokeIdxHandled is set to the current stroke index in order to find the shortest path from a later stroke to this stroke (if this is not already the last stroke). 
   If the current stroke is not the last stroke of the composition in activity  334  or after activity  344  is performed, activity  346  is performed, which is the activity required to access the next stroke in the composition. 
   Activity  348  is the initialization activity required to find the actual fingering of the instrument for the strokes in the composition, which then branches to activity  350 . If all the strokes have been handled, then activity  350  exits the Finger Finder via  364 ; otherwise, activity  352  is entered. 
   Activity  352  finds the group used for the stroke under consideration then goes to activity  354  which goes through the group to find and stroke at or crossing a key boundary to the next used group. Activity  354  leads to activity  356  which determines the hand position on the instrument; this is based on the previous group that is being come from, if any, and the number of fingers needed to play the strokes in the group. For example, if not all the fingers on the hand are needed to play the strokes, then the hand may be able to transition to the position in such a way as to minimize the transition distance (and therefore transition time), so that a stroke that would normally be played by one finger will actually be played by another. 
   Activity  356  leads to activity  358 , where, based on the hand position on the instrument, the fingering positions on the instrument is determined for the strokes in the group up to but not including the key boundary stroke. After this, the group is listed as unused in activity  360  so the group that the next stroke is in can be found. Afterward, activity  362  is performed, which is required in order to access the first stroke in the next group. 
     FIG. 4  is a diagram illustrating an exemplary composition input for an exemplary embodiment of the Finger Finder invention, as would be fed as the input to the Finger Finder of  FIG. 3  item  300 . This figure shows how a composition for a musical instrument can be implemented as a composition container (e.g., a C data structure or a C++ or Java class)  400  being composed of a 1 or more composition line containers  402 , which are themselves composed of one or more measure containers  404 , which are themselves composed of one or more stroke containers  406 . This figure also shows that a note container  408  and a chord container  410  are subtypes of the stroke container  406 , and that a chord container  410  is composed of two or more note containers  408 . 
   Different variations of this could be implemented as input to the Finger Finder. The above scheme works fine if the key of the composition is maintained with the line object  402 , where different lines could be in different keys. The key could alternately be maintained in the measure container  404 , which could then remove the need for a line container  402 . 
   The measure container  404  is handy for containing information about such measure related information as the beginning measure and the end measure of a repeated sequence, so that the Finger Finder can find strokes that aren&#39;t necessarily next to each other as written on sheet music. Alternately, the software that creates the input for the Finger Finder could create a data structure such that all the notes are linearly accessed by the Finger Finder (so, e.g., the strokes in a repeated sequence are duplicated and put in the data structure where appropriate) and have the key that the composition is currently in maintained with the stroke container, so that the measure container  404  and the composition line container  402  would not be needed; this is the configuration assumed by  FIG. 3 , but the other arrangements are considered by this invention as well, it is only the means of accessing the strokes, not handling them once accessed that is the main point of this invention. 
   Another option for the input involves the stroke container  406  when there occurs, at the same time, multiple strokes of different durations, as shown in  FIG. 5A . In  FIG. 5A , stroke  500 , a half note, is struck and held until four of the eighth notes of  504  are played, and then stroke  502 , a quarter note, is struck and held while the remaining two eighth notes of  504  are played. Since the timing of the composition is not a factor in determining the fingering of an instrument for this invention, the program creating the input for the Finger Finder may internally represent the composition of  FIG. 5A  as shown in  FIG. 5B . In  FIG. 5B , half note  500  is broken into four eighth notes,  506 ,  508 ,  510 , and  512 , and combined with four of the eighth notes of  504 , thus creating four eighth note chords; for this representation, the internal data content for notes  508 ,  510 , and  512  would have to include information that these notes are not to be played (struck) again, but they exist only for finding the correct fingering of the instrument. Likewise, quarter note  502  is broken into two eighth notes,  514  and  516 , and combined with the last two eighth notes of  504 , thus creating two eighth note chords; again, the internal data content for note  516  would have to include information that this note is not to be played (struck) again, but it exists only for finding the correct fingering of the instrument. 
     FIG. 5C  shows a very similar construction as  FIG. 5A . In  FIG. 5C , a half note  518  is paired with a quarter rest  520 , meaning that stroke  518  is played for a quarter time, then continued to be held for the duration of the next quarter note  522 . As in the preceding paragraph, for finger finding purposes this could be refactored as shown in  FIG. 5D , where half note  518  is broken into two quarter notes  524  and  526 . Notice that note  526  is now combined with note  522  to make a chord. As above, the internal data representation of note  526  would have to indicate that it is not actually played, it is there only for finding the correct fingering of the instrument. 
   The output of the Finger Finder contains information on the fingering for the instrument; e.g., the number of hand positions in the output data, followed by an array of hand positions containing information such as an indication of which hand is being described (differentiating between the right hand and the left hand, as appropriate), and information denoting which finger is where on the instrument. For example, for a guitar this information would indicate which finger of the left hand is on which string and at which fret; for a piano this information would indicate which hand and which finger is pressing which key. For an implementation of this invention, an indication of which stroke in the composition the fingering data refers to may also be desired for graphical user interface purposes. 
     FIG. 6  illustrates an exemplary embodiment of the Finger Finder invention where the complete fingering of a guitar composition is shown by the embodiment. This figure is very similar to the graphical output of the Finger Finder For Guitar program copyright. Feb. 4, 2002. 
   In  FIG. 6 , item  600  is the frame window of an application containing subwindows  602  and  606 . Item  602  is a window containing a musical score for a guitar comprised of singe strokes and chords. Item  604  is the selected stroke of the composition whose complete fingering is shown in window  606 . The graphics shown in window  606  is comprised of a row of guitar fret numbers  608 , a column of string numbers  610 , and encircled finger numbers  612  ( 1  for the index finger,  2  for the middle finger,  3  for the ring finger, and  4  for the little finger, all for the left hand); thus, the complete left hand fingering on a guitar is shown how to play stroke  604 . It should be noted that for this invention, if the same stroke appears again in the same composition or another composition, its fingering may be completely different depending on the other strokes around the stroke.

Technology Classification (CPC): 6