JP3593938B2 - Tempo setting device and method - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a tempo setting device and method for controlling a performance tempo during automatic performance in an automatic performance device as intended by an operator, and particularly to a variety of tempos with a small number of operations when designating a tempo when playing back music. The present invention relates to a tempo setting device and method capable of setting.
[0002]
[Prior art]
2. Description of the Related Art In a conventionally known automatic performance apparatus, performance information (performance data and the like) relating to a melody performance and an accompaniment performance is stored in a memory or the like, and the stored performance information is automatically read out at a predetermined tempo and read. The melody sound and the accompaniment sound are pronounced according to the output performance information. In this case, the performance tempo is determined by the frequency of a tempo clock output from a timer or the like. The frequency of the tempo clock can be freely changed by operating a tempo setting switch or the like. Tempo setting switches include, for example, a tap tempo switch and a dial switch, and some automatic performance devices have both switches. The tap tempo switch is a switch that outputs a signal at a timing pressed by an operator, and is a switch that can set a tempo based on a time interval of the signal output. That is, when the operator presses the tap tempo switch a plurality of times at a desired timing, the tempo as intended by the operator can be set according to the operation time interval. The dial switch arbitrarily raises or lowers the tempo set by another tempo setting switch such as the tap tempo switch or the tempo set by the tempo information stored as performance information, by the rotation operation of the operator. It is a switch that can be turned down and allows you to fine-tune the tempo.
In the conventional automatic performance device, the tempo set by the automatic performance device (that is, the tempo set by a tempo setting switch such as a tap tempo switch or a dial switch, or the tempo information stored as performance information) is set. Internal tempo setting function (hereinafter referred to as internal tempo mode) that performs automatic performance based on a tempo clock generated based on the tempo, and receives a tempo clock signal from outside the automatic performance device and synchronizes with the tempo. Tempo mode changeover switch for switching between an external tempo synchronization function (hereinafter referred to as an external synchronization tempo mode) for performing an automatic performance based on the generated tempo clock.
[0003]
[Problems to be solved by the invention]
By the way, in the conventional automatic performance device, since a dial switch commonly used for a plurality of functions is used as a switch for tempo up / down control, a dedicated dial switch for setting the dial switch to a tempo mode is used. An operator was needed. That is, in order to use the dial switch for tempo up / down control, it is necessary to use a dedicated operation device and set the dial switch so that it can be used in the tempo mode. Therefore, a large number of controls related to tempo setting are arranged on the switch panel where these switches are arranged, and the arrangement, function, operation method, and the like of these controls are separately set for each control. There was a problem that it had to be memorized and was very troublesome and difficult to use.
Further, a switch used for setting a tempo such as a tap tempo switch or a dial switch as described above, and a tempo mode changeover switch for switching between an internal tempo mode and an external tempo synchronization mode as a tempo setting function in an automatic performance device are provided independently of each other. A dedicated switch is provided on the switch panel. Then, every time the tempo setting function of the automatic performance device is switched between the internal tempo mode and the external tempo synchronization mode, the tempo mode changeover switch provided independently of the tempo setting switch is operated each time to operate the tempo setting function. There is a problem in operability that the switching has to be performed, which is troublesome.
[0004]
Book The present invention has been made in view of the above points. By enabling the use of a tempo setting switch to switch between an internal tempo mode and an external tempo synchronization mode, the tempo setting function can be easily operated. It is an object of the present invention to provide a tempo setting device and method capable of switching.
[0005]
[Means for Solving the Problems]
The tempo setting device according to the present invention includes: Tempo setting means for setting an arbitrary performance tempo; external tempo receiving means for receiving performance tempo information from outside; internal tempo mode for performing at the performance tempo set by the tempo setting means; In the external tempo mode in which the performance is performed at the performance tempo based on the performance tempo information received in the step (a), the performance by the tempo setting means is set when the internal tempo mode is set and the performance is stopped. Control means for changing the setting from the internal tempo mode to the external tempo mode on condition that the set value of the tempo exceeds a predetermined value. .
[0008]
The tempo setting device includes a tempo setting device, and the tempo setting device can set a performance tempo of the tempo setting device. Further, the tempo setting device can receive performance tempo information from outside and set a performance tempo in synchronization with the performance tempo information. The control means sets one of an internal tempo mode in which the performance is performed at the performance tempo set by the tempo setting means and an external tempo mode in which the performance is performed at the performance tempo based on the performance tempo information received by the external tempo receiving means. It is possible. When the internal tempo mode is set and the performance is stopped, When changing the performance tempo using the tempo setting means, if the performance tempo setting value of the tempo setting means is set beyond a predetermined value, Change the setting from the internal tempo mode to the external tempo mode, It controls to set the performance tempo based on the performance tempo information received by the external tempo receiving means. That is, since the operator can set the performance tempo based on the external performance tempo information only by operating the tempo setting means, it is not necessary to provide a dedicated switching operator, and the operation is simple. By operation, a performance tempo synchronized with external performance tempo information can be set.
[0010]
The invention can be constructed and implemented not only as a device invention, but also as a method invention. Further, the present invention can be embodied in the form of a program of a computer or a processor such as a DSP, or can be embodied in the form of a recording medium storing such a program.
[0011]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.
[0012]
FIG. 1 is a hardware block diagram showing an embodiment of an automatic performance device incorporating a tempo setting device according to the present invention.
The automatic performance apparatus shown in this embodiment is controlled by a microcomputer including a microprocessor unit (CPU) 1, a read-only memory (ROM) 2, and a random access memory (RAM) 3. The CPU 1 controls the operation of the entire automatic performance apparatus. For this CPU 1, a read only memory (ROM) 2, a random access memory (RAM) 3, a key press detection circuit 4, a switch detection circuit 5, a display circuit 6, a sound source circuit 7, an effect, via a data and address bus 1D. A circuit 8, an external storage device 9, a MIDI interface (I / F) 10, and a communication interface 11 are connected to each other. Further, the CPU 1 is connected to a timer 1A that measures an interrupt time and various times in a timer interrupt process (interrupt process). That is, the timer 1A generates a tempo clock pulse for counting the time interval and setting the tempo of the automatic performance. The frequency of the tempo clock pulse is adjusted by a tempo setting switch (a tap tempo switch and a tempo up / down switch described later) in the various switches 5A. The adjustment is also made by the synchronization of the tempo clock signal received in the external tempo synchronization mode. The tempo clock pulse from the timer 1A is given as an interrupt command to the CPU 1, and the CPU 1 executes various processes during automatic performance by a timer interrupt process (interrupt process).
[0013]
The ROM 2 stores various programs executed or referred to by the CPU 1, various data, and the like. The RAM 3 is used as a working memory for temporarily storing various performance information relating to automatic performance and various data generated when the CPU 1 executes a program, or as a memory for storing a program currently being executed and data related thereto. Is done. A predetermined address area of the RAM 3 is assigned to each function and used as a register, a flag, a table, a memory, and the like. The keyboard 4A is provided with a plurality of keys for selecting the pitch of a musical tone, and has a key switch corresponding to each key. The keyboard 4A can be used for playing musical tones. , Can be used as input means for instructing selection of performance data and the like. The key press detection circuit 4 detects the press and release of each key of the keyboard 4A and generates a detection output. The switch 5A includes various operators for instructing the speed of the reproduction tempo of the musical sound to be automatically played or for inputting various music conditions relating to the automatically played music. For example, a numeric keypad for inputting numeric data, a keyboard for inputting character data, a panel switch, or the like. Of course, in addition to these, various operators for selecting, setting, and controlling pitch, tone, effect, and the like may be included. In the embodiment of the panel switch described later, a dial switch, a “VOICE” switch, a “PATTERN” switch, and a “BPM / TAP / EXT SYNC” switch are exemplified. The switch detection circuit 5 detects an operation state of each operation element of the switch unit 5A, and outputs switch information corresponding to the operation state to the CPU 1 via the data and address bus 1D. The display circuit 6 displays various information such as the control state of the CPU 1 and the tempo of the music currently being played automatically on a display 6A constituted by, for example, a liquid crystal display panel (LCD) or a CRT.
[0014]
The tone generator 7 can simultaneously generate tone signals on a plurality of channels, inputs data and performance information given via an address bus 1D, and generates tone signals based on the data. The tone signal generated by the tone generator 7 is generated via the sound system 8A. Further, the effect circuit 8 gives various effects to the tone signal generated from the tone generator circuit 7. Any tone signal generation method may be used in the tone generator circuit 7. For example, a waveform memory reading method for sequentially reading out musical tone waveform sample value data stored in a waveform memory according to address data that changes in accordance with a pitch of a musical tone to be generated, or a method in which the address data is used as a predetermined A known method such as an FM method for performing tone modulation sample value data by executing a frequency modulation operation or an AM method for executing tone amplitude sample value data by executing a predetermined amplitude modulation operation using the address data as phase angle parameter data. May be appropriately adopted. That is, the method of the sound source circuit may be any method such as a waveform memory method, an FM method, a physical model method, a harmonic synthesis method, a formant synthesis method, an analog synthesizer method of VCO + VCF + VCA, an analog simulation method, and the like. In addition, the tone generator circuit is not limited to the one that uses dedicated hardware, and the tone generator circuit may be configured using a DSP and a microprogram or a CPU and software. Further, a plurality of tone generation channels may be formed by using one circuit in a time sharing manner, or one tone generation channel may be formed by one circuit.
[0015]
The external storage device 9 stores data relating to automatic performance music such as performance data and data relating to control of various programs executed by the CPU 1. When the control program is not stored in the ROM 2, the control program is stored in the external storage device 9 (for example, a hard disk), and is read into the RAM 3 to store the control program in the ROM 2. Similar operations can be performed by the CPU 1. By doing so, it is possible to easily add a control program or upgrade the version. Note that the external storage device 9 is not limited to a hard disk (HD), but may be a floppy disk (FD), a compact disk (CD-ROM / CD-RAM), a magneto-optical disk (MO), or a DVD (for Digital Versatile Disk). It may be a storage device that uses various forms of removable external storage media.
[0016]
The MIDI interface (I / F) 10 inputs MIDI standard performance information (MIDI data) from another MIDI device 10A or the like to the automatic performance device, or receives MIDI standard performance information (MIDI data) from the automatic performance device. ) Is output to another MIDI device 10A or the like. The communication interface 11 is connected to a communication network 11B such as a LAN, the Internet, or a telephone line. The communication interface 11 is connected to the server computer 11A via the general communication network 11B, and automatically transmits a control program and various data from the server computer 11A. This is an interface for importing to the performance device side. That is, when the control program and various data are not stored in the ROM 2 or the hard disk, it is used to download the control program and various data from the server computer 11A. The automatic performance device serving as a client transmits a command for requesting download of a control program and various data to the server computer 11A via the communication interface 11 and the communication network 11B. The server computer 11A receives this command, distributes the requested control program and data to the apparatus via the communication network 11B, and the apparatus receives the control program and various data via the communication interface 11. By storing the data on the hard disk, the download is completed. Note that the MIDI interface 10 is not limited to the one using a dedicated MIDI interface, and the MIDI interface is configured using a general-purpose interface such as RS232-C, USB (Universal Serial Bus), or IEEE1394 (Itriple 1394). You may do so. In this case, data other than the MIDI message may be transmitted and received at the same time.
[0017]
Here, the switch 5A will be briefly described with a specific example of a panel switch in the above-described automatic performance device. FIG. 2 is an overall configuration diagram showing an embodiment of the operation panel in the automatic performance device.
The operation panel has one LCD display 100 and various panel switches (in this embodiment, one dial switch (rotary encoder) 101 and a plurality of function selection switches (102 to 104)). The function selection switch has three switches, a "VOICE" switch 102, a "PATTERN" switch 103, and a "BPM / TAP / EXT SYNC" switch 104, for each function that can be set. The LCD display 100 and the dial switch 101 are used not only for the tempo setting function but also for a plurality of other functions. That is, the content displayed on the LCD display 100 and the content that can be set with the dial switch 101 differ according to the function set by each of the function selection switches (102 to 104). The dial switch 101 is a switch for inputting setting contents. For example, when the dial switch 100 is rotated to the right, setting numerical data such as a tone number, a pattern number or a tempo value increases by a predetermined value according to the rotation amount. When rotated to the left, set numerical data such as tone number, pattern number, or tempo value decreases by a predetermined value according to the amount of rotation. The LCD display 100 displays set numerical data such as a tone color number, a pattern number or a tempo value according to the function set by the function selection switches (102 to 104). That is, setting numerical data such as a tone color number, a pattern number, or a tempo value is displayed while being changed according to the rotation amount of the dial switch 101. Specifically, when the “VOICE” switch 102 is pressed, the LCD display 100 and the dial switch 101 are set so that they can be used as a tone setting function (voice mode). In this case, the tone number for setting the tone color of the generated tone can be changed by operating the dial switch 101, and the tone number is displayed on the LCD display 100. As a result, it is possible to set the tone color for performing the automatic performance, and also to set the tone color for the manual performance on the keyboard 4A. When the “PATTERN” switch 103 is pressed, the LCD display 100 and the dial switch 101 are set to be used as an automatic performance pattern selection function (pattern mode). In this case, the pattern number of the automatic performance can be changed by operating the dial switch 101, and the pattern number is displayed on the LCD display 100. That is, a pattern such as a rhythm pattern that is automatically played can be changed.
[0018]
When the “BPM / TAP / EXT SYNC” switch 104 is pressed once, the LCD display 100 and the dial switch 101 are set to be used as a tempo setting function (tempo mode). In this case, the tempo of the automatic performance can be changed by operating the dial switch 104, and the number of beats per minute, that is, the tempo value, is displayed on the LCD display 100. For example, when "120.0" is displayed on the LCD display 100 as shown in FIG. 2, it indicates that the automatic performance is performed at a tempo of 120 beats per minute. When the “BPM / TAP / EXT SYNC” switch 104 is pressed down, the operation is performed so that the “BPM / TAP / EXT SYNC” switch 104 is pressed not only once but also continuously multiple times within a predetermined time. Then, the tempo tap mode is set in which the tempo is set according to the operation time interval from one pressing operation to the next pressing operation, and the tempo according to the operation time interval is displayed on the LCD display 100. For example, assuming that the time interval between two successive press operations is associated with the length of a quarter note, if the operation time interval is 400 ms, an automatic performance is performed at a tempo of 150 beats per minute. The tempo is set to be performed, and “150.0” is displayed on LCD display 100. In this embodiment, the tempo values that can be used as the tempo are "32" to "280".
[0019]
In the tempo mode (that is, when the “BPM / TAP / EXT SYNC” switch 104 is pressed once), the tempo setting value is set to a specific value (for example, a predetermined maximum tempo value) or more. When the dial switch 101 is rotated, switching between an internal tempo mode (INT mode) and an external tempo synchronization mode (EXT SYNC mode) is performed. In the internal tempo mode (INT mode), the tempo is set by the tempo set by the automatic performance device (that is, the tempo set by using the "BPM / TAP / EXT SYNC" switch 104 and the dial switch 101, or by performance information). Automatic performance is performed based on a tempo clock generated based on the tempo. On the other hand, in the external tempo synchronization mode, a tempo clock signal is received from the outside of the automatic performance device, a tempo clock synchronized with the tempo is generated inside the automatic performance device, and the automatic performance is performed.
As described above, the operation for setting the dial switch 101, which is commonly used by a plurality of functions, to the tempo mode can be performed by operating the “BPM / TAP / EXT SYNC” switch 104. It is not necessary to separately provide a control for setting the mode separately from the "BPM / TAP / EXT SYNC" switch 104, so that the number of controls on the operation panel can be reduced.
[0020]
As described above, in this embodiment, the CPU 1 performs a process (tempo setting process) related to tempo setting in the automatic performance device. That is, the tempo is set by the CPU 1 executing a predetermined program (software) based on the operation performed on each of the “BPM / TAP / EXT SYNC” switch 104 and the dial switch 101. Of course, the present invention can be implemented not only in the form of computer software but also in the form of a microprogram processed by a DSP (Digital Signal Processor). Alternatively, the present invention may be implemented in the form of a dedicated hardware device including a large-scale integrated circuit or a gate array.
Hereinafter, the “tempo setting process” executed by the CPU 1 will be described with reference to FIGS. 3A to 3C. 3A to 3C are flowcharts illustrating an example of the “tempo setting process”. However, FIG. 3A is a flowchart showing the first half of the “tempo setting process”, FIG. 3B is a flowchart showing the middle portion of the “tempo setting process”, and FIG. 3C is the “tempo setting process”. 9 is a flowchart showing the latter half of the processing. That is, the flowchart of FIG. 3B is followed by the flowchart of FIG. 3A, and the flowchart of FIG. 3C is followed by the flowchart of FIG. Note that this process is an interrupt process (interrupt process) executed by the CPU 1 at regular intervals (for example, every 10 ms) counted by the timer 1A.
[0021]
First, the first half of the tempo setting process will be described with reference to FIG. 3A.
In step S1, it is determined whether the "BPM / TAP / EXT SYNC" switch 104 has been turned on. When the “BPM / TAP / EXT SYNC” switch 104 is turned on (YES in step S1), the LCD display 100 and the dial switch 101 that are commonly used for a plurality of functions are set to be used in the tempo mode. I do. That is, the user can set a tempo value from the dial switch 101 and set the LCD display 100 to display the current tempo value. After this setting is completed, a pressing and holding timer, which will be described later, is started to start counting the time during which the “BPM / TAP / EXT SYNC” switch 104 is pressed (step S2).
In step S3, it is determined whether or not the camera is in an internal tempo mode (INT mode). If the mode is not the internal tempo mode (NO in step S3), the process jumps to step S16 (see FIG. 3B), and the processes from step S4 to step S15 are not performed. In other words, in this case, the external tempo synchronization mode (EXT SYNC mode) is used, and there is no need to perform various processes related to the tap mode that can be processed only in the internal tempo mode. The processing jumps to step S16 without performing the above processing. On the other hand, if the mode is the internal tempo mode (YES in step S3), various processes related to the tap mode are performed. First, it is determined whether or not the tap mode is set (step S4). If not in the tap mode (NO in step 4), the automatic performance device is set to the tap mode and the tap timer is started (steps S14 and S15). That is, a tap timer necessary for setting the tempo in the tap mode is started, and preparation processing is performed so that the tempo can be set. The initial state is the non-tap mode, and the determination in step S4 is NO. If the tap mode is set (YES in step S5), a tap timer value is fetched (step S5). If the automatic performance is currently being reproduced by the automatic performance device (YES in step S6), a tempo value is calculated based on the taken tap timer value, and the tempo of the automatic performance being reproduced is set to the tempo value. Then, it is displayed on the LCD display 100 (step S7). Then, the tap timer is cleared and restarted (step S8). In this way, the tempo is set from the tap tempo switch, and the tap timer is cleared and restarted so that a new tempo can be set when the tap tempo switch is further operated.
[0022]
If the automatic performance is not currently being reproduced in the automatic performance device (NO in step S6), it is determined whether or not the operation is the fourth tap tempo switch operation (step S9). That is, it is determined whether or not the “BPM / TAP / EXT SYNC” switch 104 is pressed for the fourth time. If it is the fourth pressing operation (YES in step S9), the tempo is calculated based on the tap timer value at the time of the fourth pressing operation and the tap timer value at the last three pressing operations stored in the register. The calculated tempo value is displayed on the LCD display 100. Then, the automatic performance is started with the tempo value from the next beat (step S10). After that, the tap timer value and the tap register are cleared, and the tap mode is released (step S11). If it is not the fourth pressing operation of the “BPM / TAP / EXT SYNC” switch 104 (that is, if it is the first to third pressing operations of the “BPM / TAP / EXT SYNC” switch 104) (NO in step S9) After the tap timer value is stored in the tap register, the tap timer is cleared and restarted (steps S12 and S13). That is, the time interval (tap timer value) between the first and second press operations and the second and third press operations is stored in the tap register.
[0023]
In FIG. 3B, in step S16, it is determined whether the tap timer value has exceeded a predetermined value. That is, it is determined whether or not the time interval when the “BPM / TAP / EXT SYNC” switch 104 is pressed is equal to or longer than a predetermined time. If the tap timer value exceeds the predetermined value (YES in step S16), the tap timer value and the tap register are cleared and the tap mode is released. That is, in this case, since the time interval between the previous pressing operation of the “BPM / TAP / EXT SYNC” switch 104 and the current pressing operation is longer than a predetermined time, the “BPM / TAP / EXT SYNC” switch 104 Tap tempo setting cannot be performed by continuous operation of. In step S18, it is determined whether the "BPM / TAP / EXT SYNC" switch 104 has been switched off. That is, it is determined whether or not the “BPM / TAP / EXT SYNC” switch 104 has been pressed. If the “BPM / TAP / EXT SYNC” switch 104 is turned off (for example, if the switch is continuously operated) (YES in step S18), the timer value is kept pressed after the timer is kept pressed and the timer value is kept pressed. Acquire (Step S19 and Step S20). If the "BPM / TAP / EXT SYNC" switch 104 is not turned off (NO in step S18), the timer value is obtained by keeping the timer pressed without clearing the timer (step S20). Then, it is determined whether or not the obtained holding timer value has exceeded a predetermined value (step S21). If it does not exceed the predetermined value (NO in step S21), the process jumps to step S25. If the value exceeds the predetermined value and the current mode is the external tempo synchronization mode (YES in steps S21 and S22), the automatic performance device is set to the internal tempo mode (step S23). In step S24, the tempo of the automatic performance is set to the default tempo of the automatic performance pattern, the default tempo is displayed on the LCD display 100, and the timer is further pressed to clear the timer (step S24).
In this manner, the time interval from when the “BPM / TAP / EXT SYNC” switch 104 is pressed to when the key is released is measured and kept as a timer value. If the timer value exceeds a predetermined time (for example, 500 ms), the default tempo is set to the default tempo, assuming that the automatic tempo is set as a default tempo setting instruction at the time of the automatic performance. At this time, if the mode is the external tempo synchronization mode, the mode is changed to the internal tempo mode. That is, the function of releasing the external tempo synchronization mode by holding down the “BPM / TAP / EXT SYNC” switch 104 is also provided.
[0024]
Next, in step S25, it is determined whether or not either the “VOICE” switch 102 or the “PATTERN” switch 103 has been turned on (that is, pressed). If neither the “VOICE” switch 102 nor the “PATTERN” switch 103 has been turned on (NO in step S25), the process jumps to step S25. When either the "VOICE" switch 102 or the "PATTERN" switch 103 is turned on (YES in step S25), the dial switch 101 is set to the voice mode (when the "VOICE" switch 102 is turned on) or a pattern. The mode (when the “PATTERN” switch 103 is turned on) is set, and the current tone number or pattern number is displayed on the LCD display 100 (step S26). Then, the tap timer value and the tap register are cleared, and the tap mode is released (step S27). As described above, when either the “VOICE” switch 102 or the “PATTERN” switch 103 is turned on, the dial switch is set to a mode corresponding to the “VOICE” switch 102 or the “PATTERN” switch 103 that is turned on. Set the function. Further, in the tap mode, when either the “VOICE” switch 102 or the “PATTERN” switch 103 is turned on, the tap mode is canceled at the same time.
[0025]
In step S28, it is determined whether the dial switch 101 has been rotated. If the dial switch 101 has not been rotated (NO in step S28), the process jumps to "other processing" in step S33, performs the "other processing", and ends the "tempo setting processing". If the dial switch 101 is being rotated, the dial switch 101 is set to be used in the tempo mode, and if the dial mode is in the tap mode (steps S28, S29, and S30). Are both YES), the tap timer value and the tap register are cleared, the tap mode is released (step S31), and the process proceeds to step S34 shown in the flowchart of FIG. 3C.
Thus, when the dial switch 101 is rotated, a tone number or a pattern number is set in the voice mode or the pattern mode. In the case of the tempo mode, the tap mode is released, and the tempo is set according to the rotation direction and the rotation amount of the dial switch 101 (described later). In the “other processing”, for example, sound generation processing based on a keyboard operation, reproduction start and stop processing based on an instruction to reproduce or stop an automatic performance pattern, and the like are performed.
[0026]
In the flowchart shown in FIG. 3B, when the dial switch 101 is rotated and the dial switch 101 is set to be used in the tempo mode (both steps S28 and S29 are performed). YES), and then the processing of the flowchart shown in FIG. 3C, that is, the processing of the end portion of the tempo setting processing is continued.
In step S34, it is determined whether or not the internal tempo mode and the automatic performance stop are in progress. If the internal tempo mode is set and the automatic performance is stopped (YES in step S34), the tempo of the automatic performance is set according to the rotation direction and the amount of rotation of the dial switch 101, and displayed on the LCD display 100 (step S35). . However, in this case, the lower limit processing is performed. That is, processing is performed so that the tempo value cannot be set below the predetermined tempo value. At this time, if the rotation direction of the dial switch 101 is the “plus” (+) direction and the tempo value exceeds the maximum value (YES in step S36), the external tempo synchronization mode is set. Then, the fact is displayed on the LCD display 100 (step S37). As described above, when the dial switch 101 is rotated in the internal tempo mode and the automatic performance is stopped, the tempo of the automatic performance is set according to the rotation direction and the rotation amount, and the tempo value is displayed on the LCD display 100. . At this time, when the dial switch is operated in the minus direction and reaches the minimum tempo value (for example, the tempo value “32”), the tempo value is limited even if there is a further operation in the minus direction and the tempo value is reduced to a value less than that. Avoid the tempo value. Conversely, when the operation is performed in the plus direction to reach the maximum tempo value (for example, the tempo value “280”) and there is further operation in the plus direction, the external tempo synchronization mode is set. When the external tempo synchronization mode is set, an indication such as “EXT SYNC” is displayed on the LCD display 100 so that the user can recognize that the mode has been set.
[0027]
If the internal tempo mode and the automatic performance reproduction are being performed (step S34 is NO and step S38 is YES), the tempo of the automatic performance is set according to the rotation direction and the rotation amount of the dial switch 101, and (Step S39). In this case, upper and lower limit processing is performed. That is, processing is performed so that a tempo value cannot be set to a value equal to or greater than a predetermined tempo value (eg, equal to or greater than “280”) or equal to or less than (eg, equal to or less than “32”). As described above, when the dial switch 101 is rotated in the internal tempo mode and during the automatic performance reproduction, the tempo of the automatic performance is set and displayed according to the rotation direction and the rotation amount. At this time, not only the lower limit but also the upper limit (for example, the tempo value “280”) is set as described above. During playback, even if the value exceeds the maximum value, the external tempo synchronization mode is not set. This is to prevent unintended mode switching when the dial switch 101 is rotated near the maximum value. For example, when the internal tempo mode is changed to the external tempo synchronization mode during the automatic performance reproduction, if the MIDI clock is not supplied from the external device, the tempo is not determined and the performance is stopped. .
[0028]
When the external tempo synchronization mode is set and the automatic performance is stopped (NO in steps S34 and S38 and YES in step S40), if the rotation direction of the dial switch 101 is "minus (-)" (step S41) YES), the internal tempo mode is set (step S42), the tempo of the automatic performance is set according to the rotation amount of the dial switch 101, and displayed on the LCD display 100 (step S39). In this case, the tempo value decreases from the maximum tempo value. In this case, the lower limit processing is performed. That is, processing is performed so that the tempo value cannot be set below the predetermined tempo value. As described above, when the dial switch 101 is rotated during the external tempo synchronization mode and the automatic performance is stopped, the operation is invalidated if the rotation direction is the plus direction, and the automatic performance device is disabled if the rotation direction is the minus direction. Set the internal tempo mode, set the tempo of the automatic performance according to the amount of rotation, and display it. At this time, the value is gradually decreased from the maximum tempo value according to the rotation amount (however, there is a lower limit). By changing the display on the LCD display 100 from a display such as "EXT SYNC" to a display of a tempo value, it can be seen that the internal tempo mode has been changed. When the dial switch 101 is rotated during the external tempo synchronization mode and during the automatic performance, the rotation operation is invalidated regardless of the rotation direction.
When the above-described processes are completed, the process jumps to “other processes” in step S33 of the flowchart shown in FIG. 3B, performs “other processes”, and ends the “tempo setting process”.
[0029]
By the above-described processing, the following operations are specifically performed. First, an operation example of the tempo mode will be described. The "BPM / TAP / EXT SYNC" switch 104 is pressed only once, and subsequently, a desired tempo value can be set by rotating the dial switch 101. This corresponds to a tempo setting operation in this tempo mode. When such an operation is performed, the tempo mode is set in step S2 of FIG. 3A in response to one operation of the “BPM / TAP / EXT SYNC” switch 104, and the tap mode is set once in step S14. However, in this state, when the dial switch 101 is rotated, it is determined that step S28 in FIG. 3B is YES, YES in step S29 (tempo mode), and step YES in step S30 (tap mode). In S31, the tap mode is released, and only the tempo mode is set. Thus, from point B in FIG. 3B to FIG. 3C, as described above, by executing any one of steps S35, S39, and S43, the tempo is set in accordance with the rotation operation of dial switch 101.
[0030]
Next, an operation example of the tap mode will be described. During the automatic performance reproduction, the "BPM / TAP / EXT SYNC" switch 104 is continuously pressed at least twice, thereby performing the tempo setting operation in the tap mode. Further, while the automatic performance is stopped, the "BPM / TAP / EXT SYNC" switch 104 is continuously pressed at least four times, whereby the tempo setting operation is performed in the tap mode. First, when the “BPM / TAP / EXT SYNC” switch 104 is pressed once, the tap mode is set, and the tap timer starts measuring the time until the “BPM / TAP / EXT SYNC” switch 104 is pressed next. I do. However, the tap mode is not set in the external tempo synchronization mode. If the second operation of the "BPM / TAP / EXT SYNC" switch 104 is performed during the automatic performance reproduction, the tempo value is calculated in step S7 based on the tap timer value captured in step S5, and the automatic performance is started. Set the tempo to that tempo. As one of the calculation methods, when the tap operation time interval is associated with the length of a quarter note, the calculation is performed by the following formula.
Tempo value = 60000 / tap timer value (ms) ... (Equation 1-1)
In this case, for example, if the tap timer value is 400 ms, the tempo value is set to “150”. Further, when the “BPM / TAP / EXT SYNC” switch 104 is pressed for the second time while the automatic performance is stopped (NO in step S6), the tap timer value is stored in the tap register in step S12. Does not determine a new tempo. Similarly, the tempo is not determined in the third pressing operation of the “BPM / TAP / EXT SYNC” switch 104. When there is a fourth press operation of the “BPM / TAP / EXT SYNC” switch 104, the time interval of the tap timer value at the time of the first, second, and second press operations, and the current press operation (ie, 3 A new tempo is calculated based on the time interval of the tap timer value in the fourth to fourth times (step S10). As a calculation method, a tap timer used for tempo calculation by a method such as simple averaging of the time intervals of the three tap timer values, weighted averaging, or adopting an intermediate value of the time intervals of the three tap timer values. The value is determined, and a tempo value is obtained from the above-described calculation formula (see formula 1-1). Then, when a time corresponding to one beat in the calculated tempo value has elapsed, the automatic performance at the tempo is started.
[0031]
In addition, by performing processing as in steps S36 and S37 in FIG. 3C, in the internal tempo mode, when the operation of setting the tempo value to a value outside the predetermined value is performed, the internal tempo mode is changed to the external tempo synchronization mode. Therefore, it is possible to switch between the internal tempo mode and the external tempo synchronization mode with a simple operation. In addition, by performing the processing of steps S41 and S42 from NO in step S38 in FIG. 3C, the switching to the external tempo synchronization mode is enabled only during the automatic performance stop. Setting the external tempo synchronization mode can be prevented. Further, in the external tempo synchronization mode, the operation is changed to the internal tempo mode by setting the tempo value within the predetermined value. Therefore, switching between the internal tempo mode and the external tempo synchronization mode can be performed with a simple operation. Then, in the external tempo synchronization mode, the operation is changed to the internal tempo mode by setting the automatic performance data or the system default tempo. Therefore, switching between the internal tempo mode and the external tempo synchronization mode can be performed with a simple operation.
[0032]
The operator (the dial switch in the above-described embodiment) commonly used for a plurality of functions is not limited to the rotary type, but may be any type of operator such as a slide type or an up / down type operator. Is also good. Further, the volume is not limited to the digital type encoder, but may be an analog type volume. Further, a virtual operator displayed on a display may be used. However, the operation of changing the value in this case is performed using a separately prepared mouse, switch, or the like. Also, the switch for setting the function of the common operator to the tempo mode may be a virtual operator displayed on the display. In this case, the actual operation is performed using a separately prepared switch such as a mouse.
The tempo boundary value at the time of switching from the internal tempo mode to the external tempo synchronization mode is not limited to the maximum value but may be the minimum value. Further, both the maximum value and the minimum value may be used. By specifying the default tempo of the automatic performance pattern, the method of specifying the default tempo when switching the tempo mode from the external tempo synchronization mode to the internal tempo mode is not limited to the embodiment. For example, a dedicated default tempo designating operator may be provided, or a plurality of operators may be operated simultaneously (for example, an up / down operator is simultaneously pressed). In addition to the default tempo of the automatic performance pattern, the tempo mode may be switched from the external tempo synchronization mode to the internal tempo mode when a default tempo of song data or a default set in the system is designated.
The tempo mode may be switched from the external tempo synchronization mode to the internal tempo mode by setting the tap tempo.
Only when the automatic performance is stopped, the tempo mode can be switched from the internal tempo mode to the external tempo synchronization mode. The user may be able to set whether or not to be able to switch during the automatic performance reproduction, or may be provided with information on whether or not the automatic performance data can be switched. The automatic performance is not limited to pattern performance (automatic rhythm performance and automatic accompaniment), but may be song performance.
[0033]
When the tempo setting device according to the present embodiment is applied to an electronic musical instrument, the electronic musical instrument is not limited to a keyboard instrument, but may be a string instrument, a wind instrument, or a percussion instrument. In such a case, the sound source device, the automatic performance device, and the like are not limited to those built in one electronic musical instrument main body, but each device is separately configured, and each device is configured using communication means such as a MIDI interface or various networks. It is needless to say that the present invention can be similarly applied to a configuration configured to connect Further, the configuration may be a configuration of a personal computer and application software. In this case, the processing program may be supplied from a storage medium such as a magnetic disk, an optical disk, or a semiconductor memory, or may be supplied via a network. Further, the present invention may be applied to a karaoke device, a game device, a portable communication terminal such as a mobile phone, an automatic performance piano, and the like.
[0034]
The format of the performance data is an “event + absolute time” format in which the event occurrence time is represented by an absolute time in a song or bar, and the event occurrence time is represented by the time from the immediately preceding event. "Event + relative time" format, "Pitch (rest) + note length" format, which expresses song data with note pitch and note length or rest and rest length, for each minimum resolution of performance Any type, such as a “solid” type, in which a memory area is secured and events are stored in a memory area corresponding to the time when a performance event occurs, may be used. When performance data for a plurality of channels exists, a format in which data of a plurality of channels are mixed may be used, or a format in which data of each channel is separated for each track may be used. Further, the processing method of the performance data includes a method of changing the processing cycle according to the set tempo, a method of changing the value of the timing data during automatic performance according to the set tempo while the processing cycle is constant, and a processing cycle. May be any method such as a method of changing the timing data counting method in the performance data in a single process in accordance with the tempo.
Further, on the memory, time-series performance data may be stored in a continuous area, or performance data scattered and stored in discrete areas may be separately managed as continuous data. Good. That is, it is only necessary to be able to manage the performance data as time-series continuous performance data, and it does not matter whether the performance data is continuously stored in the memory.
[0035]
【The invention's effect】
According to the present invention, a dial switch commonly used for a plurality of functions can be set as a switch for setting a tempo using a tap tempo switch. Can be provided.
Further, according to the present invention, since the internal tempo mode and the external tempo synchronous mode can be switched using the tempo setting switch, the tempo setting function can be switched by a simple operation. The effect that it becomes possible is obtained.
[Brief description of the drawings]
FIG. 1 is a block diagram of a hardware configuration showing an embodiment of an automatic performance device incorporating a tempo setting device according to the present invention.
FIG. 2 is an overall configuration diagram showing an embodiment of an operation panel in the automatic performance device.
FIG. 3A is a flowchart illustrating an example of a tempo setting process, and is a flowchart illustrating a first half of the tempo setting process;
FIG. 3B is a flowchart showing one embodiment of a tempo setting process, and is a flowchart showing an intermediate portion of the tempo setting process.
FIG. 3C is a flowchart showing an embodiment of a tempo setting process, and is a flowchart showing a latter half of the tempo setting process.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... CPU, 1A ... Timer, 2 ... ROM, 3 ... RAM, 4 ... Key press detection circuit, 4A ... Keyboard, 5 ... Switch detection circuit, 5A ... Switch, 6 ... Display circuit, 6A ... Display, 7 ... Sound source circuit , 8 ... effect circuit, 8A ... sound system, 9 ... external storage device, 10 ... MIDI interface, 10A ... other MIDI equipment, 11 ... communication interface, 11A ... server computer, 11B ... communication network, 1D ... data and address bus

Claims (5)

Tempo setting means for setting an arbitrary performance tempo,
External tempo receiving means for receiving performance tempo information from outside;
It can be set to either an internal tempo mode in which the performance is performed at the performance tempo set by the tempo setting means, or an external tempo mode in which the performance is performed at the performance tempo based on the performance tempo information received by the external tempo receiving means. Yes, when the internal tempo mode is set and the performance is stopped, the internal tempo mode is set to the external tempo mode on condition that the set value of the performance tempo by the tempo setting means exceeds a predetermined value. Control means for changing
A tempo setting device comprising: Wherein, when the setting value of the tempo setting means by Ri tempo in a state where the set in the external tempo mode is set to a predetermined value, the setting from the external tempo mode to the internal tempo mode 2. The tempo setting device according to claim 1 , wherein the tempo setting device changes the tempo. The control unit changes the setting from the external tempo mode to the internal tempo mode in response to a predetermined operation for setting a performance tempo stored in advance in a state where the external tempo mode is set. tempo setting device according to claim 1 is intended. A first step of setting an arbitrary performance tempo;
A second step of receiving performance tempo information from outside;
It can be set to either an internal tempo mode in which the performance is performed at the performance tempo set by the tempo setting means, or an external tempo mode in which the performance is performed at the performance tempo based on the performance tempo information received by the external tempo receiving means. When the internal tempo mode is set and the performance is stopped , the internal tempo mode is switched to the external tempo mode on condition that the set value of the performance tempo set in the first step exceeds a predetermined value. The third step of changing the setting to tempo mode and
A tempo setting method characterized by comprising : A machine-readable recording medium, it stores a program for setting a performance tempo, the program causes the processor,
A first step of setting an arbitrary performance tempo;
A second step of receiving performance tempo information from outside;
It can be set to either an internal tempo mode in which the performance is performed at the performance tempo set by the tempo setting means, or an external tempo mode in which the performance is performed at the performance tempo based on the performance tempo information received by the external tempo receiving means. When the internal tempo mode is set and the performance is stopped , the internal tempo mode is switched to the external tempo mode on condition that the set value of the performance tempo set in the first step exceeds a predetermined value. The third step of changing the setting to tempo mode and
Is executed .

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