JP3767418B2 - Automatic performance device and automatic performance control program - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an automatic performance device composed of an electronic musical instrument, a computer, various computer applied devices, and the like so that various automatic performances can be performed in accordance with the atmosphere environment in which the automatic performance device is placed and the operation state of an operator. It is related with the automatic performance apparatus.
[0002]
[Prior art]
Conventionally, in automatic performance, musical sounds are sequentially formed based on automatic performance data representing note information of a musical score. Thereby, the same performance can be reproduced any number of times, and various performances can be performed by changing the automatic performance data. However, with the same automatic performance data, the same performance will be the same in any environment, and the user can only set the tempo, the overall volume, or the playback track, and enjoy the performance. There is a problem that it becomes monotonous.
[0003]
Therefore, the existing performance data and performance event data itself are kept as they are, and the environment surrounding the automatic performance is reflected in the automatic performance, or the automatic performance is changed in various ways according to the user's operation. This is useful in terms of enjoying the performance.
[0004]
An electronic musical instrument that modulates a timbre by controlling a timbre parameter by detecting changes in the environment such as temperature, humidity, or atmospheric pressure is disclosed in Japanese Laid-Open Patent Publication No. 7-271374. Electronic musical instruments simulate changes in timbre due to the environment of natural musical instruments, and there was no idea of reflecting changes in the environment in automatic performances.
[0005]
It is an object of the present invention to provide a novel automatic performance device, and to reflect various environmental conditions and operation states along with the progress of automatic performance so that various automatic performances can be performed.
[0006]
[Means for Solving the Problems]
The automatic performance device according to claim 1 of the present invention comprises: Play a song Time series for Event data Performance event data And articles Event data Recorded automatic performance data that specifies the playback progress timing for processing each event data. Memory did The storage means and the environmental conditions of the atmosphere environment Sequential Environmental status detection means to detect , A counter for counting the playback progress timing of the music, and condition setting means for setting conditions for musical tone processing according to the playback progress timing based on the condition event data read in accordance with the playback progress timing counted by the counter And means for forming a musical sound according to the reproduction progress timing based on the performance event data read in accordance with the reproduction progress timing counted by the counter, and the environmental state detected by the environmental state detection means Automatic performance means for controlling whether or not to form a musical sound according to the reproduction progress timing according to whether or not the condition set by the condition setting means is satisfied. It is characterized by that.
[0007]
According to the automatic performance device of the first aspect configured as described above, for example, a musical sound corresponding to specific performance event data can be generated or not generated according to the environmental state. In addition to playing, you can perform a variety of automatic performances.
[0008]
The automatic performance control program according to claim 2 of the present invention includes: A memory which stores automatic performance data in which performance event data and conditional event data are recorded as time-series event data for playing back music, and in which playback progress timings for processing each event data are respectively defined. Means for sequentially detecting the environmental state of the atmospheric environment, a counter for counting the reproduction progress timing of music, and a processing means, wherein the processing means is counted by the counter Based on the condition event data read according to the playback progress timing, a step of setting a musical tone processing condition according to the playback progress timing; and the performance event data read according to the playback progress timing counted by the counter Based on the playback progress time A musical sound corresponding to the reproduction progress timing depending on whether or not the environmental state detected by the environmental state detecting means satisfies the condition set by the condition setting means. Controlling whether or not to form It is a program.
[0009]
According to the execution of the automatic performance control program of claim 2 configured as described above, the same effect as that of claim 1 can be obtained.
[0010]
The automatic performance device according to claim 3 of the present invention comprises: Play a song Time series for Event data Performance event data And articles Event data Recorded automatic performance data that specifies the playback progress timing for processing each event data. Memory did The storage means and the operating state of the operating means Sequential Operation state detection means to detect and , A counter for counting the playback progress timing of the music, and condition setting means for setting conditions for musical tone processing according to the playback progress timing based on the condition event data read in accordance with the playback progress timing counted by the counter And means for forming a musical sound according to the playback progress timing based on the performance event data read in accordance with the playback progress timing counted by the counter, and the operation state detected by the operation state detection means is Automatic performance means for controlling whether or not to form a musical sound according to the reproduction progress timing according to whether or not the condition set by the condition setting means is satisfied. It is characterized by that.
[0011]
According to the automatic performance apparatus of claim 3 configured as described above, for example, a musical sound corresponding to specific performance event data can be generated or not generated according to the operation state of the operation means. In addition to just playing back data, you can perform a variety of automatic performances.
[0012]
The automatic performance control program according to claim 4 of the present invention includes: A memory which stores automatic performance data in which performance event data and conditional event data are recorded as time-series event data for playing back music, and in which playback progress timings for processing each event data are respectively defined. In the computer device comprising means, an operation state detecting means for sequentially detecting the operation state of the operation means, a counter for counting the reproduction progress timing of the music, and a processing means, the processing means is counted by the counter Based on the condition event data read according to the playback progress timing, a step of setting a musical tone processing condition according to the playback progress timing; and the performance event data read according to the playback progress timing counted by the counter Based on the playback progress timin A musical sound corresponding to the reproduction progress timing according to whether or not the operation state detected by the operation state detection unit satisfies a condition set by the condition setting unit. Controlling whether or not to form, and for performing It is a program.
[0013]
According to the execution of the automatic performance control program of claim 4 configured as described above, the same operation effect as that of claim 3 can be obtained.
[0016]
Claims of the invention 5 The automatic performance device of claim 1 or 3 The condition event data is stored in the storage means in association with the performance event data.
[0017]
Claims configured as above 5 According to the automatic performance device of claim 1 or 3 In addition to the same operational effects, a variety of automatic performances that accurately reflect the environment and operation status for each performance event can be realized.
[0018]
Claims of the invention 6 The automatic performance device of claim 1 or 3 With automatic configuration during automatic performance Detecting the operation state of the predetermined operation means, and Depending on the operating state Set It is characterized by changing conditions.
[0019]
Claims configured as above 6 According to the automatic performance device of claim 1 or 3 In addition to obtaining the same operational effects, the user's confidence can change the contents of the automatic performance in a variety of ways in consideration of the contents of music, environmental conditions, and operating conditions that change from moment to moment.
[0020]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 is a block diagram of a main part of an automatic performance apparatus according to an embodiment of the present invention, which is configured in a keyboard-type electronic musical instrument, for example. The CPU 1 controls the entire apparatus using the working area of the RAM 3 based on a control program stored in the ROM 2.
[0021]
The operation element 4 includes a panel switch, a keyboard, a foot switch, a volume operation element, a pad, a wheel operation element, and the like. The CPU 1 detects an operation event of the operation element 4 from the operation circuit 4a, and performs a keyboard performance corresponding to the operation of the keyboard. Perform the process. In addition to performing processing in accordance with the operation of various switches, the display device 5 is controlled via the display circuit 5a to select automatic performance data, input automatic performance data in steps, or input / change processing conditions to be described later. Operations are performed. The timer 6 is a circuit that generates an interrupt signal for performing automatic performance processing.
[0022]
In this embodiment, the set of performance event data is referred to as “performance data”, the set of condition event data is referred to as “condition data”, and the performance data and the condition data are collectively referred to as “automatic performance data”.
[0023]
The external storage device 7 is a hard disk, floppy disk, CD-ROM, MO disk, or the like. Automatic performance data and communication input from another electronic musical instrument A via the MIDI interface 8 are stored in the hard disk of the external storage device 7. A plurality of automatic performance data such as automatic performance data input from the communication network B via the interface 9 or automatic performance data created by the user by operating the operation element 4 is stored. Of these automatic performance data, the automatic performance data selected by the operation of the operator 4 is stored in the RAM 3, and the CPU 1 stores the automatic performance data stored in the RAM 3 by the automatic performance control program stored in the ROM 2. To play automatically.
[0024]
The tone generator circuit 10 performs time-division multiplexing processing on a plurality of channels so that a plurality of sounds can be generated substantially simultaneously, and generates a musical sound signal during automatic performance based on performance event data set by the CPU 1. Then, the sound signal is D / A converted and amplified by the sound system 11 to generate a musical sound. As will be described later, depending on whether or not performance event data is transferred from the CPU 1 to the tone generator circuit 10, the automatic performance changes according to the environmental state or the operation state of the operator.
[0025]
The detection device 12 is a device that detects the environmental state of the place where the automatic performance device is installed, and is a light detection sensor that detects the amount of light, a sound detection sensor that detects the amount of sound, and a temperature that detects temperature. The sensor includes a detection sensor, a humidity detection sensor for detecting humidity, an atmospheric pressure detection sensor for detecting atmospheric pressure, a vibration detection sensor for detecting the amount of vibration, and the like. The detection signals of each of these sensors are taken into the CPU 1 through the detection circuit 12a.
[0026]
FIG. 2 is a diagram showing an example of automatic performance data in the first embodiment. This automatic performance data is based on performance data in SMF (standard MIDI file) format. Setting information such as song name and tempo is recorded at the beginning, and then timing data and performance event data are recorded in the order of playback. It is memorized in time series. Conditional event data is added to the performance event data as a set as necessary.
[0027]
In the example of FIG. 2, the first timing is when one piece of performance event data exists at one timing. In the second timing, one performance event data exists at one timing, and conditional event data is added to the performance event data. The third timing includes a plurality (three) of performance event data at one timing, and conditional event data is added to some (two) of the performance event data. Finally, end data representing the end of the song is recorded.
[0028]
The performance event data is composed of data such as note number, note on or note off, velocity, pitch change, program change (tone color), and the like. The condition event data is used to determine whether the corresponding performance event data is to be processed during automatic performance (whether it is transferred to the tone generator circuit 10 or the like) according to the detected environmental state or operation state. Data representing processing conditions. The performance event data to which the processing condition (conditional event data) is not added is processed unconditionally during automatic performance, and the performance event data to which the processing condition is added is the environmental state detected in real time during automatic performance or Processed only when the operation state satisfies the processing condition. That is, performance event data that does not satisfy the processing conditions is ignored.
[0029]
In the first embodiment, there is performance event data to which conditional event data is not added. However, for performance event data to which conditional event data is added, conditional event data is stored for each performance event data. The condition event data is preferably recorded using MIDI standard exclusive data or the like. That is, the exclusive data of the MIDI standard is a data format that can be used for general purposes such as setting arbitrary data, and records conditional event data without interfering with performance event data standardized for automatic performance processing. be able to.
[0030]
Elements that can be set as processing conditions by the condition event data are the light quantity, volume, temperature, humidity, atmospheric pressure, vibration amount, and other environmental conditions detected by the detection device 12, or the operation element 4 (keyboard, foot switch, volume operation). This is a determination condition for an operation state such as an operation amount of a child, a pad, or a wheel operator. In other words, it defines whether or not the performance event data is processed when the environmental state or the operation state is a certain value or more, less than a certain value, or a certain value itself. As the operation state, an operation state in another electronic musical instrument A may be detected. Further, via the communication interface 9 and the communication network B, an environmental state and an operation state detected by another detection device or automatic performance device connected on the network may be acquired.
[0031]
The condition event data corresponding to one piece of performance event data may be either a case where only one processing condition is stored or a case where a plurality of processing conditions are stored. If the plurality of processing conditions are stored, the performance event data is processed when any one of the processing conditions is satisfied.
[0032]
FIG. 3 is a flowchart of the main operation of the embodiment, and is a process common to the first embodiment, the second embodiment described later, and the third embodiment. This flow is a process that is always activated (repeated) from when the apparatus main body is activated until it stops, and when this main operation is activated, various buffers and flags are reset, and the tone generator circuit 10 is activated. The initial setting process for setting the keyboard, display panel, etc. to the initial state is performed. The RAM 3 is set with a read buffer area for storing performance event data and condition event data of the selected automatic performance data. The RAM 3 is set with a condition buffer area in the second and third embodiments.
[0033]
First, in step S1, processing for selecting automatic performance data is performed, and all performance event data of the selected automatic performance data and corresponding conditional event data, if any, are sent to the RAM 3 together with timing data. Write to the read buffer. Next, in step S2, it is determined whether there is an instruction to start automatic performance. If there is no instruction to start automatic performance, the process proceeds to step S4, and if there is an instruction to start automatic performance, the interrupt operation process is started in step S3. Then, the process proceeds to step S4.
[0034]
In step S4, it is determined whether or not there is an instruction to end the automatic performance. If there is no instruction to end the automatic performance, the process proceeds to step S6, and if there is an instruction to end the automatic performance, the interrupt operation process is stopped in step S5. Then, the process proceeds to step S6. In step S6, processing for editing various data is performed. For example, the contents of the performance event data (and the corresponding condition event data) of the selected automatic performance data are displayed on the display device 5 and processing is performed so that the user can arbitrarily edit the contents of the data. . In addition, the edited contents are stored as new performance event data (or conditional event data).
[0035]
In step S7, the following other processes are performed.
(Other processing 1)
Processing corresponding to various operations using the operation element 4 such as setting change by a panel switch and sound generation by a keyboard is performed.
(Other processing 2)
Set the environment used for condition judgment. That is, any one of the environmental state detected by the detection device 12 of the main unit, the operation state of the operation unit 4 of the main unit, and the operation state of the operation unit of another electronic musical instrument A is compared with the processing condition (condition event data). Set whether to perform condition judgment.
(Other processing 3)
Condition event data is edited or new processing conditions are set according to the operation contents (numerical values and on / off) input in real time from the operation element 4 during automatic performance. Specifically, the content of the condition buffer used in the interrupt operation of the second and third embodiments described later is changed according to the operation content of the operator 4.
[0036]
FIG. 4 is a flowchart illustrating a processing example of the interrupt operation according to the first embodiment. In the interrupt operation, a counter that counts the interrupt signal from the timer 6 as one clock is used, and the number of clocks (count value) in this counter represents the progress time of the music. First, in step S11, referring to the read buffer of the RAM 3, it is determined whether there is performance event data to be processed at the current timing based on the count value of the counter. If there is no performance event data to be processed, the process returns to the original routine as it is. If there is performance event data to be processed, one performance event data to be processed is read in step S12, and the process proceeds to step S13.
[0037]
In step S13, it is determined whether or not the condition event data to be processed is added to the read performance event data with reference to the read buffer of the RAM 3. If the condition event data to be processed is not added, step S16 is performed. If the condition event data to be processed is added, a state necessary for determining the processing condition is detected from the detection device 12 or the operator 4 in step S14. In step S15, it is determined whether or not the detected state (environmental state or operation state) satisfies the processing condition. If the processing conditions are satisfied, in step S16, the performance event data that has been read is subjected to automatic performance processing as it is, and the process proceeds to step S17.
[0038]
On the other hand, if the detected state does not satisfy the processing conditions in step S15, the process proceeds to step S17 without performing automatic performance processing on the read performance event data. Then, in step S17, it is determined whether or not performance event data to be processed remains at the current timing of the reading buffer. If it remains, the process returns to step S12, and if not, the process returns to the original routine.
[0039]
In this way, the state detected by the detection device 12 or the operator 4 is compared with the processing condition represented by the read condition event data, and the read performance event data is not processed or processed depending on the detected state. Or is decided.
[0040]
For example, to explain a specific example, for performance event data with a short pronunciation duration (gate time), a threshold value of predetermined brightness and information (processing condition) “ON above a threshold value” (conditional event data) As described above, a process of comparing the brightness of the environment (environmental state) detected by the detection device 12 with this processing condition is performed. In other words, if the brightness of the environment is equal to or greater than the threshold value, automatic performance is performed according to the performance event data, but if the brightness of the environment is less than the threshold value, a musical sound is generated for performance event data having a short pronunciation duration. Do not. As a result, the automatic performance becomes legato-like when the environment becomes dark. In addition, conditional event data about the same brightness as described above can be added to the gorgeous performance event data of the timbre, and the musical tone of the gorgeous timbre can be cut when the environment becomes dark. In addition, a threshold value and processing conditions for the operation amount of the operation element 4 such as a keyboard and other switches can be added, and automatic performance control similar to the above can be performed according to the operation amount.
[0041]
FIG. 5 is a diagram showing an example of automatic performance data in the second embodiment. In the first embodiment, condition event data is stored for each performance event data. In the second embodiment, condition data is stored for each timing data. Event data is stored. In the example of FIG. 5, the first timing is a case where one performance event data exists at one timing, and no conditional event data is stored at this timing. In the second timing, one performance event data exists at one timing, and conditional event data is added to this timing. In the third timing, a plurality (three) of performance event data exist at one timing, and conditional event data is added to this timing.
[0042]
Conditional event data is composed of target performance event information and processing condition information. The target performance event information is information representing performance event data that is subject to condition determination based on the condition event data at the timing, and stores the type and number of target performance event data. For example, the type of performance event data indicates whether the determination condition is applied only to a key-on event or a key-on event and a pitch change event. The processing condition information is information representing the processing conditions for the performance event data specified by the target performance event information, and the content is the same as the content of the condition event data in the first embodiment.
[0043]
FIG. 6 is a diagram showing an example of automatic performance data in the third embodiment. In the third embodiment, performance data (a set of performance event data) and condition data (a set of condition event data) are stored as different sequence data, and the performance event data and the condition event data are parallel in automatic performance. And read. The contents of the condition event data in the condition data are the same as the condition event data of the second embodiment. Although the timing data in the performance data and the condition data represent the same time axis, both timings are not necessarily the same timing, and one condition event data is a new condition event data after the data is read out. It is valid until is read. That is, if a plurality of performance event data exists between the timings of two condition event data, the previous condition event data is used for the plurality of performance event data.
[0044]
FIG. 7 is a flowchart showing a processing example of the interrupt operation of the second embodiment and the third embodiment. First, in step S21, referring to the read buffer of the RAM 3, it is determined whether there is condition event data to be processed at the current timing based on the count value of the counter. If there is no condition event data to be processed, the process proceeds to step S23. If there is condition event data to be processed, the condition event data to be processed is read in step S22, and information on the processing condition based on the condition event data is stored in the condition buffer. Store and proceed to step S23.
[0045]
In step S23, it is determined whether there is performance event data to be processed at the current timing. If there is no performance event data to be processed, the process returns to the original routine. If there is performance event data to be processed, all performance event data to be processed is read in step S24, and the process proceeds to step S25. In step S25, based on the target performance event information of the condition event data, it is determined whether or not there is data to be processed conditions to be reflected in the performance event data to be processed. If there is no data to be reflected. Proceeding to step S29, if there is data to be reflected, in step S26, the state necessary for determining the processing condition is detected from the detection device 12 or the operator 4.
[0046]
In step S27, it is determined whether there is performance event data that does not satisfy the processing condition in the detected state (environmental state or operation state). If there is performance event data that does not satisfy the processing condition, the process proceeds to step S28. If there is no performance event data that does not satisfy the processing conditions, the process proceeds to step S29. In step S28, performance event data that is not subject to determination and performance event data that satisfies the processing conditions are automatically processed, and the process returns to the original routine. In step S29, all performance event data is automatically processed. To return to the original routine.
[0047]
As described above, in the condition event data of the second embodiment and the third embodiment, the performance event data to which the processing condition is reflected is specified by the target performance event information, and the specified performance event data is detected. It is determined whether or not the environmental state or the operation state satisfies the processing condition, and automatic performance processing is not performed for performance event data that does not satisfy the condition.
[0048]
For example, a specific example will be described. As the “target performance event information” of the conditional event data, as in the case of the first embodiment, “key-on of performance event data with a short pronunciation duration” or “fuzzy performance event data of timbre”. Performance event data such as “key on” is designated, and a brightness threshold value and a processing condition of “on above a threshold value” are added as “processing condition information”. Thereby, it can do the same as 1st Embodiment according to the brightness of the environment detected by the detection apparatus 12. FIG. In addition, a threshold value and processing conditions for the operation amount of the operation element 4 such as a keyboard and other switches can be added, and automatic performance control similar to the above can be performed according to the operation amount.
[0049]
In addition, the condition event data stored in the condition buffer can be changed in real time during the automatic performance according to the operation of the operation element 4, and the automatic performance can be changed in real time by the user's operation.
[0050]
FIG. 8 is an external view showing a specific example of the automatic performance apparatus of the embodiment, and the sequencer 100 can create, edit, record, and reproduce automatic performance data. In addition, although an internal sound source is provided and musical sounds during automatic performance can be output as an audio signal from an output terminal (not shown), performance event data during automatic performance is transmitted from the MIDI terminal to an external sound source device, effector, or other device. It can also be output to MIDI equipment. The detection device 200 is an integrated multifunction sensor that includes a light detection sensor, a sound detection sensor, a temperature detection sensor, an acceleration detection sensor, a position detection sensor, and the like, and detects light quantity as environmental information by selecting a switch operation or the like. The signal, the sound volume detection signal, the temperature detection signal, the acceleration detection signal, and the position detection signal are converted into MIDI data (for example, exclusive data) and selectively input to the sequencer 100.
[0051]
Then, the sequencer 100 performs an automatic performance process similar to that in each of the above embodiments, and controls the automatic performance according to various environmental state data input from the detection device 200. In addition, automatic performance is controlled according to the operation state of the operation elements such as the mouse 110, the panel switch 120, and the jog shuttle 130. Control according to the environmental state and the operation state of the operator may be selected.
[0052]
FIG. 9 is an external view showing still another specific example of the automatic performance device according to the embodiment. The synthesizer 300 performs the same automatic performance processing as in the above embodiments. A rhythm machine 400 is connected to the synthesizer 300, and the synthesizer 300 performs an automatic performance, and outputs performance event data of, for example, a rhythm part in the automatic performance data to the rhythm machine 400 as MIDI data. The rhythm machine 400 generates a rhythm sound according to the input performance event data.
[0053]
The synthesizer 300 includes a keyboard 310 as a performance operator, and the rhythm performance (automatic performance) can be changed by operating the keyboard 310 during the automatic performance. For example, performance event data corresponding to a 16-beat performance of a hi-hat is stored as shown in FIG. Data is designated, and processing conditions such as “keyboard aftertouch control value is OFF when 00-63, ON when 64-127 is ON” are set. As a result, when the keyboard is pressed weakly (aftertouch control value is in the range of 00 to 63), the performance is 8 beats. When the keyboard is pressed hard (aftertouch control value is in the range of 64 to 127), the performance is 16 beats. Change.
[0054]
As described above, the automatic performance changes according to the condition event data and the environment state or operation state, so various automatic performances can be performed. However, various methods other than the embodiment adopt this change method. can do.
[0055]
The condition event data may be any data as long as it determines processing conditions for processing performance event data. For example, if one condition event data represents a plurality of processing conditions, a method of processing performance event data only when all the processing conditions are satisfied, or a predetermined one of the plurality of processing conditions A method for processing performance event data when a number of processing conditions are satisfied, and a method for processing performance event data when a specific combination of processing conditions stored in a table are satisfied are effective. .
[0056]
The automatic performance data of the first embodiment may have any configuration as long as it has a processing condition for each performance event data. For example, condition event data may be added to all performance event data, and data indicating whether or not to use each condition event data may be stored.
[0057]
In addition, information indicating a period in which the data can be used may be stored in the condition event data. If it does in this way, automatic performance can also be changed according to a season, day and night, etc., for example.
[0058]
The condition data (set of condition event data) is preferably stored in correspondence with the performance data (set of performance event data), but a plurality of pieces of performance data and condition data are prepared independently, You may enable it to select individually performance data and condition data used at the time of automatic performance.
[0059]
As a method for setting conditions based on condition event data, the reference processing condition (reference value of the condition judgment standard) is stored in the setting information, and the automatic event data or the condition event data in the condition data is stored from the reference value. The change width may be stored. In other words, a configuration may be used in which the processing conditions at each time are calculated from the condition event data read in order and the reference value stored in the setting information.
[0060]
The detection process of the environmental state or the operation state may be performed every time the interrupt operation is activated, or may be performed every time the environmental state or the operation state changes.
[0061]
In the above embodiment, the electronic musical instrument has been described as an example. Further, the sound source device, the sequencer, the effector, and the like are separate devices, and the devices may be connected using communication means such as MIDI or various networks. Furthermore, a portable device such as a mobile phone, a karaoke device, or the like may be used. In other words, any device that can perform automatic performance based on event-based performance data may be applied.
[0062]
As for the format of performance data or condition data, in addition to the format of “event + absolute time” in which the event occurrence time is expressed in absolute time within a song or measure as in the embodiment, the event occurrence time is the previous one. “Event + Relative Time” format in terms of time from the event, “Pitch (rest) + note length” format in which the timing of the event is expressed in terms of note pitch and note length or rest and rest length Any format may be used, such as a “solid method” format in which a memory area is secured for each minimum resolution of automatic performance (playback function) and performance events are stored in a memory area corresponding to the time at which the event occurs.
[0063]
Further, an automatic performance control program, performance data, or condition data may be downloaded using a communication interface. In this case, for example, by connecting to a communication network such as a LAN (local area network), the Internet or a telephone line, and receiving distribution of an automatic performance control program, performance data or condition data from the server computer via the communication network. , Record it on the hard disk and the download is complete. In this case, the communication interface is not limited to a dedicated MIDI interface, and a MIDI interface may be configured using a general-purpose interface such as RS-232C, USB (Universal Serial Bus), IEEE 1394, or the like.
[0064]
【The invention's effect】
According to the execution of the automatic performance device according to claim 1 or the automatic performance control program according to claim 2, for example, a specific musical sound can be generated or not generated according to the environmental state, so that automatic performance data is merely reproduced. As well as various automatic performances.
[0065]
According to the execution of the automatic performance device of claim 3 or the automatic performance control program of claim 4, for example, a specific musical sound can be generated or not generated according to the operation state of the operation means. In addition to playing, you can perform a variety of automatic performances.
[0067]
Claim 5 According to the automatic performance device of claim 1 or 3 In addition to the same effects as the above, various automatic performances that accurately reflect the environment and operation status for each performance event can be realized.
[0068]
Claim 6 According to the automatic performance device of claim 1 or 3 In addition to the effects similar to the above, the user's confidence can change the contents of the automatic performance in various ways in consideration of the contents, environment, and operation state of the music that change every moment.
[Brief description of the drawings]
FIG. 1 is a block diagram of a main part of an automatic performance device according to an embodiment of the present invention.
FIG. 2 is a diagram showing an example of automatic performance data in the first embodiment of the present invention.
FIG. 3 is a flowchart of a main operation in the embodiment of the present invention.
FIG. 4 is a flowchart illustrating a processing example of an interrupt operation according to the first embodiment of this invention.
FIG. 5 is a diagram showing an example of automatic performance data in the second embodiment of the present invention.
FIG. 6 is a diagram showing an example of automatic performance data in the third embodiment of the present invention.
FIG. 7 is a flowchart illustrating a processing example of an interrupt operation according to the second and third embodiments of the present invention.
FIG. 8 is an external view showing a specific example of the automatic performance device according to the embodiment of the present invention.
FIG. 9 is an external view showing still another specific example of the automatic performance device according to the embodiment of the present invention.
FIG. 10 is a diagram for explaining an example of automatic performance processing in the specific example of FIG. 9;
[Explanation of symbols]
1 ... CPU, 2 ... ROM, 3 ... RAM, 4 ... operator, 12, 200 ... detection device

Claims (6)

Storing those sequences regeneration progresses timing an automatic performance data to be processed each event data recorded and performance event data and condition event data as event data when for reproducing the music has been defined, respectively Storage means;
Environmental state detection means for sequentially detecting the environmental state of the atmospheric environment ;
A counter that counts the playback progress timing of the song;
Condition setting means for setting a condition of musical tone processing according to the reproduction progress timing based on the condition event data read in accordance with the reproduction progress timing counted by the counter;
A means for forming a musical sound according to the playback progress timing based on the performance event data read in accordance with the playback progress timing counted by the counter, wherein the environmental state detected by the environmental state detection means is the condition Automatic performance means for controlling whether or not to form a musical sound according to the reproduction progress timing according to whether or not the condition set by the setting means is satisfied;
Automatic performance apparatus characterized by comprising a. A memory which stores automatic performance data in which performance event data and conditional event data are recorded as time-series event data for playing back music, and in which playback progress timings for processing each event data are respectively defined. In a computer apparatus comprising: means, environmental state detection means for sequentially detecting the environmental state of the atmospheric environment, a counter for counting the reproduction progress timing of music, and processing means, the processing means includes:
Setting a tone processing condition in accordance with the playback progress timing based on the condition event data read in accordance with the playback progress timing counted by the counter;
A step of forming a musical sound according to the playback progress timing based on the performance event data read in accordance with the playback progress timing counted by the counter, wherein the environmental state detected by the environmental state detection means is the condition Controlling whether or not to form a musical sound according to the reproduction progress timing according to whether or not the condition set by the setting means is satisfied;
An automatic performance control program for executing . Storing those sequences regeneration progresses timing an automatic performance data to be processed each event data recorded and performance event data and condition event data as event data when for reproducing the music has been defined, respectively Storage means;
Operation state detection means for sequentially detecting the operation state of the operation means ;
A counter that counts the playback progress timing of the song;
Condition setting means for setting a condition of musical tone processing according to the reproduction progress timing based on the condition event data read in accordance with the reproduction progress timing counted by the counter;
A means for forming a musical sound according to the reproduction progress timing based on the performance event data read in accordance with the reproduction progress timing counted by the counter, wherein the operation state detected by the operation state detection means is the condition Automatic performance means for controlling whether or not to form a musical sound according to the reproduction progress timing according to whether or not the condition set by the setting means is satisfied;
Automatic performance apparatus characterized by comprising a. A memory which stores automatic performance data in which performance event data and conditional event data are recorded as time-series event data for playing back music, and in which playback progress timings for processing each event data are respectively defined. In a computer apparatus comprising: means; an operation state detection means for sequentially detecting an operation state of the operation means; a counter for counting the reproduction progress timing of music;
Based on the condition event data read in synchronization with the count reproduction progress timing by said counter, a step of setting conditions tone processing according to the reproduction progress time,
A step of forming a musical sound according to the reproduction progress timing based on the performance event data read in accordance with the reproduction progress timing counted by the counter, wherein the operation state detected by the operation state detection means is the condition Controlling whether or not to form a musical sound according to the reproduction progress timing according to whether or not the condition set by the setting means is satisfied;
An automatic performance control program for executing . 4. The automatic performance apparatus according to claim 1, wherein the condition event data is stored in the storage means in association with the performance event data . The automatic operation according to claim 1 or 3, wherein during an automatic performance, an operation state of a predetermined operation unit is detected and the set condition is changed according to the operation state of the predetermined operation unit. Performance device.

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