JP2009237275A - Music data receiver, music data distributor and program for achieving the respective control methods for controlling the music data receiver and the music data distributor, respectively - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a music data receiver, transmitting and receiving music data having good quality as much as possible while effectively using a communication band, music data distributor and program for achieving the respective control methods for controlling the music data receiver and the music data distributor, respectively. <P>SOLUTION: When a user specifies some parts not desired for distribution among the parts of a selected piece of music, a change request indicating non-distribution of the specified parts is transmitted from the music data receiver to the music data distributor (S103). On receiving the change request, the music data distributor determines distribution/non-distribution about the respective parts of the music data retrieved in step S201 (S203), and decides the quality of the respective parts distributed so that the total data size of parts to be distributed is within a predetermined range (S204). The music data distributor converts the audio data of the respective parts to the decided quality while playback is requested, and transmits the same to the music data receiver (S206). <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a song data receiving device that receives and reproduces song data distributed in a streaming manner, a song data delivery device that delivers song data in a streaming manner, and each control method for controlling the song data receiving device and the song data delivery device, respectively. It is related with the program for realizing.

2. Description of the Related Art Conventionally, a music data receiving apparatus that receives and reproduces music data distributed in a streaming manner and a music data distribution apparatus that delivers music data in a streaming manner are known (see, for example, Patent Documents 1 and 2).
JP 2005-148565 A JP 2007-219054 A

  By the way, music data consisting of a plurality of parts, which has been streamed, is received and only a part of the plurality of parts is turned off and played back. I want to play by myself.

  However, the conventional song data distribution device is not configured to be able to stream the song data with only some parts turned off. Even in this case, the song data of all the parts is streamed and distributed. On the music data receiving apparatus side, the part part must be turned off by some method such as not reproducing the part part. Therefore, even if an unnecessary partial part is included in the music data to be distributed by streaming, the music data of all the parts including the partial part is flowing on the communication line. Band was wasted.

  The present invention has been made paying attention to this point, and is a music data receiving apparatus and music data distribution apparatus capable of transmitting and receiving music data having the highest possible quality while effectively using a communication band. An object of the present invention is to provide a program for realizing each control method for controlling the song data receiving device and the song data distribution device.

  In order to achieve the above object, a music data distribution device according to claim 1 is connected via a communication line to a storage means for storing a plurality of music data comprising a plurality of parts and a music data receiving device for receiving the music data. A song selection request for song data received by the song data receiving device and an on / off request for each part of the song data to be subjected to the song selection request from the connection means and the song data receiving device connected by the connection means. Acquiring means for acquiring, music selection means for selecting music data to be subjected to the music selection request acquired by the acquiring means from the storage means, and the music selection means in response to the on / off request acquired by the acquiring means The part to be distributed is selected from all the parts of the song data selected by the Control means for controlling to determine the quality of the data, and distribution means for streaming distribution of the song data of the part selected by the control means to the song data receiving apparatus with the determined quality To do.

  In order to achieve the above object, a music data receiving apparatus according to claim 2 stores a plurality of music data composed of a plurality of parts, and a music data distribution apparatus for streaming distribution of music data selected from the music data and a communication line. Connection means connected through the first acquisition means, a first acquisition means for acquiring a music selection request from the user, and an ON from the user for each part of the song data that is the target of the music selection request acquired by the first acquisition means 2nd acquisition means for acquiring the / off request, and in response to the on / off request acquired by the second acquisition means, distribution is requested among all the parts of the music data to be subjected to the music selection request. A control means for selecting the part to be selected and controlling the quality of the music data of the part so that the total data amount falls within a predetermined range, and the connection means. Requesting means for requesting the music data distribution apparatus to distribute the music data of the part selected by the control means with the determined quality, and the music data distribution apparatus in response to a distribution request by the requesting means. Receiving means for receiving song data distributed in a streaming manner.

  In order to achieve the above object, the program according to claim 3 can be realized by the same technical idea as claim 1.

  In order to achieve the above object, the program according to claim 4 can be realized by the same technical idea as claim 2.

  According to the first or third aspect of the invention, in accordance with the acquired on / off request, the part to be distributed is selected from all the parts of the selected music data, and the total data amount is predetermined. The quality of the song data of the part is controlled so as to be in the range of, and the song data of the selected part is streamed to the song data receiving device with the determined quality. It is possible to transmit and receive music data with the highest possible quality while being used effectively.

  According to the second or fourth aspect of the invention, in response to the acquired on / off request from the user, the part that requests distribution is selected from all the parts of the music data that is the target of the music selection request. At the same time, the music data of the selected part is transferred to the music data distribution device connected by the connecting means, and controlled to determine the quality of the music data of the part so that the total data amount falls within a predetermined range. Since the music data streamed by the music data distribution device is received in response to the distribution request, the music data streamed in response to the distribution request is received. Good music data can be transmitted and received.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

  FIG. 1 is a block diagram showing a schematic configuration of a music piece data receiving apparatus 100 according to the first embodiment of the present invention.

  As shown in the figure, the music data receiving apparatus 100 includes a performance operator 1 including a keyboard for inputting performance data including pitch information, and a plurality of switches, dials, and joysticks for inputting various types of information. A panel operation element 2 including the detection operation circuit 3 that detects an operation state of the performance operation element 1, a detection circuit 4 that detects an operation state of the panel operation element 2, a CPU 5 that controls the entire apparatus, and the CPU 5 ROM 6 for storing control programs and various table data, RAM 7 for temporarily storing performance data, various input information, calculation results, and the like, timer 8 for measuring interrupt times and various times in timer interrupt processing, For example, a display 9 including a liquid crystal display (LCD) and a light emitting diode (LED) for displaying various information, and the control program. And an external storage device 10 for storing various application programs, various music data, various data, and the like, and a MIDI interface for inputting a MIDI (musical instrument digital interface) message and outputting a MIDI message to the outside ( I / F) 11, a communication interface (I / F) 12 for transmitting / receiving data to / from the music data distribution apparatus 200 via the communication network 400, performance data input from the performance operator 1, and the external storage A tone generator circuit 13 that converts performance data obtained by reproducing any music data stored in the apparatus 10 into a musical sound signal, compressed audio data streamed from the music data distribution apparatus 200, and the external storage apparatus 10 Decompresses the compressed audio data stored in and converts it to a musical sound signal A decoding circuit 14, a mixing circuit 15 for mixing the musical tone signal from the tone generator circuit 13 and the musical tone signal from the decoding circuit 14, and an effect circuit for imparting various effects to the mixed musical tone signal from the mixing circuit 15 16 and a sound system 17 such as a DAC (digital-to-analog converter), an amplifier, a speaker, etc., for converting a musical sound signal from the effect circuit 16 into sound.

  The above components 3 to 16 are connected to each other via the bus 18, the timer 8 is connected to the CPU 5, the other MIDI device 300 is connected to the MID II / F 11, and the communication network 400 is connected to the communication I / F 12. Are connected to the tone generator circuit 13 and the decoding circuit 14, the effect circuit 16 is connected to the mixing circuit 15, and the sound system 17 is connected to the effect circuit 16. Here, the communication I / F 12 and the communication network 400 are not limited to the wired system but may be a wireless system. In addition, both types may be provided.

  Examples of the external storage device 10 include a flexible disk drive (FDD), a hard disk drive (HDD), a CD-ROM drive, and a magneto-optical disk (MO) drive. As described above, the external storage device 10 can also store a control program to be executed by the CPU 5. If no control program is stored in the ROM 6, the control program is stored in the external storage device 10. By reading it into the RAM 7, it is possible to cause the CPU 5 to perform the same operation as when the control program is stored in the ROM 6. In this way, control programs can be easily added and upgraded.

  The MIDII / F11 is not limited to a dedicated one, and may be configured by a general-purpose interface such as RS-232C, USB (Universal Serial Bus), IEEE 1394 (I Triple 1394) or the like. In this case, data other than MIDI messages may be transmitted and received simultaneously.

  As described above, the communication I / F 12 is connected to a communication network 400 such as a LAN (local area network), the Internet, or a telephone line, and is connected to the song data distribution apparatus 200 via the communication network 400. The When the above-mentioned programs and various parameters are not stored in the external storage device 10 and are stored in the music data distribution device 200, the communication I / F 12 receives the programs and parameters from the music data distribution device 200. Used for downloading. The music data receiving apparatus 100 as a client transmits a command for requesting downloading of a program and parameters to the music data distribution apparatus 200 via the communication I / F 12 and the communication network 400. Upon receiving this command, the song data distribution device 200 distributes the requested program and parameters to the song data receiving device 100 via the communication network 400, and the song data receiving device 100 passes through the communication I / F 12. Downloading is completed by receiving these programs and parameters and storing them in the external storage device 10.

  The tone generator circuit 13 is a waveform memory method, FM (frequency modulation) method, physical model method, harmonic synthesis method, formant synthesis method, analog synthesizer of VCO (voltage controlled oscillator) + VCF (voltage controlled filter) + VCA (voltage controlled amplifier). Any method such as a method or an analog simulation method may be used. Moreover, a tone generator circuit may be configured using dedicated hardware, a tone generator circuit may be configured using a DSP (digital signal processor) + microprogram, or a tone generator circuit may be configured using a CPU + software program. Or a combination thereof. A plurality of sound generation channels may be formed by using one circuit in a time division manner, or one sound generation channel may be formed by one circuit.

  The decoding circuit 14 is configured to be able to decode music data of various formats. Examples of the format include MP3 (MPEG Audio Layer III), ATRAC3 (adaptive transform acoustic coding), Windows (registered trademark) MediaAudio, AAC (advanced audio coding), and TwinVQ (transform domain weighted interleave vector quantization). .

  Since the effect circuit 16 is provided at the subsequent stage of the mixing circuit 15 and gives various effects to the musical sound signal output from the mixing circuit 15, the musical sound signal before mixing, that is, the tone generator circuit 13 or the decoding circuit. Various effects cannot be directly applied to the musical sound signal output from 14. If it is desired to directly apply various effects to the musical sound signal before mixing, the connection order of the mixing circuit 15 and the effect circuit 16 may be reversed.

  In the present embodiment, the song data receiving apparatus 100 is constructed on the electronic keyboard instrument. However, the present invention is not limited to this, and the song data receiving apparatus 100 may be constructed on a general-purpose PC externally connected to the keyboard. Moreover, it is not limited to the form of the keyboard instrument, but may be a form such as a stringed instrument type or a wind instrument type.

  The music data distribution device 200 is composed of the performance operator 1, panel operator 2, detection circuits 3 and 4, display 9, MIDII / F11, sound source circuit 13, decoding circuit 14, mixing, and the like from the above configuration of the music data receiving device 100. Except for the circuit 15, the effect circuit 16 and the sound system 17, it is constructed on a normal PC with a keyboard, mouse and large display instead. Note that the song data distribution apparatus 200 is configured by one unit in the present embodiment, but is not limited thereto, and may be configured by a plurality of units.

  The control processing executed by the music data receiving device 100 and the music data distribution device 200 configured as described above will be described in detail with reference to FIG.

  FIG. 2 is a flowchart showing the procedure of the main routine executed by the song data receiving device 100 and the song data distributing device 200.

The main routine executed by the song data receiving apparatus 100 is mainly (1) initial setting processing (step S101).
(2) Music selection process (step S102)
(3) Change request transmission process for on / off of each part (step S103)
(4) Play / stop / rewind / fast forward request transmission processing (step S104)
(5) Audio data reproduction instruction processing (step S106)
(6) Instruction processing for mixing circuit / effect circuit (step S107)
(7) Musical sound generation instruction processing for the tone generator circuit (step S108)
It is constituted by. This main routine is started when a user operates a power switch (not shown) included in the panel operation element 2 to turn on the power. After startup, the initial setting process (1) is executed once, and subsequently, the processes (2) to (7) are sequentially executed. When the process (7) is completed, the process returns to the process (2), and the processes (2) to (7) are repeatedly executed until the power is turned off by operating the power switch.

  In the initial setting process (1), the CPU 5 performs initial settings such as clearing the RAM 7 and setting various parameter values to default values.

  The user (“user” can be a user of the song data receiving device 100 and a user of the song data distributing device 200. However, in the present embodiment, when “user” is simply described, the song data receiving device 100 When the music selection mode for selecting music data to be streamed from the music data distribution device 200 is selected, the CPU 5 advances the process to the music selection process (2). In the music selection process (2), first, the CPU 5 displays a music list which is a list of music data that can be selected on the LCD of the display unit 9. If the song list has already been acquired from the song data distribution device 200, it may be displayed. If the song list has not been acquired from the song data distribution device 200, a song list distribution request is sent to the song data distribution device 200. In response to this, the song list distributed by the song data distribution device 200 may be acquired and displayed. When the user selects a favorite song from the displayed song list, the CPU 5 transmits information on the selected song to the song data distribution device 200 (step S102). As described above, since the exchange of data (information) between the song data receiving device 100 and the song data distribution device 200 is performed via the communication I / F 12 and the communication network 400, information on the selected song is also included. The song data receiving device 100 transmits the song data to the song data distribution device 200 via the communication I / F 12 and the communication network 400. Hereinafter, “transmission” of various information from the song data receiving device 100 side to the song data distributing device 200 side or from the song data distributing device 200 side to the song data receiving device 100 side does not describe a communication means. Also, it is assumed that the communication is performed via the communication I / F 12 and the communication network 400.

  When the song data distribution device 200 receives the song information transmitted from the song data receiving device 100, the song data distribution device 200 receives the song information indicated by the received song information from the song data database built in its own external storage device. Data is searched (step S201).

  Next, when the user designates a part of the selected piece of music that is not desired to be distributed, the CPU 5 advances the process to the change request transmission process (3). In this (3) change request transmission process, the CPU 5 transmits a change request indicating non-distribution (off) of the part instructed by the user to the music data distribution apparatus 200 (step S103). Here, as a method for instructing a part, a method for directly instructing a part number or a table for associating a part number with a part name (vocal, piano right hand, piano left hand,...) Is obtained from the song data distribution apparatus 200 and sent to the user. A method of presenting the user and instructing the user from that is considered. The part name may be associated with one part or may be associated with a plurality of parts. For example, the names “vocal”, “piano right hand”, and “piano left hand” are associated with one part, respectively. Are associated with one part. Furthermore, there may be a part named “Other”.

  In the process of step S103, only the information indicating the non-delivery of the part is transmitted, and the information of the part desired to be distributed is not transmitted. However, the present invention is not limited to this. / Information indicating non-delivery may be transmitted.

When receiving the change request from the song data receiving device 100, the song data distribution device 200 determines distribution / non-distribution for each part of the song data searched in step S201 (step S203). Then, the music data distribution device 200 determines the quality of each part to be distributed so that the total data size of the parts to be distributed falls within a predetermined range (step S204). Here, the method of determining the quality can be broadly divided into two types according to whether the music data is compressed and streamed or the music data is streamed as it is. There are various methods for compressing music data, and a plurality of quality determination methods can be considered for each compression method. Even when music data is streamed without compression, a plurality of quality determination methods can be considered. Hereafter, as a method of determining the quality of the compressed song data,
(E1) For MP3 format music data, the method of changing the bit rate is a quality determination method for music data that is not compressed.
(E2) A method of changing the word length assigned to one sample (E3) A method of changing the sampling rate will be described as an example.

  Before describing the quality determination method (E1), the music data used in this example and the configuration of the decoding circuit 14 will be described.

  The song data is composed of 16 parts of audio data, the first part is a vocal part, the second part is a piano right hand part, the third part is a piano left hand part, and the fourth to sixteenth parts. The part is also a part with a specific name. MP3 generally refers to both MPEG-1 Audio Layer III and MPEG-2 Audio Layer III LSF, but here it is the latter, encoding two-channel stereo (or monaural) audio data. To do. In MPEG-2 Audio Layer III LSF, any one of 8 to 160 kbps can be selected as the bit rate (transfer rate) after compression. The bit rate is a transfer rate at the time of data transfer, but also indicates a compression rate. The higher the bit rate, the lower the compression rate, that is, the higher the quality of audio data after decompression. As described above, although the bit rate can be set in a wide range, for the sake of explanation, it is assumed that the decoding circuit 14 can only decode audio data encoded at a bit rate of 64 kbps or 96 kbps. For this reason, the music data distribution apparatus 200 is subject to the restriction that the audio data of each part must be encoded at a bit rate of 64 kbps or 96 kbps. In this way, the music data distribution apparatus 200 encodes the music data to be distributed for each part at a bit rate of 64 kbps or 96 kbps, and multiplexes the encoded music data (audio data) of each part by a predetermined method. To the music data receiving apparatus 100.

Now, when all 16 parts of audio data are encoded and multiplexed at a low quality (64 kbps) bit rate and streamed to the music data receiving apparatus 100, the communication bandwidth, that is, the total number of bit rates is
64 kbps / part x 16 parts = 1024 kbps
It becomes. However, the capacity of the header and the like necessary for streaming delivery is ignored for convenience of explanation.

Next, assuming that the user gives an instruction to turn off the second part of the song data to be distributed in order to practice by playing the “piano right hand part” by himself, the song data distribution device 200 is configured to use the second part. 15 parts of audio data excluding the above are distributed. Then, the music data distribution device 200 has a quality as high as possible within a range not exceeding the communication bandwidth of the default setting in which all parts are on, or the value close to the communication bandwidth. The bit rate for encoding each of the 15 parts of audio data is determined. in this case,
64 kbps / part × 13 parts + 96 kbps / part × 2 parts = 1024 kbps
Therefore, of the 15 parts, 13 parts are delivered with low quality and 2 parts are delivered with high quality. For combinations that select 2 of 15 parts,
₁₅ C ₂ = 15 × 14/2 = 105 (street)
Because there are, it is necessary to adopt one of them. Here, the rule of “assigning high quality preferentially from the youngest part number” is adopted. Then, the audio data of the first and third parts are encoded with high quality, and the audio data of the fourth to sixteenth parts are encoded with low quality. Of course, the rule for selecting a part to be distributed with high quality is not limited to this. A table defining the priority order of the parts may be prepared in advance in the music data distribution device 200, and the music data reception device 100 or the music data distribution device 200 may refer to it. Also, rules may be defined by the user.

In addition, the user has given an instruction to turn off the third part in addition to the second part of the song data to be distributed in order to practice by playing the “piano left hand part” in addition to the “piano right hand part”. Then, the music data distribution device 200 distributes 14 parts of audio data excluding the second and third parts. in this case,
64 kbps / part × 10 parts + 96 kbps / part × 4 parts = 1024 kbps
Therefore, of the 14 parts, 10 parts are delivered with low quality and 4 parts are delivered with high quality. If high quality is assigned according to the priority order of the rules, the first and fourth to sixth part audio data is encoded with high quality, and the seventh to sixteenth part audio data is encoded with low quality. It will be.

  Similarly, if the number of parts to be turned off is increased by one, the total number of parts that are turned on (instructed), the number of low quality (encoding with) parts, and the number of high quality (encoding with) parts are: It becomes as follows.

Total number of on-parts: Number of low-quality parts: Number of high-quality parts
16: 16: 0
15: 13: 2
14: 10: 4
13: 7: 6
12: 4: 8
11: 1: 10
However, when the total number of on-parts is “10” or less, there are no parts encoded with low quality, and only parts encoded with high quality are available.

  In the present embodiment, when the total number of on-parts is “11” or more, low-quality parts and high-quality parts are mixed in the distributed music data. However, the present invention is not limited to this. It is also possible to combine multi-stage quality, such as combining medium quality parts. Also, the quality of each part may be improved equally by adjusting the bit rate well.

In the quality determination method of (E2), the word length assigned to one sample is determined to be either low quality 16 bits or high quality 24 bits for each part. Also in this example, it is assumed that the music data is composed of 16 parts of audio data. The sampling rate is 32 kHz. When the song data receiving device 100 makes a request to the song data distribution device 200 to receive all parts of the song data with 16 bits of low quality as an initial state,
16 bits / part x 32 kHz x 16 parts = 8192 kbps
Communication bandwidth is ensured. Also in this example, as in the case of the above (E1), if an attempt is made to increase the number of high quality parts as much as possible according to the on / off of the parts, the total number of on (instructed) parts is assigned at a low quality ( ) The number of parts and the number of high-quality (assigned) parts are the same as in (E1) above. That means
Total number of on-parts: Number of low-quality parts: Number of high-quality parts
16: 16: 0
15: 13: 2
14: 10: 4
13: 7: 6
12: 4: 8
11: 1: 10
However, when the total number of on-parts is “10” or less, there are no parts encoded with low quality, and only parts encoded with high quality are available.

In the quality determination method of (E3), the sampling rate is determined for each part by either low quality 32 kHz or high quality 48 kHz. Also in this example, it is assumed that the music data is composed of 16 parts of audio data. The word length assigned to one sample is 16 bits. When the song data receiving device 100 requests the song data distribution device 200 to receive all parts of song data at a low quality of 32 kHz as an initial state,
16 bits / part x 32 kHz x 16 parts = 8192 kbps
Communication bandwidth is ensured. In this example, as in the case of (E1) and (E2), when trying to increase the number of high quality parts as much as possible according to the on / off of parts, the total number of on (instructed) parts, low quality The number of parts (sampled at) and the number of high quality (sampled at) parts are the same as (E1). In this way, audio data with different sampling rates is distributed. Specifically, as a delivery method, samples to be delivered every predetermined time (for example, 100 msec) are packed into one packet and delivered. According to this distribution method, 320 samples are packed for each low quality (32 kHz) part, and 480 samples are packed for each high quality (48 kHz) part. Packets clogged with sample data of the part are distributed at a cycle of 100 msec.

  In the present embodiment, the music data distribution device 200 distributes the audio data of a plurality of parts to the music data reception device 100 as one stream data. However, the present invention is not limited to this. The audio data of each part may be distributed as a plurality of stream data in parallel as it is. However, in this case, the music piece data receiving apparatus 100 must reproduce each of the received plurality of stream data in synchronization.

  Next, when the user presses a play / stop / rewind / fast forward switch (not shown) included in the panel operation element 2, playback / stop / rewind / fast forward of the song selected in step S102 is performed. When instructed, the CPU 5 advances the process to the above-mentioned (4) playback / stop / rewind / fast-forward request transmission process. In the request transmission process (4), the CPU 5 transmits a request in a state designated by the user among the reproduction / stop / rewind / fast-forward to the music data distribution apparatus 200 (step S104).

  When the music data distribution apparatus 200 receives any one of the reproduction / stop / rewind / fast-forward requests from the music data receiving apparatus 100, the music data distribution apparatus 200 performs an operation according to the requested content (step S205). More specifically, as soon as “play” is requested, the CPU 5 advances the process to the next step S206, and when “stop” is requested, the streaming delivery is stopped and “rewind” is requested. Then, when “rewinding the streaming distribution position of the song data to the requested position and fast forwarding” is requested, the streaming distribution position of the song data is fast forwarded to the requested position. Then, the music data distribution apparatus 200 converts the audio data of each part into the determined quality and transmits it to the music data reception apparatus 100 while “reproduction” is requested by the music data reception apparatus 100 ( Streaming delivery) (step S206). In the quality conversion by the song data distribution device 200, audio data of sufficiently high quality (for example, sampling rate 96 kHz, 1-bit bit length 24 bits, uncompressed) is stored in its own external storage device and distributed. At this time, the quality is appropriately reduced in accordance with a request from the music data receiving apparatus 100. Also, the quality conversion by the music data distribution device 200 is performed by preparing a plurality of audio data of different quality based on one audio data in advance and storing them in its external storage device for distribution. You may make it carry out by selecting suitably according to the request | requirement from the data receiver 100. FIG.

  When the music data receiving device 100 (the CPU 5 thereof) receives the audio stream (audio data) streamed by the music data distributing device 200, the received audio data is stored in an audio data storage area (in a predetermined position of the RAM 7). (Not shown). Then, the CPU 5 advances the process to the audio data reproduction instruction process (5) (steps S105 → S106). In this (5) audio data reproduction instruction process, the CPU 5 instructs the decoding circuit 14 to reproduce the received audio data. In response to this instruction, the decoding circuit 14 reads the audio data stored in the audio data storage area at a predetermined timing, decodes the read audio data, and supplies the decoded audio data to the mixing circuit 15. It should be noted that a sufficient amount of audio data for reproduction is provided so that there is no shortage of audio data to be read because the volume of audio data read at a time is larger than the volume of audio data received at a time. It is desirable for the CPU 5 to instruct the decoding circuit 14 to reproduce the audio data at the time when the data accumulates in the audio data storage area.

  Next, when the user operates a level adjustment knob for each part or various effect applying switches (both not shown) included in the panel operation element 2, the CPU 5 performs the process for the mixing circuit / effect circuit of (6). Proceed to the instruction process. In this (6) instruction processing for the mixing circuit / effect circuit, when the level adjustment knob of a certain part is operated, the CPU 5 instructs the mixing circuit 15 so that the level of the part becomes a value corresponding to the operation. When a switch for applying a certain effect is operated, the effect circuit 16 is instructed to apply the effect to the musical sound signal (step S107).

  Further, when the user presses a key included in the performance operator 1, the CPU 5 advances the process to the tone generation instruction process for the tone generator circuit (7). In this (7) tone generation instruction processing for the tone generator circuit, the CPU 5 acquires the user's key pressing state from the detection circuit 3, generates a key-on event corresponding to the acquired key pressing state, and supplies it to the tone generator circuit 13. At the same time, the tone generator circuit 13 is instructed to generate a tone signal corresponding to the key-on event. In response to this, the tone generator circuit 13 sets a musical tone parameter for generating a musical tone signal corresponding to the supplied note-on event in the corresponding register, and at a predetermined timing, a musical tone based on the set musical tone parameter. A signal is generated and supplied to the mixing circuit 15. For example, in order to practice by playing the “piano right-hand part” of a certain song by the user, the user instructs the song data distribution device 200 to turn off the “piano right-hand part” of the song. When the “piano right hand part” is turned off from the song data distribution device 200 and song data with improved sound quality of at least a part is being streamed, the mixing circuit 15 sends the song data to the song data from the decode circuit 14. Since the corresponding musical tone signal is supplied, the mixing circuit 15 mixes the musical tone signal from the tone generator circuit 13 and the musical tone signal from the decoding circuit 14 and supplies them to the effect circuit 16. The effect circuit 16 gives a predetermined effect to the supplied musical sound signal and then supplies it to the sound system 17. The sound system 17 generates and outputs sound corresponding to the supplied musical sound signal.

  Thus, in this embodiment, when the user instructs the song data distribution device 200 to turn off a part of the song data to be distributed, the song data distribution device 200 responds accordingly. Since some parts are turned off and song data with improved sound quality of at least some parts is streamed, it is possible to send and receive music data with the highest possible quality while effectively using the communication band. Become.

  In the present embodiment, the music data to be distributed by streaming is audio data of a plurality of parts, but the part of video data may be included in the music data.

  Next, a song data receiving device and song data distribution device according to a second embodiment of the present invention will be described.

  The music data receiving apparatus of the present embodiment differs from the music data receiving apparatus of the first embodiment only in part of the control processing, so that the hardware is the same as that of the first embodiment. The same hardware as that of the music data receiving apparatus of the embodiment, that is, the one shown in FIG. 1 is used as it is. The same applies to the music data distribution apparatus of the present embodiment.

  In the first embodiment, although the instruction to turn off a part of the song data to be distributed is given on the song data receiving device side, the quality determination of each part of the song data based on the instruction is performed by distributing the song data. This embodiment differs from the apparatus side in that the music data receiving apparatus side performs the quality determination of each part of the music data.

  FIG. 3 is a flowchart showing the procedure of the main routine executed by the song data receiving device and the song data distribution device according to the present embodiment. In FIG. 3, steps that perform the same processing as the processing in FIG. 2 are given the same step numbers, and descriptions thereof are omitted.

  When the user designates a part of the selected song that is not desired to be distributed, the CPU 5 advances the process from step S111 to step S112, and performs the same process as in step S203 of FIG. Distribution / non-distribution is determined for each piece of song data. Then, the CPU 5 determines the quality of each part to be distributed so that the total data size of the parts to be distributed falls within a predetermined range in the same manner as the process of step S204 in FIG. 2 (step S113). Further, the CPU 5 transmits a request for changing the quality of each determined part to the music data distribution device (step S114).

  In response to the received change request, the song data distribution device determines the distribution / non-distribution of each part and the quality of each part to be distributed (step S211).

  As described above, also in the present embodiment, when the user instructs the song data distribution device to turn off a part of the song data to be distributed, the song data distribution device responds to the part. Since the part is turned off and music data with improved sound quality of at least a part is streamed, it is possible to transmit / receive music data with the highest possible quality while effectively using the communication band.

  A storage medium storing software program codes for realizing the functions of the above-described embodiments is supplied to the system or apparatus, and the computer (or CPU or MPU) of the system or apparatus is stored in the storage medium. It goes without saying that the object of the present invention can also be achieved by reading and executing the program code.

  In this case, the program code itself read from the storage medium realizes the novel function of the present invention, and the program code and the storage medium storing the program code constitute the present invention.

  As a storage medium for supplying the program code, for example, a flexible disk, hard disk, magneto-optical disk, CD-ROM, CD-R, CD-RW, DVD-ROM, DVD-RAM, DVD-RW, DVD + RW, magnetic A tape, a non-volatile memory card, a ROM, or the like can be used. Further, the program code may be supplied from a server computer via a communication network.

  Further, by executing the program code read out by the computer, not only the functions of the above-described embodiments are realized, but the OS running on the computer based on the instruction of the program code is actually used. Needless to say, the present invention includes a case where part or all of the processing is performed and the functions of the above-described embodiments are realized by the processing.

  Further, after the program code read from the storage medium is written into a memory provided in a function expansion board inserted into the computer or a function expansion unit connected to the computer, the function expansion is performed based on the instruction of the program code. It goes without saying that the CPU or the like provided in the board or the function expansion unit performs part or all of the actual processing, and the functions of the above-described embodiments are realized by the processing.

It is a block diagram which shows schematic structure of the music data receiver which concerns on the 1st Embodiment of this invention. It is a flowchart which shows the procedure of the main routine which the music data receiver which concerns on the 1st Embodiment of this invention, and a music data delivery apparatus each performs. It is a flowchart which shows the procedure of the main routine which each music data receiver and music data delivery apparatus which concern on the 2nd Embodiment of this invention performs.

Explanation of symbols

2 ... Panel operator (first acquisition means, second acquisition means), 5 ... CPU (connection means, first acquisition means, second acquisition means, control means, request means, reception means), 12 ... Communication I / F (connecting means, receiving means)

Claims (4)

Storage means for storing a plurality of song data composed of a plurality of parts;
Connection means for connecting via a communication line with a music data receiving device for receiving music data;
Obtaining means for obtaining a music data selection request received by the music data receiving apparatus and an on / off request for each part of the music data subject to the music selection request from the music data receiving apparatus connected by the connecting means. When,
A music selection means for selecting music from the storage means that is the target of the music selection request acquired by the acquisition means;
In response to the on / off request acquired by the acquisition means, a part to be distributed is selected from all the parts of the music data selected by the music selection means, and the total data amount falls within a predetermined range. Control means for controlling to determine the quality of the music data of the part;
A music data distribution apparatus comprising: distribution means for streaming distribution of music data of a part selected by the control means to the music data receiving apparatus with the determined quality. Connection means for storing a plurality of song data composed of a plurality of parts and connecting via a communication line with a song data distribution device for streaming distribution of the song data selected from the song data;
First acquisition means for acquiring a music selection request from a user;
Second acquisition means for acquiring an on / off request from the user for each part of the song data to be subjected to the music selection request acquired by the first acquisition means;
In response to the on / off request acquired by the second acquisition means, the part that requests distribution is selected from all the parts of the music data that are subject to the music selection request, and the total data amount is predetermined. Control means for controlling to determine the quality of the song data of the part so as to be in the range of
Request means for requesting the song data distribution apparatus connected by the connection means to distribute the song data of the part selected by the control means with the determined quality;
A music data receiving apparatus comprising: receiving means for receiving music data stream-distributed by the music data distribution apparatus in response to a distribution request by the request means. A program for causing a computer to execute a control method for controlling a song data distribution apparatus having a storage means for storing a plurality of song data consisting of a plurality of parts,
The control method is:
A song selection request for song data received by the song data receiving device and an on / off request for each part of the song data subject to the song selection request from the song data receiving device connected via the communication line by the connecting means. An acquisition step to acquire;
A music selection step of selecting music data from the storage means that is a target of the music selection request acquired by the acquisition step;
In response to the on / off request acquired in the acquisition step, a part to be distributed is selected from all the parts of the music data selected in the music selection step, and the total data amount falls within a predetermined range. A control step for controlling to determine the quality of the song data of the part;
A distribution step of streaming distribution of the song data of the part selected in the control step to the song data receiving device with the determined quality. A control method for controlling a song data receiving apparatus comprising a plurality of song data stored in a plurality of parts and connecting means for connecting via a communication line with a song data delivery apparatus for streaming delivery of song data selected from the song data. A program to be executed by a computer,
The control method is:
A first acquisition step of acquiring a music selection request from a user;
A second acquisition step of acquiring an on / off request from the user for each part of the song data that is a target of the music selection request acquired in the first acquisition step;
In response to the on / off request acquired in the second acquisition step, a part for which distribution is requested is selected from all the parts of the music data to be subjected to the music selection request, and the total data amount is predetermined. A control step for controlling to determine the quality of the song data of the part so as to be in the range of
A request step for requesting the song data distribution device connected by the connection means to distribute the song data of the part selected by the control step at the determined quality;
And a receiving step of receiving song data stream-distributed by the song data delivery device in response to a delivery request in the requesting step.

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