JP4207901B2 - Music LAN setting device and program - Google Patents

Description

  The present invention relates to a music LAN setting system for setting a data exchange relationship between a plurality of various devices connected by a music LAN.

Conventionally, as disclosed in Patent Document 1, for example, a music LAN that connects a plurality of various music devices (electronic music devices) based on IEEE 1394 is called “mLAN”. Have proposed a technique for setting a communication path for audio data, MIDI data, or the like. In addition, a music LAN using Ethernet (registered trademark) or the like already exists.
JP 2001-203732 A

  In such a conventional music LAN setting, the device information is read from the music devices that are actually connected, and the connection relationship between the music devices is set, so there is no actual connection. I couldn't make up the settings.

  In view of such circumstances, the present invention provides a music LAN setting system which can create settings related to data exchange between various devices on a music LAN off-line and facilitate the setting of the music LAN. Objective.

  According to one aspect of the present invention, device information (Di, Dj, Dk,...) Including the model (Aa) and data communication capability (P) of a music data communication device that can be an element device constituting a music LAN. Information storage means (4) for storing a plurality of models (Mf), template recording means (4) for recording template data (Tf), and music LAN should be configured in accordance with user operations Designating means (V2; V5, V6) for designating a plurality of virtual music data communication devices and designating virtual data transmission / reception relationships between the designated music data communication devices, and device information storage means (4) Among the device information (Di, Dj, Dk,...) Stored in the device information (Dj, Dk) corresponding to the model (Aa) of the music data communication device specified by the specifying means (V2). , Device type information (Aa) indicating the type of the music data communication device and device ID information (Ab) described with a value (all “F”) indicating that the device ID of the music data communication device is not fixed A plurality of device information (Dj ′, Dk ′: A, P ′), and connection information (Cn) representing the data transmission / reception relationship (Ca, Cb) designated by the designation means (V5, V6), Communication setting in which a model (Aa) of a plurality of virtual music data communication devices (A) to constitute a music LAN and virtual data transmission / reception relationships (P ′, Cn) between these music data communication devices are set Template data (Tf) is created by creating means (V3, V4; V7) for creating data (Dj ′, Dk ′; Cn) and communication setting data (Dj ′, Dk ′; Cn) created by the creating means. A music LAN setting device (ST; computer) comprising a template recording control means (S11 to S13, S23 to S24) for recording in the data recording means (4) is provided to constitute a music LAN. Device information storage that stores device information (Di, Dj, Dk,...) Including the model (Aa) and data communication capability (P) for a plurality of models (Mf) for music data communication devices that can be elemental devices. The computer (ST) having the means (4) and the template recording means (4) for recording the template data (Tf) and configuring the music LAN according to the user operation is configured as a music LAN setting device. A designation step for designating a plurality of virtual music data communication devices to be specified and designating a virtual data transmission / reception relationship between the designated music data communication devices. (V2, V5, V6) and device information (Di, Dj, Dk,...) Stored in the device information storage means (4), the model of the music data communication device specified in the specifying step (V2) ( Based on the device information (Dj, Dk) corresponding to Aa), the model information (Aa) indicating the type of the music data communication device and the value indicating that the device ID of the music data communication device has not been determined (all “ F ″) and a plurality of pieces of device information (Dj ′, Dk ′: A, P ′) including the device ID information (Ab) described in addition to the data transmission / reception relationship designated in the designation step (V5, V6) ( And a virtual data transmission / reception between the music data communication devices (Aa) of the plurality of virtual music data communication devices (A) which are composed of connection information (Cn) representing Ca, Cb) and constitute the music LAN. Relationship (P ', C And the communication setting data (Dj ′, Dk ′, Cn) created in the creation step (V3, V4; V7) for creating the communication setting data (Dj ′, Dk ′; Cn) set with Is provided as a music LAN setting program (Claim 4) for executing a procedure comprising template recording control steps (S11 to S13, S23 to S24) for recording the data as template data (Tf) in the template recording means (4). Note that the parentheses indicate reference symbols, terms, and the like of the examples added for convenience of understanding.

  According to another feature of the present invention, for a plurality of virtual music data communication devices that constitute a music LAN, model information (Aa) indicating the type of the music data communication device and the device IDs of these music data communication devices are provided. A plurality of pieces of device information (Dj ′, Dk ′: A, P ′) including device ID information (Ab) described with a value (all “F”) indicating that they are not fixed, and these music data communications A model (Aa) of a plurality of virtual music data communication devices (A), which are composed of connection information (Cn) representing a virtual data transmission / reception relationship (Ca, Cb) between the devices, and constitute a music LAN, and these music A template in which communication setting data (Dj ′, Dk ′, Cn) in which a virtual data transmission / reception relationship (P ′, Cn) between data communication devices is set is recorded as template data (Tf). When the music LAN setting device is actually connected to the music LAN, template reading means (S31 to S32) for reading the template data (Tf) recorded in the template recording means (4). ) And the device information (Dj ′, Dk ′) of the template data (Tf) read by the template reading means, the value (all “F”) of the device ID information (Ab) of the template data (Tf). ) Is replaced with the device ID of the music data communication device (DV1, DV2) on the actually connected music LAN (R3 to R5), and the data transmission / reception relationship by the connection information (Cn) of the template data (Tf) (Ca, Cb) is set to the music data communication device (DV: DV1, DV2) on the music LAN that is actually connected. A music LAN setting device (ST; computer) comprising a setting means (R2 to R15) is provided, and the music data communication is performed for a plurality of virtual music data communication devices that constitute the music LAN. A plurality of devices including model information (Aa) indicating the type of device and device ID information (Ab) described with a value (all “F”) indicating that the device ID of these music data communication devices is not fixed It is composed of information (Dj ′, Dk ′: A, P ′) and connection information (Cn) representing a virtual data transmission / reception relationship (Ca, Cb) between the music data communication apparatuses, and should constitute a music LAN. Communication setting data (Dj ′) in which a model (Aa) of a plurality of virtual music data communication devices (A) and virtual data transmission / reception relationships (P ′, Cn) between these music data communication devices are set. , Dk ′, Cn) as template data (Tf), the template recording means (4) is provided, and the music LAN setting device is actually connected to the music LAN in a computer (ST) functioning as a music LAN setting device. The template reading step (S31 to S32) for reading the template data (Tf) recorded in the template recording means (4) when connected to the device and the template data (Tf) read in the template reading step Based on the information (Dj ′, Dk ′), the value (all “F”) of the device ID information (Ab) of the template data (Tf) is used as the music data communication device on the music LAN actually connected ( Rewrite the device ID of DV1, DV2) (R3 to R5) and connect the template data (Tf) A procedure comprising setting steps (R2 to R15) for setting the data transmission / reception relationship (Ca, Cb) by the information (Cn) to the music data communication device (DV: DV1, DV2) on the music LAN that is actually connected. A music LAN setting program (claim 5) is provided.

  The setting means (R2 to R15) in the music LAN setting device (ST) are based on the template data (Tf) read by the template reading means and the music data communication device (DV) on the music LAN that is actually connected. Based on the device information, the setting state of the actual music data communication device (DV) on the music LAN and the setting of the virtual music data communication device not associated with the music data communication device on the music LAN A display means (R7, R14) for distinguishing and displaying the state can be provided.

  In the music LAN setting system according to one aspect of the present invention (claims 1 and 4), a music data communication device (for example, electronic music such as a mixer, tone generator, recorder, etc.) that can be an element device (node) constituting the music LAN. Device) for a plurality of models including the music data communication device model (Aa) and data communication capability (P) (Mf: device information Di for mixer + device information Dj for tone generator + device information for recorder, for example) Dk) is prepared in advance in the device information storage means (external storage device 4) of the music LAN setting device (ST), and a desired music data communication device to configure the music LAN in response to a user operation and these music When the data transfer relationship between the data communication devices is virtually specified, the specified music data communication device (for example, tone generator) The type (model) of the music data communication device using the model (Aa: indicating the type of the music data communication device) and the data communication capability (P) included in the device information (Dj, Dk) of the recorder device and the recorder device) A plurality of device information [Dj including device ID information (Ab) described with model information (Aa) indicating device ID of the music data communication device and a value (all “F”) indicating that the device ID of the music data communication apparatus is not fixed ', Dk': device item information A (model information Aa + indeterminate device ID information Ab) + logical communication terminal information P ′] and connection information (Cn, Cn) indicating the specified data transfer relationship (Ca, Cb) ), And the model of the virtual music data communication apparatus that is to constitute the music LAN (equipment item information A is determined only for model information Aa, and device ID information Ab is not determined (all “F”)). This Communication setting data (virtual logical connection (P ′; Ca, Cb) defining the data transmission / reception relationship between the music data communication devices) between the music data communication devices Dj ′, Dk ′, Cn) is created, and this communication setting data is recorded as template data (Tf) in the template recording means (external storage device 4). Therefore, according to the present invention, based on the device information prepared in advance in the music LAN setting device, regardless of whether or not the music LAN setting device is connected to the actual music LAN, It is possible to virtually create logical connection settings related to the data exchange relationship between data communication devices offline, and by saving this setting as a template, the music LAN setting device is connected to the actual music LAN thereafter. The virtual setting of the template prepared in advance can be applied to the actual music data communication apparatus on the actual music LAN and can be easily reflected in the actual setting.

In the music LAN setting system according to another feature of the present invention (Claims 2 and 5), models (Aa) and communication capabilities (P) of various music data communication devices (for example, tone generator device and recorder device) prepared in advance. A template recording means using communication setting data (for example, Dj ′, Dk ′; Cn) between a plurality of virtual music data communication devices created offline based on the template as a template file (Tf) for data transfer relationship setting A plurality of sets can be recorded in the (external storage device 4). In each template file (Tf), model information (Aa) indicating the types (models) of a plurality of virtual music data communication devices that should constitute the music LAN and the device ID of the music data communication device are not determined. A plurality of pieces of device information [Dj ′, Dk ′: device item information A (model information Aa + indeterminate device ID information Ab) + Logical communication terminal information P ′] and connection information (Cn) representing a data transmission / reception relationship (Ca, Cb) virtually set between the music data communication devices, and a virtual LAN to constitute the music LAN. And a virtual data exchange between the music data communication devices (the device item information A is determined only by the model information Aa and the device ID information Ab is not determined (all “F”)). Engaging [virtual logical connection which defines the exchange relationship data communicated between the music data communication device (P '; Ca, Cb)] are set and. When this music LAN setting device (ST) is actually connected to the music LAN, the necessary template file (Tf) is read from the template recording means (4), and the device information (for example, the template file (Tf)) Dj ′, Dk ′), the value (all “F”) of the device ID information (Ab) of the template data (Tf) is used as the music data communication device (DV1, DV1) on the actually connected music LAN. DV2) is rewritten with a unique device ID (GUID or the like) (R3 to R5), and logical connection setting based on connection information (Cn) of the template data (Tf) is performed on actual music LAN. Set to a device (for example, electronic music device DV1, DV2). Therefore, according to the present invention, when the music LAN setting device is connected to the actual music LAN, by applying the template previously created and recorded for the virtual music data communication device to the actual music LAN, The virtual setting based on the template can be easily reflected in the actual setting for the music data communication apparatus that actually exists on the actual music LAN, and the actual music LAN setting can be easily performed. Since the model information indicating the type of the music data communication apparatus (device) that should constitute the music LAN is recorded in the template in which the music LAN is set, it is recorded when the template setting is applied to the actual music LAN. It can be easily set for an actual music data communication device of the same model as the model information. Further, if a plurality of sets of data transfer relationship setting templates are prepared, it can be applied to an actual music LAN simply by selecting what is actually required, and the setting of the music LAN becomes very easy.

Further, in this music LAN setting device, the logical setting state of each music data communication device on the actual music LAN is displayed on the display (12) as a graphic so that the setting operation and the setting state can be easily confirmed. In particular, when a virtual setting based on the template data (Tf) is reflected on an actual music LAN, the state set in the actual music data communication device is associated with the actual music data communication device. The virtual music data communication device setting state (Virtual) based on the template data (Tf) that is not displayed is distinguished and displayed (Claim 3). Therefore, according to the present invention, the user refers to the music data communication device (device) in which the data transfer relationship is set on the actual music LAN as the music data communication device (device) virtually set by the template. It can be clearly distinguished.

[System Overview]
FIG. 1 is a system configuration schematic diagram for explaining the overall configuration of a music LAN system according to an embodiment of the present invention. FIG. 1 (1) shows an example of a connection configuration of a music LAN system. ) Shows a hardware configuration example of the music LAN setting device for setting the music LAN system, and FIG. 1 (3) shows a music data communication device (electronic music) which is an element device (node) constituting the music LAN system. 2 shows an example of the hardware configuration of the apparatus.

  As shown in FIG. 1A, the music LAN system includes a music LAN setting device (also simply referred to as “setting device”) ST and a plurality of music data communication devices (also simply referred to as “devices”) DV1, DV2,. Are connected by a predetermined interface means. This interface means connects the music data communication devices DV1, DV2,... (Where the symbol “DV” represents the music data communication device as a representative or common) in a serial or tree form, and is connected to the music data. A relationship for exchanging predetermined music information between communication devices can be set.

  In the specific examples described below, such interface means conforming to the IEEE 1394 standard is used, and the devices ST, DV: DV1, DV2,... Equipped with the IEEE 1394 interface are also referred to as “1394 devices”. The cable connecting the IEEE 1394 ports of the above is called “1394 cable”.

  That is, the music LAN setting device ST and the music data communication devices DV1, DV2,... Are physically connected by a communication cable according to the IEEE 1394 standard, and logically between predetermined music data communication devices according to the setting result. With this, predetermined music information can be exchanged. For example, the setting device ST is a personal computer (PC), and the first and second music data communication devices (devices) DV1 and DV2 are used as a tone generator device and a recorder device, respectively, and two music data communication devices (devices) are used. The music LAN system provided can be configured.

  In this music LAN system, the setting device ST can virtually set the logical connection relationship between the devices DV1 and DV2 of the music LAN system, and these devices ST, DV1 and DV2 As shown in the figure, when the connection relationship virtually set by the setting device ST is actually set in each of the devices DV1 and DV2 in a state physically connected by the 1394 cable, the devices DV1 and DV2 Predetermined data can be exchanged through a 1394 cable according to the connection relationship. For example, in the setting device ST, the logical output between the devices DV1 and DV2 is received in advance so that the audio output data from the first device DV1 functioning as a tone generator device is received by the second device DV2 functioning as a recorder device. When the audio input / output relationship is virtually set, and then the audio input / output relationship is actually set to each of the devices DV1 and DV2 in a state where the 1394 cable is physically connected as shown by the solid line in FIG. Audio output data from one device DV1 can be logically transferred as audio input data to the second device DV2.

  The music LAN setting device ST functioning as a setting device for setting the music LAN system can be composed of a general-purpose computer including a PC as described above. As shown in FIG. A device (CPU) 1, a random access memory (RAM) 2, a read only memory (ROM) 3, an external storage device 4, a detection circuit 5, a display circuit 6, a music LAN interface 7, etc., and these elements 1 to 7 Are connected to each other via a bus 8.

  The CPU 1 executes various processes including a music LAN setting process using a clock by the timer 9 according to a predetermined control program. The RAM 2 is used as an area for temporarily storing programs and various types of data necessary for these processes. The ROM 3 stores various control programs and control data necessary for executing these processes.

  The external storage device 4 is not only a built-in storage medium such as a hard disk (HD), but also a variety of compact disks (CD), flexible disks (FD), magneto-optical disks (MO), digital multipurpose disks (DVD), and so on. Including portable external recording media. The arbitrary external storage device 4 includes various control programs including a music LAN setting processing program, device information file Mf used for the music LAN setting processing, control data such as a template file Tf and a setting file Sf created by this processing. Can be stored.

  The detection circuit 5 detects the operation contents of the operation elements such as the keyboard 10 and the mouse 11 and introduces corresponding information into the apparatus main body. The display circuit 6 includes display elements such as a display 12 such as an LCD, and controls display contents in accordance with instructions from the CPU 1 to provide display assistance for operations of the operators 10 and 11.

  As described above, the IEEE1394 I / F is used for the music LAN interface (I / F) 7, and another 1394 device can be connected to the IEEE1394 port via a 1394 cable. A typical example of another 1394 device is a music LAN data communication device DV, which transmits connection information representing a data transmission / reception relationship virtually set by the setting device ST to the music LAN data communication device DV through the music LAN I / F 7. can do.

  The setting device ST can include a communication I / F connected to a wide area communication network such as the Internet. The setting device ST receives a control program from the server device SV or receives control data from another computer terminal and is externally connected. It can be stored in the storage device 4.

  The music data communication devices DV: DV1, DV2,... Described in FIG. 1 (1) function as elemental devices (nodes) constituting the music LAN system and can handle various music information such as MIDI data. Consists of devices. The basic hardware configuration of each music data communication device DV can be commonly represented in FIG. 1 (3), and includes a CPU 21, a RAM 22, a ROM 23, a built-in external storage device 24, another external storage device 25, and a detection circuit. 26, a display circuit 27, a signal processing unit 28, a music LAN I / F 29, a MIDI interface (I / F) 30, an audio interface (I / F) 31, etc. These elements 21 to 31 are connected via a bus 32. Connected to each other.

  The CPU 21 executes predetermined music information processing using a clock from the timer 33 according to a predetermined control program, and actually sets transmission / reception of the music LAN I / F 29 according to connection information from the setting device ST. The RAM 22 is used as a work area for temporarily storing various necessary data, and the ROM 23 stores various necessary control programs and control data. The built-in external storage device 24 includes a nonvolatile memory such as a flash memory, and can store a control program including a music information processing program and necessary control data. The other external storage device 25 includes various external recording media such as HD, CD, FD, MO, and DVD, and can store necessary programs and data in any external recording media.

  The detection circuit 26 detects the operation content of the operation element 34 such as a key switch or a mouse and introduces corresponding operation setting information into the apparatus main body. The display circuit 27 includes display elements such as a display 35 such as an LCD. These display contents are controlled in accordance with instructions from the CPU 1 to provide display assistance for the operation of the operator 34.

  The signal processing unit 28 performs signal processing according to the function of the music data communication apparatus. For example, when it functions as a tone generator device, it includes a sound source and an effect-providing DSP (including software), generates audio data based on MIDI data, and functions as a recorder device when it functions as a recorder device. In order to record or reproduce the recorded data or the recorded data, the data is converted into data of a desired format. Further, when functioning as a mixer device, it includes a DSP engine for mixing processing, and input audio of a plurality of channels from the music LAN I / F 29 or the audio I / F 31 according to the operation setting information from the operation unit 34-26. The data is mixed and the output audio data of each processed channel is returned to the music LAN I / F 29 or the audio I / F 31.

  The music LAN I / F 29 uses an IEEE 1394 I / F as in the music LAN setting device ST of FIG. 1B, and another 1394 device is connected to the IEEE 1394 port via a 1394 cable. A typical example of another 1394 device is, for example, the setting device ST shown in FIG. 1 or another music data communication device DVe. The connection information from the setting device ST is received by the music LAN I / F 29, The connection information can be transmitted from the music LAN I / F 29 to another music data communication device DVe.

  Further, after the data exchange relationship with another music data communication device DVe is actually set to the I / F 29 in accordance with the setting information for the music data communication device DV, the music LAN I / F is based on the set data exchange relationship. Predetermined data can be exchanged with other music data communication devices through F29. For example, when the music data communication device DV functions as a tone generator device, the music LAN I / F 29 functions as a logical audio output terminal (Audio Out L, R) for outputting the generated audio data. .

  Other MIDI music equipment (external MIDI equipment) MD such as a performance keyboard is connected to the MIDII / F30, and MIDI data is exchanged between the music data communication device DV and the other music equipment MD. It can be used in the data communication device DV. The audio I / F 31 is connected to an audio output device such as a sound system and an external audio device AD such as various audio input devices.

  Note that the music data communication device (electronic music device) DV is not only music information such as MIDI data and audio data, but also other music data communication devices (electronic music device) in the music LAN, such as word clock and video data. ) It can have a function to communicate with and handle DVe. Accordingly, the music data communication device DV includes, for example, one having the video data processing function in the signal processing unit 28 and the video data display function in the display units 27-35.

[Virtual connection settings]
In the music LAN setting system according to the embodiment of the present invention, the logical connection relationship between the music data communication devices constituting the music LAN system is virtually offline from the prepared device information file on the music LAN setting device. After the template file set in the above is created, the connection relationship set in the template file is set in the actual music LAN system, and the logical connection relationship actually set can be saved as a setting file. 2 to 4 are diagrams showing examples of a device information file Mf, a template file Tf, and a setting file Sf used in the music LAN setting system according to one embodiment of the present invention. In this example, each file is represented by a file format that conforms to the XML format, but other formats may also be used.

  As shown in FIG. 2, the device information file Mf stores predetermined device information including the model and communication capability of a plurality of types of music data communication devices (hereinafter referred to as “devices”) that can be candidates for the components of the music LAN system. And is stored in advance in the external storage device 4 of the setting device ST. In this example of the device information file Mf, a music LAN system is composed of three types of devices, a mixer (Mixer MX5), a tone generator (Tone Generator TX1), and a recorder (Recorder RX1), using three pieces of device information Di to Dk. It has been shown that you can. Note that the number of devices (candidate devices) that can constitute the music LAN system is three in FIG. 2 for the sake of simplicity of explanation, but in reality, other models such as a synthesizer device are included, and more A model can be prepared.

  Each piece of device information Di to Dk includes device item information A described in the <Device> tag on the first line, which includes a model (model) Aa, a device ID (GUID) Ab, a vendor (Ac), and the like of each device. The <Fs> tag over the next four lines includes information such as Fs capability information F in which the capability of the sampling frequency (Fs) is described, and plug information P described in the <Plug> tag below it.

  The model information Aa in the device item information A represents the model name assigned in correspondence with the data processing function of each device. The device ID information Ab is used to represent a device ID unique to each device called “GUID” or “EUI-64”. Each actual device DV that conforms to the IEEE 1394 specification holds its own device ID, but the device ID information Ab in the device information file Mf is uncertain indicating that the device ID (GUID) has not yet been determined. It is described by ID value = all “F”. The vendor information Ac represents the seller of each device.

  The plug information P specifies the data output or input through the music LAN I / F 29 by assigning the function of the logical output or input terminal (Plug) corresponding to the data output or input of each device by “plug”. This is information, and is configured by appending the type of data and the transmission / reception direction (Type, direction) to the ID and name (ID, PlugName) of the plug. For example, in the second device information Dj, two plugs Audio Out L and Audio Out R are prepared as logical terminals for outputting two audio data to the second model device Tone Generator TX1. The plug ID represents the ID of the plug in the music LAN system to be constructed from now on, and is not determined at the stage of the device information file Mf, so is described as “F”.

  The setting device ST selects a component device of the music LAN system from the prepared device information file Mf, and virtually sets a logical connection relationship between the selected component devices offline to create a template file. Tf is created. 3 shows that the first and second model devices Tone Generator TX1 and Recorder RX1 are selected from the device information file Mf of FIG. 2, and the recorder device through the music LAN I / F from the second device functioning as a tone generator device. The template file Tf when the connection relation between both apparatuses is virtually set so as to transmit two audio data to the second device functioning as

  As shown in FIG. 3, the template file Tf includes device information Dj ′ and Dk ′ including device item information A and plug information P ′ extracted from the device information file Mf corresponding to each selected device, and virtual Connection information Cn representing a logical connection relationship between the devices set automatically. In this case, the ID of the plug information P ′ is obtained by changing the indefinite ID number of the plug information P in the device information file Mf, and is a music LAN system (including a selected device according to a predetermined rule). That is, a unique ID number is assigned in the file Tf). The connection information Cn is composed of connection information Ca and Cb representing the transmission / reception relationship of individual data virtually set between the devices as a logical plug connection relationship, and each connection information Ca and Cb includes: Each is described in the <Patch> tag by the ID (srcPlugID, dstPlugID) of the plug information P ′ which is the source and destination of each data.

  FIG. 5 is a diagram for explaining an example of virtual setting processing in the music LAN setting system according to one embodiment of the present invention. FIG. 5 (1) is a flowchart showing a (virtual) device addition process executed when a desired device is selected from the device information file Mf and components of the music LAN system are virtually set. 5 (2) is a flowchart showing (virtual) device connection processing executed when the data exchange relationship between devices set in the component is virtually set by logical inter-plug connection. These processes are collectively referred to as “AddNode” processes. FIG. 5C shows a display example of a screen Wd called a “connection display window” displayed on the display 12 when the device connection process is performed.

  First, in the device addition process flow of FIG. 5A, after the menu screen (not shown) of the music LAN setting process is displayed on the display 12 in the setting device ST, the “device addition” item is selected by the user's menu selection. It is executed when an instruction operation is performed. In this example, when the illustrated processing flow is executed once, one device is virtually added. When a plurality of devices are added, this processing flow is executed for the added number of devices. To do. In addition, a plurality of devices of the same model can be added.

  When this processing flow is started by the device addition operation, first, the CPU 1 reads the device information file Mf previously held in the external storage device 4 of the setting device ST onto the RAM 2 in the first step V1. Note that, as described above, indefinite ID value = “FFFF” (all “F”) indicating that the value of the plug ID is not fixed is written in each device plug information P of the device information file Mf. ing.

  In the subsequent step V2, a device selection window (not shown) is displayed on the display 12 by reading the file, and the model name Aa is listed on the window based on the device information Di to Dk of the device information file Mf and selected by the user. . In this case, information other than the device name Aa such as vendor information Ac, Fs capability information F, and plug information P is also displayed in the device selection window so that the user can select it. Good.

  When the user performs an operation for selecting a device in the device selection window, a device image representing the selected device is additionally displayed in the connection display window Wd in the next step V3. For example, when a tone generator device is selected in the first device addition process, device information related to the tone generator device is extracted from the device information file Mf, and setting data based on the extracted device information is generated on the RAM 2. When the recorder device is selected in the second device addition process, the device image Db of the recorder device is displayed in the connection display window Wd in addition to the device image Da of the tone generator device as shown in FIG. To do. In addition, information (Virtual) indicating that it is a virtual setting stage is appended to the device images Da and Db together with the device names Tone Generator TX1 and Recorder RX1 in accordance with the model information Aa. Since the connection information related to the selected device is not set, the images Da and Db representing the corresponding device are not yet connected by lines Lm and Ln as shown in FIG.

  Then, in the next step V4, information A, P of the selected device necessary for music LAN setting is extracted from the device information file Mf, and the plug ID of these information is stored in the music LAN system being set. After changing to a unique ID value, it is added to the setting data on the RAM 2. That is, the item information A of the selected device and the plug information P ′ whose plug ID has been changed by additionally assigning a unique ID value in the setting data to the plug and writing the ID value is additionally inserted. Then, after this processing, the device addition processing related to the device ends.

  Next, the device connection processing flow in FIG. 5 (2) is executed when a connection operation is performed by the user on the connection display window Wd on which two or more device images are displayed. The transmission plug and the reception plug are selectively designated. When this processing flow is executed once, one connection is virtually added. When a plurality of connections are added, this processing flow is executed for the number of additional connections.

  The above-described connection operation is performed by selecting a transmission and reception plug on the connection display window Wd by a user operation of the mouse 11. For example, as shown in FIG. 5 (3), when the device image Da having the transmission plugs Pas1 and Pas2 and the device image Db having the transmission plugs Pbs1 and Pbs2 and the reception plugs Pbr1 and Pbr2 are displayed in the window Wd, the user Operates the mouse 11 to move the cursor Cs sequentially onto the transmission plug Pas1 and the reception plug Pbr1, and clicks the mouse 11 on each of the plugs Pas1 and Pbr1.

  When this processing flow is started by the connection operation, first, in step V5, the CPU 1 searches for the ID of the transmission plug of the device designated by the connection operation from the setting data of the device, and in the subsequent step V6. The ID of the receiving plug of the other device designated by the connection operation is searched from the setting data of the other device. The procedure for searching for the plug ID in both steps V5 and V6 is based on the position of the cursor Cs when the connection operation is performed with the mouse 11, and the device information Dj, Dk in the setting data and the plug included in the device information Dj, Dk. The information P ′ is specified, and the plug ID is acquired from the plug information P ′.

  In the next step V7, the connection information is added to the setting data on the RAM 2, and based on this connection information, the connection between both plugs designated by the connection operation is additionally displayed. As illustrated in FIG. 3, the procedure for adding the connection information includes a connection information Cn column (<Connections> tag) in the setting data, and the transmission and reception plugs found in both steps V5 and V6. Using the ID, connection information Ca and Cb representing the connection contents is generated and additionally inserted into the connection information Cn. And the apparatus connection process regarding the said wire connection operation is complete | finished.

  For example, when the device connection process is performed twice based on the connection operation between the transmission plug Pas1 and the reception plug Pbr1 and the connection operation between the transmission plug Pas2 and the reception plug Pbr2, it is shown as a template file Tf in FIG. Setting data is obtained, and the connection display window Wd displays lines Lm and Ln connecting the plugs Pas1 and Pbr1 and the plugs Pas2 and Pbr2, respectively, as shown in FIG. 5 (3). In this processing example, only the audio data (Audio) logical connection has been described, but the logical connection related to MIDI data, word clock, and video data can be processed in the same manner. Further, in the audio device selection connection process, the Fs capability of each device may be set.

  With regard to the design of the display window Wd, in FIG. 5 (3), the component devices and connections are graphically displayed as graphics and images, but may be displayed in a list format as in Patent Document 1. In addition, a component device that is not associated with an actual device (actual device) DV and whose device ID (GUID) is not fixed displays a virtual device display with “(Virtual)” as in the example of FIG. As will be described later, since the device corresponding to the real device with the device ID determined has the virtual device display erased, there may be a case where the virtual device display is present and a case where the virtual device display is not present.

[Reflect virtual settings to actual devices]
In the music LAN setting system according to one embodiment of the present invention, a plurality of template files are recorded in an arbitrary external storage device that can be used by the music LAN setting device, and the music LAN setting device is actually connected to the music LAN system. When a necessary template is read out, the connection relationship set in the template file is set in the actual music LAN system, and the contents actually set in the music LAN setting system are as shown in FIG. It can be saved as Sf. 6 and 7 are flowcharts showing an example of actual machine reflection processing (referred to as “Apply” processing) according to one embodiment of the present invention.

  The music LAN setting device ST is shown in FIGS. 6 and 7 in a state where it is actually connected with the device DV constituting the music LAN system in which the logical connection relation is virtually set by the template file Tf by the 1394 cable CB. By executing the actual machine reflection process shown, the logical connection relationship defined by the template file Tf is reflected on the actually connected actual device (actual machine) DV. At this time, the actual device ID of each component device DV is read via the IEEE1394 interface means, and setting data in which the device ID of the template file Tf is rewritten with the device ID of the actual device DV is generated, and this setting is made as necessary. Data can be saved as a setting file Sf. For example, by performing the actual machine reflection process based on the template file Tf of FIG. 3, the setting file Sf shown in FIG. 4 is obtained. This setting file is similar to the template file Tf, and includes the device item information A ′ and the plug. It consists of device information Dj ′ and Dk ′ including information P ′, connection information Cn, and the like. For each device item information A ′, the value of the device ID information Ab is rewritten to the device ID of the actual device DV.

  Now, the actual machine reflection process of FIGS. 6 and 7 performs a desired template file Tf or setting file from a plurality of template files or a plurality of setting files recorded in the external storage device 4 in accordance with a user's selection operation. When Sf is specified and the setting data of the specified file is read onto the RAM 2, or after the setting data is created / edited on the RAM 2, it is started by a real machine reflection process start command based on a user operation. The A setting display window (not shown) representing the setting status of the music LAN system is displayed on the display 12 in a display manner similar to the connection display window of FIG. . When this process is started, the CPU 1 determines in step R1 whether or not a device (all “F”) whose device ID is not determined is included in the setting data.

  If there is a device whose device ID is uncertain (R1 → YES), the devices (actual devices) DV on the music LAN connected by the 1394 cable CB are checked one by one in steps R2 to R6. First, in step R2, the device ID and model information of the actual DV are acquired, and in the subsequent step R3, it is determined whether or not a device having the acquired device ID is already in the setting data. If the device with the device ID is not in the setting data (R3 → NO), the process proceeds to step R4, and there is a device in the setting data that matches the model information of the actual DV and whose device ID is not fixed. It is determined whether or not. Here, if there is a device in the setting data that matches the model information of the actual DV and the device ID is not determined (R4 → YES), the process proceeds to step R5, and the device ID acquired in step R3 is written in the setting data. Thereafter, the process proceeds to Step R6. There are several variations on how to reflect the setting contents when there are multiple devices of the same model on the music LAN. A method of giving priority to a device having a lower device ID may be used.

  On the other hand, when there is no device in the setting data that matches the model information of the actual DV in the setting data (R4 → NO), or when a device with the device ID acquired in step R3 already exists (R3 (→ YES), it proceeds to step R6 as it is.

  In step R6, it is determined whether or not all devices DV on the music LAN have been checked. If all devices DV have not been checked (R6 → NO), the process returns to step R2 to check all devices DV. Steps R2 to R6 are repeated. When all the devices have been checked (R6 → YES), the process proceeds to step R7, and a setting display window (not shown) is used to determine whether or not the device ID is determined in the setting data after the processing of steps R2 to R6. To reflect each device display (Da, Db). For example, “(virtual)” indicating a virtual device is not displayed on a device whose device ID is determined.

  After the display process in step R7, or when there is no device whose device ID is uncertain in the setting data (R1 → NO), the process proceeds to step R8, and the device whose device ID is fixed in the setting data is determined for the actual DV. Clears the setting information related to data transmission / reception in the music LAN I / F 29. In the next step R9, it is determined whether or not there is connection information in the setting data. If there is no connection information (R9 → NO), the actual machine reflection process is terminated. On the other hand, when there is the connection information Cn (R9 → YES), the process proceeds to step R10 to obtain connection information one by one from the connection information Cn of the setting data, and the check after step R11 is performed.

  In step R11, it is determined whether or not a device including the transmission plug (out) defined by the connection information actually exists. If the actual device DV exists (R11 → YES), the process proceeds to step R12, and the actual device DV is determined. A data transmission channel is set so as to transmit data corresponding to the transmission plug to the music LAN I / F 29. In the next step R13, it is determined whether or not a device including the reception plug (in) defined by the connection information actually exists. When the actual device DV exists (R13 → YES), the process proceeds to step R14. In step R14, the data reception channel of the actual device DV is set so that the data corresponding to the reception plug is transmitted to the music LAN I / F 29 of the actual device DV. At this time, the transmission / reception in the setting display window is performed. It is preferable to change the connection displays Lm and Ln between the device images Da and Db to thick lines or the like.

  After the reception setting process in step R14, or when there is no device including the transmission or reception plug (R11 → NO, R13 → NO), the process proceeds to step R15 to check all connection information in the setting data If all the connection information is not checked (R15 → NO), the process returns to step R10, and the processes of steps R10 to R15 described above are repeated until the check of all the connection information is finished. When all the devices are checked (R15 → YES), the actual machine reflection process is terminated.

[Other processing]
FIG. 8 is a flowchart showing an example of other processing executed when there is setting data on the RAM of the music LAN setting device, and FIG. 8 (1) stores the setting data on the RAM 2 as a template file Tf. FIG. 8 (2) shows a setting file saving process flow for saving the setting data on the RAM 2 as the setting file Sf, and FIG. 8 (3) shows the setting of the template file Tf. A template file reading process flow to be read onto the RAM 2 as data is shown.

  When the template file saving process of FIG. 8A starts based on the template file saving instruction by the user operation, the CPU 1 copies the setting data on the RAM 2 in the first step S11 and creates it in the saving processing area of the RAM 2. In the next step S12, the contents of the device ID in the copied setting data are rewritten to data representing the indeterminate state (all “F”). In step S13, the copied setting data after the rewriting process is written in the external storage device 4 as the template file Tf, and the saving process is terminated.

  When the setting file saving process of FIG. 8 (2) is started by the user operation of the setting file saving instruction, the CPU 1 in the first step S21, the contents of the device ID are in an indefinite state (all “ F ”) is determined and if there is no such device ID (S21 → NO), the process proceeds to step S22, and the setting data is written to the external storage device 4 as the setting file Sf. Then, this saving process is terminated.

  However, if there is a device ID indicating an indeterminate state (S21 → YES), the process proceeds to step S23, and after displaying on the display 12 that the setting data is to be saved as a template file, the template file saving is automatically instructed. Then, in the next step S24, the setting data is written out as the template file Tf to the external storage device 4 by the template file saving process (S11 to S13), and the saving process is ended.

  When the template file reading process of FIG. 8 (3) is started by the user operation of the template reading instruction, the CPU 1 lists the template files stored in the external storage device 4 on the screen of the display 12 in the first step S31. Let the user choose. In step S32, the setting data on the RAM is overwritten with the template file Tf instructed by the user's selection operation, and the reading process is terminated.

  The preferred embodiment of the present invention has been described above with reference to the drawings. However, this is merely an example, and the present invention can be variously modified without departing from the spirit of the invention. For example, in the embodiment, the correction (editing) of the setting data has not been described in detail. However, in the music LAN setting device, a setting file once saved in the music LAN, whether offline or online, Then, it can be read again as setting data on the RAM, and the setting of the connection information can be corrected. Since a correction technique for such a setting file can use a known method, a detailed description thereof will be omitted.

  Further, in the music LAN setting device, after reading the setting file as setting data, the virtual LAN such as correcting the connection or adding a virtual node (virtual device) to the setting file regardless of whether the music LAN is offline or online. It is possible to set a general connection relationship and save it as a template file (see S23 and S24 in FIG. 8 (2)).

  In the embodiment, the music LAN setting device can be actually connected to the music LAN. However, a setting that does not require connection to the music LAN may not be connected to the music LAN. For example, a music LAN is installed. A home PC or the like away from the site where the user is located can be used as an offline dedicated music LAN setting device to perform virtual connection setting and setting file correction work. Therefore, a portable external storage medium storing a template file obtained by a home offline dedicated music LAN setting device can be set in the local music LAN setting device, or a setting file obtained by the local music LAN setting device can be stored. The portable external storage medium can be taken home, and the setting file can be corrected by the offline dedicated music LAN setting device, and then returned to the music LAN setting device at the site and re-set to the music LAN.

1 is a schematic diagram for explaining a configuration of a music LAN system according to an embodiment of the present invention. It is a figure showing the example of the apparatus information file used with the music LAN setting system by one Example of this invention. It is a figure showing the example of the template file used with the music LAN setting system by one Example of this invention. It is a figure showing the example of the setting file used with the music LAN setting system by one Example of this invention. It is a figure for demonstrating the example of the virtual setting process in the music LAN setting system by one Example of this invention. It is a part of flowchart showing the example of real machine reflection processing by one Example of this invention. It is the other part of the flowchart showing the example of an actual machine reflection process by one Example of this invention. It is a flowchart showing the other process example by one Example of this invention.

Explanation of symbols

ST Music LAN setting device composed of personal computer (PC), etc.
DV1, DV2; DV; DVe music data communication device (electronic music device, equipment),
Mf, Tf, Sf Device information file, template file and setting file,
Wd Connection display window.

Claims (5)

A music data communication device that can be an elemental device constituting a music LAN; device information storage means for storing device information including its model and data communication capability for a plurality of models;
Template recording means for recording template data;
Designating means for designating a plurality of virtual music data communication devices to constitute the music LAN according to a user operation, and designating a virtual data transmission / reception relationship between the designated music data communication devices;
Model information representing the type of the music data communication device and the music data communication based on the device information corresponding to the model of the music data communication device designated by the designation means among the device information stored in the device information storage means A plurality of device information including device ID information described by a value indicating that the device ID of the device is not fixed, and connection information indicating a data transmission / reception relationship specified by the specifying means, Creating means for creating communication setting data in which a plurality of virtual music data communication device models to be configured and virtual data transmission / reception relationships between the music data communication devices are set;
A music LAN setting device comprising: a template recording control unit that records communication setting data created by the creating unit as template data in the template recording unit. A plurality of virtual music data communication devices that should constitute the music LAN are described with model information indicating the types of these music data communication devices and values indicating that the device IDs of these music data communication devices have not been determined. A plurality of device information including device ID information, and connection information representing a virtual data transmission / reception relationship between the music data communication devices, and a model of a plurality of virtual music data communication devices to constitute a music LAN And template recording means for recording communication setting data in which a virtual data transmission / reception relationship between these music data communication devices is set as template data,
Template reading means for reading template data recorded in the template recording means when the music LAN setting device is actually connected to the music LAN;
Based on the device information of the template data read by the template reading means, the value of the device ID information of the template data is rewritten to the device ID of the music data communication device on the music LAN that is actually connected, A music LAN setting device comprising: setting means for setting a data transmission / reception relationship based on connection information of the template data in a music data communication device on a music LAN that is actually connected.   The setting means is based on the template data read by the template reading means and device information from the music data communication apparatus on the music LAN that is actually connected to the actual music data communication apparatus on the music LAN. 3. The display unit according to claim 2, further comprising: a display unit configured to distinguish and display a setting state of the virtual music data communication device not associated with the music data communication device on the music LAN. Music LAN setting device. A music data communication device that can be an elemental device constituting a music LAN, device information storage means for storing device information including its model and data communication capability for a plurality of models, and template recording means for recording template data And a computer functioning as a music LAN setting device,
A designation step of designating a plurality of virtual music data communication devices that should constitute the music LAN in accordance with a user operation and designating a virtual data transmission / reception relationship between the designated music data communication devices;
Model information representing the type of the music data communication device and the music data communication device based on the device information corresponding to the model of the music data communication device specified in the specifying step among the device information stored in the device information storage means A plurality of pieces of device information including device ID information described by a value indicating that the device ID of the device is not fixed, and connection information indicating the data transmission / reception relationship specified in the specifying step, and constituting a music LAN A creation step for creating communication setting data in which a plurality of virtual music data communication apparatus models to be set and virtual data transmission / reception relationships between the music data communication apparatuses are set;
A music LAN setting program for executing a procedure comprising a template recording control step for recording the communication setting data created in the creating step as template data in a template recording means. A plurality of virtual music data communication devices that should constitute the music LAN are described with model information indicating the types of these music data communication devices and values indicating that the device IDs of these music data communication devices have not been determined. A plurality of device information including device ID information, and connection information representing a virtual data transmission / reception relationship between the music data communication devices, and a model of a plurality of virtual music data communication devices to constitute a music LAN And a template recording unit that records communication setting data in which a virtual data transmission / reception relationship between the music data communication devices is set as template data, and a computer functioning as a music LAN setting device includes:
A template reading step of reading template data recorded in the template recording means when the music LAN setting device is actually connected to the music LAN;
Based on the device information of the template data read in the template reading step, the value of the device ID information of the template data is rewritten to the device ID of the music data communication device on the music LAN that is actually connected, A music LAN setting program for executing a procedure including a setting step for setting a data transmission / reception relationship based on connection information of the template data in a music data communication apparatus on a music LAN that is actually connected.

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