CN2833784Y - Scene data and parameter editing and storage device, digital mixer, and configuration editor - Google Patents

Scene data and parameter editing and storage device, digital mixer, and configuration editor Download PDF

Info

Publication number
CN2833784Y
CN2833784Y CN 200520004126 CN200520004126U CN2833784Y CN 2833784 Y CN2833784 Y CN 2833784Y CN 200520004126 CN200520004126 CN 200520004126 CN 200520004126 U CN200520004126 U CN 200520004126U CN 2833784 Y CN2833784 Y CN 2833784Y
Authority
CN
China
Prior art keywords
data
configuration
context data
mixer
assembly
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Fee Related
Application number
CN 200520004126
Other languages
Chinese (zh)
Inventor
竹村聪
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Yamaha Corp
Original Assignee
Yamaha Corp
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Yamaha Corp filed Critical Yamaha Corp
Application granted granted Critical
Publication of CN2833784Y publication Critical patent/CN2833784Y/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

Links

Images

Landscapes

  • Circuit For Audible Band Transducer (AREA)
  • Management Or Editing Of Information On Record Carriers (AREA)

Abstract

The utility model provides a scene data editing device for a digital mixer. The digital mixer is provided with a processor of an audio signal processing unit which can execute programs to form various mixer configurations correspondingly. A configuration ID is attached to each mixer configuration, and the same configuration IDs are attached to mixer configurations with compatibility between the scene data of the configuration IDs. The scene data is a parameter data set used in operation in an audio signal processing unit. When the mixer configuration is edited, the configuration ID which is the same as the mixer configuration before the mixer configuration is edited is attached to the mixer configuration after the mixer configuration is edited. Under the matching condition of a reading source configuration ID and writing destination configuration ID, the scene data of each mixer configuration is wrote on the writing destination mixer configuration from the reading source mixer configuration.

Description

Context data and parameter editor, memory storage and digital mixer and configuration editing apparatus
Technical field
A kind of digital mixer that is used for audio signal of the utility model relate generally to relates to a kind of be used to the edit context data that is applied to digital mixer and editing device and a kind of context data memory storage of mixer configuration data especially.
Background technology
Known digital mixer, described in non-patent document " digital blend tool (engine) DME32 Guide Book " (Yamaha Corporation, calendar year 2001), wherein mixer configuration can be customized.In described technology, audio signal processing unit is by utilizing processor (for example, digital signal processor (DSP)) disposes, this processor is operated according to program, so that (or signal Processing configuration) comes audio signal based on mixer configuration, this configuration can be edited by utilizing exterior PC (personal computer).Mixer configuration foundation and the editor on PC can carry out by utilizing special-purpose mixer control program.Just, the mixer configuration assembly (component) that shows on the PC screen is arranged, and these assemblies are interconnected, and to specify their I/O relation, sets up and edit mixer configuration thus.The mixer configuration of setting up is sent to the digital mixer machine, and this machine is carried out the mixer configuration of receiving, to realize the operation of digital mixer.
The mixer of above-mentioned relevant prior art allows for different mixer configuration and uses a plurality of context data.Context data is represented the data set of parameter, uses these parameters when disposing the operand word mixer with given mixer.If use identical mixer configuration, then the user wants to come the operand word mixer with the different parameters that is used for different sights sometimes, thereby prepares a plurality of context data, may call these data sometimes with the operand word mixer.
Context data is accompanied by each mixer configuration, thereby different mixer configuration needs different context data structures.Therefore, between the context data that has with the different corresponding different structures of mixer configuration, there is not compatibility.The shortage of this compatibility is brought problem in different phase.For example, sometimes such situation occurs, that is:, edit current slightly with the performed mixer configuration of mixer instrument by the mixer control program of PC, mixer configuration behind the editor is sent to the mixer instrument from the mixer control program, is used for operation.Yet this brings a problem, can't be called (recall) by the mixer configuration behind the editor at the sight that uses with mixer configuration before the editor that is:.Another problem is, if the mixer instrument has two or more models, then their generally need different context data structures, makes thus and can not share sight between different models, even how similar that mixer structure has each other is.
In fact, a mixer configuration comprises a plurality of configuration components, and such as balanced device, compressor reducer, wave filter, mixer and effect device, different mixer configuration can comprise the configuration component of similar type.Sometimes need between these configuration components, share context data.Yet, only allow those mixer configuration of respective design are shared context data between different configuration components.As a result, for example owing to configuration component yardstick difference, other mixer configuration can't be shared context data.
Summary of the invention
Therefore first purpose of the present utility model is: under predetermined condition, in having the digital mixer of its audio signal processing unit, provide have with the digital mixer with audio signal processing unit in the context data of the different corresponding different structures of mixer configuration between compatibility, this audio signal processing unit is by disposing according to the processor that program is operated, and this digital mixer can come audio signal based on the mixer configuration of utilizing exterior PC to edit.
Therefore second purpose of the present utility model is: a kind of digital mixer with audio signal processing unit is provided, this audio signal processing unit is by constituting according to the processor that program is operated, this digital mixer can come audio signal based on given mixer configuration, wherein no matter the difference between the mixer configuration, under predetermined condition, between the configuration component of each mixer configuration, provide the context data compatibility.
In order to realize above-mentioned first purpose, configuration identifier information (configuration ID) is attached to each mixer configuration, and identical configuration ID is attached to has these compatible mixer configuration between their context data.For example, when mixer configuration is edited, with the mixer configuration that is attached in the identical configuration ID of the mixer configuration before the editor after editor.In the configuration ID in the source of reading with write between the configuration ID of destination and exist under the condition of coupling, the context data of following each mixer configuration is written to the mixer configuration of writing the destination from the mixer configuration in the source of reading.In addition, exclusive identification code (exclusive ID) is attached to each assembly of mixer configuration.Even the mixer configuration with identical configuration ID they mixer configuration structurally mutually not simultaneously, still can between them, transmit context data based on this exclusive ID.Each mixer configuration can be used as data file and is stored among the RAM or can be developed at RAM.
In order to realize above-mentioned second purpose, memory unit is arranged for storing the context data that comprises a plurality of assembly sights, these a plurality of assembly sights are used for using in the operation of a plurality of assemblies of mixer configuration, and this context data is to be used for the parameter data set that the audio signal processing unit in mixer configuration uses.If in the component identification information (assembly ID) of the assembly sight that is designated as copy source be designated as between the assembly ID of the assembly sight that duplicates the destination and find coupling, then from the assembly sight of copy source to the assembly sight that duplicates the destination, carry out replicate run.The assembly that same components ID identified has data compatibility between their assembly sight.At the assembly sight of copy source with duplicate between the assembly sight of destination, only be replicated for the assembly sight of copy source and the shared common element of assembly sight that duplicates the destination.
In major programme of the present utility model, a kind of editing apparatus of scene data is designed to can executive routine use with the digital mixer of the processor that constitutes audio signal processing unit with having, this device is provided for editor's context data, and this context data is to be used for the parameter data set that uses in the operation of this audio signal processing unit.Editing apparatus of scene data of the present utility model comprises: first storage component, it stores first context data, and this first context data is the parameter data set that uses in the operation of the audio signal processing unit with first mixer configuration specified by the first configuration identifier information and first version information; Editor's parts, it edits the content of first context data of storing in this first storage component; Second storage component, it stores second context data, and this second context data is the parameter data set that uses in the operation of the audio signal processing unit with second mixer configuration specified by the second configuration identifier information and second version information; And reproduction component, even this first version information is different with this second version information, as long as between this first configuration identifier information and this second configuration identifier information, find coupling, by read this second context data from second storage component, and at least a portion of this second context data that reads is written in this first storage component, just can carry out this second context data to the duplicating of this first context data, wherein this at least a portion is with corresponding for the shared part of this first mixer configuration and this second mixer configuration.
Preferably, form by the configuration component that each exclusive identification code identified by this first configuration identifier information and the first specified mixer configuration of this first version information, form by the configuration component that each exclusive identification code identified by this second configuration identifier information and the second specified mixer configuration of this second version information, this reproduction component is determined this first mixer configuration and the shared part of this second mixer configuration according to the exclusive identification code of distributing to the shared configuration component of this first mixer configuration and this second mixer configuration.
In another program of the present utility model, a kind of mixer configuration editing device is designed to can executive routine use with the digital mixer of the processor that constitutes audio signal processing unit with having, this audio signal processing unit has the given mixer configuration of being made up of configuration component, this device is designed to edit the mixer configuration data, the mixer configuration of this this audio signal processing unit of mixer configuration data definition.Mixer configuration editing device of the present utility model comprises: the mixer configuration data storage part, and it is stored by configuration identifier information and the specified mixer configuration data of version information; Editor's parts, it reads by this configuration identifier information and the specified mixer configuration data of this version information from this mixer configuration data storage part, edit the mixer configuration data that this reads then, and the mixer configuration data that will edit are write the mixer configuration data storage part of the version information with identical configuration identifier information and renewal; And transfer member, it handles this mixer configuration data as required, and the mixer configuration data of this manipulation are sent to this digital mixer.These editor's parts comprise: add subassembly, it is indicated according to the user and operates, to add new configuration component to this mixer configuration, and exclusive identification code distributed to this new configuration component, thereby this exclusive identification code is attached to the new configuration component of this interpolation, even this version information is updated owing to the editor of these mixer configuration data; The deletion subassembly, it is indicated according to the user and operates, and deletes from this mixer configuration will have configuration component now; And the connexon parts, it is indicated according to the user and operates, and is used for setting the connection between the contained configuration component of this mixer configuration.
Preferably, this interpolation subassembly is distributed to this new configuration component with new exclusive identification code, make that this new exclusive identification code is from by selecting in the code that never was used the specified mixer configuration data of this identical configuration identifier information, and this deletion subassembly is abolished the exclusive identification code of the existing configuration component of having distributed to this deletion, makes the exclusive identification code of this abolishment no longer be used to new configuration component in the specified mixer configuration data of the configuration identifier information identical by this.In addition, these editor's parts also comprise: change subassembly, it is indicated according to the user and operates, be used at least one of the described configuration component that this mixer configuration is contained, but change into described one the different configuration component of the identical yardstick of type with described configuration component, keep having distributed to described one the exclusive identification code of described configuration component simultaneously.
In another scheme of the present utility model, a kind of editing apparatus of scene data is designed to have and can use in the digital mixer of executive routine with the processor of formation audio signal processing unit, this audio signal processing unit has by configuration identifier information and the specified mixer configuration of version information, this device is provided for editor's context data, and this context data is to be used for the parameter set that uses in the operation of this audio signal processing unit.Editing apparatus of scene data of the present utility model comprises: the mixer configuration data storage part, its storage comprises a plurality of mixer configuration data of the first mixer configuration data and the second mixer configuration data, this first mixer configuration data definition is by the first configuration identifier information and the first specified mixer configuration of first version information, and this second mixer configuration data definition is by the second configuration identifier information and the second specified mixer configuration of second version information; The first context data memory unit, it stores first context data, this first context data is the parameter set by the first specified mixer configuration of this first configuration identifier information and this first version information, is used for using in the operation of the audio signal processing unit of this first mixer configuration; First access unit, it is based on this first mixer configuration, specifies the arrangement of data element of each parameter of this first context data, and is operated with this first context data memory unit of access, is used for the read-write of this first context data; Parameter editor's parts, it reads first context data of storing in this first context data memory unit by utilizing this first access unit, is used to edit the content of this first context data; The second context data memory unit, it stores second context data, and this second context data is to be used for the parameter set that uses by this second configuration identifier information and the second specified mixer configuration of this second version information; Second access unit, it is based on this second mixer configuration, specifies the arrangement of data element of each parameter of this second context data, and is operated with this second context data memory unit of access, is used for the read-write of this second context data; And reproduction component, if between this first configuration identifier information and this second configuration identifier information, find coupling, by utilizing this first access unit and this second access unit, carry out duplicating of each parameter between second context data of storing in first context data of in this first context data memory unit, storing and this second context data memory unit, duplicate thereby carry out this for only a part of described data element of each parameter that overlaps between this first context data and this second context data.
In another major programme of the present utility model, a kind of parameter editing device is designed to can executive routine use in the digital mixer with the processor that constitutes the Audio Signal Processing of being made up of a plurality of assemblies having, this device is provided for the editing component sight, and this assembly sight is to be used for the parameter set that uses in the operation of each assembly of this audio signal processing unit.Parameter editing device of the present utility model comprises: first storage component, it stores the first assembly sight, this first assembly sight is to be used for the parameter set that uses in the operation of first assembly that is identified by the first component identification information and first attribute information, and this first assembly sight has first data ordering according to first attribute information of this first assembly; Editor's parts, it edits the content of the first assembly sight of storing in this first storage component; Second storage component, it stores the second assembly sight, this second assembly sight is to be used for the parameter set that uses in the operation of second assembly that is identified by the second component identification information and second attribute information, and this second assembly sight has second data ordering according to second attribute information of this second assembly; And reproduction component, if finding coupling corresponding to the second component identification information of this second assembly sight with between corresponding to the first component identification information of this first assembly sight, this reproduction component reads this second assembly sight from this second storage component, and at least a portion of the data ordering of this second assembly sight that reads is written in this first storage component, this at least a portion is shared with the data ordering of this first assembly sight.
According to the utility model, the coupling between the configuration ID between the different mixer configuration is represented the compatibility between the context data, makes that thus transmission (call, store and duplicate) context data is practical.As a result, before editor, utilize the sight that mixer configuration sets up also can be with using by editing the new mixer configuration that this mixer configuration obtains.On the contrary, utilize the sight of this editor's mixer configuration foundation to use with the mixer configuration of not editing.
In addition, according to the utility model, if find coupling between the configuration component ID at two configuration components in a mixer configuration or two mixer configuration, then being illustrated between the assembly sight corresponding to these configuration components has compatibility, thereby these assembly sights can be transmitted (call, store and duplicate).Therefore, when mixer configuration is edited, can be used to the corresponding configuration component of new mixer configuration with this editor with the corresponding assembly sight of a configuration component of mixer configuration before editor.In this case, even the yardstick of this configuration component changes after this editor, this assembly sight is still available.On the contrary, the assembly sight set up of new mixer configuration also can be used by the mixer configuration before the editor.
Description of drawings
Fig. 1 shows the block scheme as a digital mixer instrument that embodiment put into practice of the present utility model.
Fig. 2 (a) and 2 (b) are the figure that configuration screen and parameter setting screen example are described respectively.
Fig. 3 (a), 3 (b) and 3 (c) are the synoptic diagram of configuration data (CF data) on the explanation personal computer.
Fig. 4 is the concrete figure of explanation context data.
Fig. 5 (a), 5 (b) and 5 (c) are the figure of the CF data (its part) on the specification tool.
Fig. 6 be explanation when editor configuration data and sequential data structure configuration identifier information and the figure of version information allocation example.
Fig. 7 (a), 7 (b) and 7 (c) are that explanation element sight is write the figure that handles example.
Fig. 8 (a) and 8 (b) represent that respectively sight calls the process flow diagram of processing and sight stores processor.
Fig. 9 (a) and 9 (b) are respectively the process flow diagrams that module data replication processes and element sight are write processing.
Embodiment
With reference to its accompanying drawing, embodiment of the present utility model is described below.
With reference to Fig. 1, show the synoptic diagram of the exemplary configuration of an explanation as a digital mixer instrument that embodiment put into practice of the present utility model.Instrument 100 has: CPU (central processing unit) (CPU) 101, flash memory 102, RAM (random access memory) 103, PC input/output interface (I/O) 104, MIDI I/O105, another I/O106, display device 107, controller 108, waveform I/O109, signal Processing chunk (DSP group) 110, cascade I/O111 and system bus 120.
Whole operations of CPU (central processing unit) (CPU) 101 these mixers of control.Flash memory 102 is nonvolatile memories, the used various programs and the data of DSP of its storage CPU101 and signal Processing chunk 110.RAM103 is a volatile memory, and it loads zone and perform region for CPU101 provides the program of carrying out.PC I/O104 is used for mixer is connected to the external personal computer interface of (being called PC subsequently) (for example LAN, USB or serial i/O).MIDI I/O105 is provided for connecting the interface of various MIDI devices.Another I/O106 is provided for connecting the interface of another device.Display device 107 is the display device that are arranged on the exterior panel of this mixer, is used to show various information.Controller 108 comprises the various controllers that are arranged on the exterior panel, is used for the user and operates.Waveform I/O109 (being provided for the interface with the external device (ED) transmit audio signals) for example realizes: A/D (analog to digital) translation function is used for converting the simulated audio signal of input to digital audio and video signals, and it is delivered to signal Processing chunk 110; The digital signal input function is used for input digital audio signal and it is delivered to signal Processing chunk 110; And D/A (digital-to-analog) translation function, be used for converting digital audio and video signals to simulated audio signal from 110 outputs of signal Processing chunk.Signal Processing chunk 110 is made up of several DSP (digital signal processor).Each DSP carries out as the indicated various microprograms of CPU101, mixing via the waveform signal of waveform I/O109 input, gives effect to them, and the volume level of controlling them, the waveform signal after handling via waveform I/O109 output.Cascade I/O111 is provided for being connected to cascade system the interface of other digital mixers.This cascade connects the quantity and the DSP performance that can increase the I/O passage.
Instrument 100 permission users are customized to each mixer configuration in signal Processing chunk 110 and realize.Mixer configuration can be established and edit on the screen of PC130 by utilizing predetermined mixer control program 131.Just, mixer control program 131 is a kind of application software instructions that can be carried out by PC130, be used to edit mixer configuration.In addition, mixer control program 131 can be used to edit context data, and this context data is to be used for the parameter set that uses in the operation of mixer.The mixer configuration of setting up is called as configuration (entity on the PC is the CD data).In response to the user command through the screen input, mixer control program 131 produces each configuration as configuration data (CF) 132.CF data 132 can be used as file and store into the given memory storage write from RAM103.The internal memory of PC130 or the CD data in the memory storage can be sent to instrument 100 (editor's (will describe subsequently) afterwards).The CF data storage that instrument 100 can receive from PC130 is to flash memory 102.Predetermined operation can be read the CF data in the general-purpose storage (current memory) the RAM103 (will describe subsequently) from flash memory 102, perhaps directly will develop into the general-purpose storage from the CF data that PC130 receives, to come operation tool 100, realize mixer thus with the mixer configuration that defines in the CD data based on the CD data in the general-purpose storage.
Should be noted that and want the user who sets up and edit the CD data by PC130 to be not limited to the terminal user; Just, the commercial user also can create and edit the CD data.For example, if mixer is installed in certain place, then its dealer goes to this place, PC130 is connected to mixer, set up and editor CF data, these CF data have and are implemented as the mixer configuration that is applicable to this place, and with final CF data storage in flash memory 102.In this case, mixer can right and wrong programmable (just, not allowing the terminal user to set up and edit his mixer configuration, the mixer configuration of only calling and using dealer to implement).The user because the terminal user can come to read the CF data from flash memory 102 by the controller of operating on this panel 108, and operates mixer, so need not PC130 is connected to mixer in operation with the mixer configuration that defines in the CF data.Clearly, for the terminal user PC130 being connected to mixer is feasible with controlling mixer by the PC130 that is connected.
Fig. 2 (a) shows exemplary screen (being called configuration screen), shows this screen when setting up on PC130 by mixer control program 131 and editing CF data 132.Label 201 expression input modules, label 202 and 203 expressions, 3 tunnel automatic wire jumpers (cross-over) (just being used for being divided into high and low input signal and functions these three frequency channels) assembly, label 204 expression 31-frequency band figure equalizer element, label 25 expression 1-passage (ch) switch modules, label 206 expression output precisions." assembly " expression constitutes the component block of " configuration "; For example, such as mixer, compressor reducer, effect device, automatically audio process such as jumper wire device, can be prepared as presetting assembly such as parts such as attenuator, switch, panel (pan) and instrument.The user can come to select any assembly of wanting from a plurality of assemblies by carrying out predetermined operation, and arranges selected assembly on screen.In addition, the user can be by carrying out predetermined operation, arranges between the terminal of assembly and connect (for example 211 and 212).The arrangement that connects is equivalent to the definition of the I/O relation between the signal that transmits between the assembly.The CF data of finishing thus 132 can be stored in the hard disk drive.CF data 132 are being sent to instrument 100 via PC I/O104 from PC130 afterwards by editor (becoming the information that can be explained by instrument 100).Foundation needs, and CF data 132 can be read by instrument 100 by dismountable recording medium (such as storage card).
Mixer control program 131 has two operator schemes: edit pattern and execution pattern.Can between two patterns, switch by carrying out predetermined processing.Under edit pattern, set up and editor CF data.Under execution pattern, instrument 100 is controlled in real time by the mixer control program 131 of PC130.For example, if find to have the assembly of attenuator in the mixer configuration that on configuration screen, shows, then, this operation can be reflected on the instrument 100 in real time by utilizing mouse operation to this attenuator under execution pattern.Under executive mode, the configuration and the connection between the assembly of each assembly can't be changed.Execution pattern is just imported in the only configuration in the general-purpose storage on being called to PC130 one side and being called to when having coupling between the configuration in the general-purpose storage on instrument 100 1 sides.
Fig. 2 (b) shows the exemplary of parameters setting screen that is used for assembly.On the configuration screen shown in Fig. 2 (a), double-click the assembly of wanting, can open the parameter setting screen that is used for selected assembly.On the parameter setting screen that shows, the user can be this module sets parameter (comprising numerical value and ON/OFF).Fig. 2 (b) shows parameter setting screen assembly HPF (Hi-pass filter) example.Different assemblies needs to be set the different parameter item that is used for these assemblies, thereby is the different different parameter setting screens of assembly preparation.When changing parameter value on specific parameter setting screen, the variation of being finished will be reflected on the instrument 100 under execution pattern in real time; Under edit pattern, parameter changes will cause off-line editing (only the data among the PC130 will be changed, and not influence instrument 100).The current setting value of each parameter item is called as currency.Can imagine selectedly and when being arranged on the configuration screen when New Parent, default value is set to the currency of selected assembly.
Fig. 3 (a) shows the used exemplary preset group event data of mixer control program 131 of PC130.This module data is stored in the mixer control program 131 accessible given memory units in advance.Module data is made up of the PC that is used for every class component (default assembly) data.In this embodiment, can imagine Npc component type arranged.Each PC data is handled routine, PR processing routine, PP processing routine, demonstration and editing and processing routine by PC title, PC configuration information, PE configuration information, PP configuration information, PC and is formed.The PC title is made up of assembly ID (C_ID) and component version (C_Ver).C_ID and C_Ver sign PC data.
The PC configuration information represents that this assembly which element (comprising the information about order of elements) is made of, and also comprises video data, such as the parameter setting screen of this assembly." element " is equivalent to the part (for example, constituting the element of parameter setting screen) of formation " assembly ".The PE configuration information represents to be used for the parameter item configuration information (for example, the parameter of representing this element is arranged in which data layout among single value, one-dimensional sequence and the two-dimensional sequence) of each element shown in the above-mentioned PC configuration information.The PC configuration information provides the information (for example, this parameter value be which parameter format round values and floating-point decimal among) relevant with the configuration of each parameter item shown in the above-mentioned PE configuration information.It is the program that is used to carry out the various processing operations that are associated with the PE configuration information that PC handles routine, and it is the program that is used to carry out the various processing operations that are associated with the PP configuration information that PP handles routine.When mixer control program 131 was handled the CF data, the PC that is used for each assembly handled routine, PE handles routine and PP processing routine is used.Demonstration and editing and processing routine are the package that is used to set up and edit the CF data.
Fig. 3 (b) shows the exemplary configuration of the CF data that the mixer control program 131 among the PC130 sets up and store.CF data 1 to Ncf are all specified a mixer configuration.Each CF data is stored in the given memory storage (for example, the hard disk unit among the PC) as a file.In this example, the CF data are arranged as CF file 1, CF file 2, or the like; Yet, each CF file be can the file system on PC130 in by independently duplicated or mobile unit.Term " CF file " expression for example is stored in the CF data in the hard disk drive.Term " CF data " expression is used to define the data of a mixer configuration, and this mixer configuration is made up of the data of content shown in having, and has nothing to do with file layout.
Shown in Fig. 3 (b), CF data are made up of CF title, the cad data that is used for PC and Ns bar context data.The CF title is made up of configuration ID (CF_ID), configuration version (CF_Ver) and system version (SYS_Ver).Be used for the type and the method that be connected these assemblies of the cad data of PC, comprise the video data that is used for showing with reference to the described configuration screen of Fig. 2 (a) in the mixer configuration definitions component of these CF data.The cad data that is used for PC is made up of with the data that are connected of these assemblies that are used to interconnect the C that is used to identify the assembly that will be used (assembly) data.In the figure, four C data (A to D) are arranged, represent that thus the mixer configuration of these CD data is made up of four assemblies.The C data are made up of assembly ID (C_ID), component version (C_Ver), exclusive ID (U_ID) and other data (for example attribute).
To describe below context data (shown in sight 1, sight 2 ... sight Ns is context data)." sight " expression constitutes the parameter set (their numerical value is set) of all component of a configuration on the described parameter setting screen of reference Fig. 2 (b).Based on by the C_ID of each C data of the cad data that is used for PC and the specified PC data (Fig. 3 (a)) of attribute of C_Ver and C data, determine the data structure of each sight.Context data is the data that are used to define a sight, just the data set of used particular parameter value when each assembly of this configuration is operated.To go up the context data of being edited at each screen (such as the parameter setting screen) in the general-purpose storage on PC130 one side and be called as the situation of presence.Similarly, on instrument 100 1 sides, in (in the instrument 100) general-purpose storage, be called as the situation of presence by the currently used context data of the processing in the instrument 100.Utilize identical mixer configuration, need change parameter in this mixer configuration according to sight sometimes, thereby the context data that is used for a plurality of sights can be contained in this CF data.Each sight identifies by sight numbering n, is called as sight n; Sight 1, sight 2 ... the n=1 of sight Ns, 2 ... Ns represents the sight numbering.When indicating the storage of sight n, the situation of presence is stored in the context data memory block that is used for specified sight n; When specifying when sight n calls, the context data that reads from the sight memory block of sight n is called (or writing) to the situation of presence.
Context data is formed by assembly sight (the being called the C sight subsequently) sequence of each component parameter value of expression.This sequence is corresponding to the C data sequence of the cad data that is used for PC.In the figure, the component parameter that C data A is identified is C sight 3A, and the component parameter that C data B is identified is C sight 3B, or the like.The situation of presence of storing in the general-purpose storage and the context data of each sight have the defined above-mentioned data structure of the cad data that is used for PC.
Fig. 4 shows the concrete configuration of context data shown in Figure 3.Assembly sight shown in Figure 4 is corresponding to shown in Fig. 3 (b) those.A C sight is made up of argument sequence (element sight), and these argument sequences will be set to each element that constitutes an assembly.Element sight sequence is corresponding to the element sequence shown in the PC configuration information (Fig. 3 (a)) of this assembly.For example, element sight E3B1 shown in Figure 4 represents to constitute the first element parameter of C sight 3B assembly.Because the assembly of C sight 3B is made up of four elements in this example, so four element sights are arranged.Each element sight adopts one of three kinds of data layouts: single value, one-dimensional sequence and two-dimensional sequence.For example, element sight E3B1 and E3B4 are the element sight that the single parameter value constitutes.E3B2 is made of the one-dimensional sequence with 8 elements.E3B3 is the element sight with two-dimensional sequence.
An element sight is made up of several parameter values (or parameter sight) corresponding to its data layout.Similar assembly always has identical element arrangements (comprising this sequence), thereby the order of the element sequence in the corresponding C sight is identical.Yet, utilize similar assembly, the one-dimensional sequence of element sight or the number of elements in the two-dimensional sequence change according to setup parameter, change the data length of element sight thus sometimes.At the element sight is under one-dimensional sequence or the two-dimensional sequence situation, and the quantity of element is stored in the attribute (Fig. 3 (b)) of corresponding C data.
Refer again to Fig. 3, will continue to describe the data structure among the PC130 below.
Fig. 3 (c) shows the configuration among the RAM of the CF data that the mixer control program 131 of PC130 will handle.The general-purpose storage of arranging among the RAM of PC130 has: the zone that is used to store whole CF data (just CF title, the cad data that is used for PC and a plurality of context data); Be used to store the zone of the situation of presence (it is the current context data that just is being set); And the instrument cad data forms impact damper.Based on the cad data that is used for PC in the general-purpose storage, show the configuration screen shown in Fig. 2 (a).The edited result of carrying out through configuration screen is reflected to the cad data that is used for PC in general-purpose storage.Each situation of presence is represented the parameter currency of each assembly of shown configuration.Be reflected on the situation of presence through parameter setting screen performed edited result on the parameter of this assembly.The configuration of the situation of presence is with described identical with reference to Fig. 4.When the CF data were edited, the instrument cad data formed impact damper and produces the instrument cad data from the cad data that is used for PC.
As mentioned above, the user is by carrying out the mixer control program 131 of PC130, on screen shown in Figure 2, carry out operations necessary, utilize module data shown in Fig. 3 (a) simultaneously, can set up and editor Fig. 3 (c) shown in CF data in the general-purpose storage, and the CF data storage that will set up and edit is in configuration shown in Fig. 3 (b).As mentioned above, the CF file of storing among the PC130 is edited, and editor's file is sent to instrument 100, to be stored in the flash memory 102.On instrument 100, the user by screen shown on observing display device 107 in operation control 108, can specified flash 102 in the CF file of storage, and with in the CF data load of the appointment general-purpose storage in the RAM103.Instrument 100 is operated as mixer, and this mixer has the defined mixer configuration of CF data of storing in the general-purpose storage.
Fig. 5 (a) shows the part of CF data, and it is stored in the flash memory 102 of instrument 100.The CF data that will be stored in the flash memory 102 are almost similar with the CF data among the PC shown in Figure 4 to Fig. 3 (b) in configuration, thereby in Fig. 5 (a) different parts only are shown.Just, on instrument 100 1 sides, the cad data that is used for PC shown in Fig. 3 (b) partly is replaced by the instrument cad data shown in Fig. 5 (a).The instrument cad data is identical with the cad data that is used for PC, because instrument cad data representative is as the mixer configuration shown on the configuration screen.Yet in tool interior, some data is unnecessary, the display position on screen shown in Fig. 2 (a) such as assembly and annexation (connections), thus the instrument cad data and does not have video data with binary representation, so that reduce data volume.The instrument cad data forms in the impact damper at the instrument cad data shown in Fig. 3 (c) by editor and produces.On PC130 one side, the CF file is stored in the given memory storage with form shown in Fig. 3 (b); After editor, the CF file can also be stored in the given memory storage with form shown in Fig. 5 (a).CF file shown in Fig. 5 (a) under the form is sent to instrument 100, to be stored in the flash memory 102.Should be noted that predetermined file system (its need not with PC in the file system compatibility) be built in the flash memory 102, and the CF data are stored with a plurality of CF document forms.
Fig. 5 (b) shows the configuration of CF data among the RAM103 of instrument 100.General-purpose storage among the RAM103 has: the zone that is used to store the CF title and the instrument cad data of CF data; Be used to store the zone of the situation of presence (it is the context data of current setting); And microprogram forms impact damper.When the instrument cad data was read in the general-purpose storage, the microprogram that is used for realizing the mixer configuration of cad data was automatically spread to microprogram and is formed impact damper, and the microprogram of expansion is sent to signal Processing chunk 110.This makes the DSP group of signal Processing chunk 110 realize the operation of the mixer configuration of cad data in the general-purpose storage.Because reading from flash memory is to read the execution of getting off of higher speed than the memory storage (for example hard disk drive) from PC, so if a plurality of context data is not read in the general-purpose storage, can't postpone the speed that sight calls.Simultaneously, always do not need the instrument cad data is read in the general-purpose storage yet; Just, the data in the flash memory can directly be used.
The situation of presence is the parameter currency of each assembly of the mixer configuration of the instrument cad data expanded in the general-purpose storage.Read in the general-purpose storage in the situation of presence, when perhaps the situation of presence had been changed, sight was sent to signal Processing chunk 110 automatically before deserving.Signal Processing chunk 110 expands to the situation of presence of receiving the coefficient memory of DSP group.The DSP of signal Processing chunk 110 group is carried out the microprogram that is transmitted by the coefficient in the usage factor storer, thus under the mixer configuration of signal Processing chunk 110 cad data in general-purpose storage and utilize the parameter value of the situation of presence to operate.The configuration of the situation of presence is with aforesaid identical with reference to Fig. 4 in the instrument 100.
Fig. 5 (c) shows the part configuration of the preset group event data that is stored in advance in the flash memory 102.This module data the configuration on PC shown in Fig. 3 (a) in module data much at one, thereby Fig. 5 (c) only illustrates different parts.Just, on a side of instrument 100, demonstration shown in Fig. 3 (a) and editing and processing routine partly are replaced by the PC microprogram shown in Fig. 5 (c).Utilize instrument 100, can't displayed map 2 (a) and 2 (b) shown in have the configuration screen of a plurality of controllers and the assembly in the parameter setting screen, thereby be used to show and demonstration and the edit routine of editing them is unwanted.Alternatively, instrument 100 must form microprogram (microprogram is formed into microprogram to be formed in the impact damper) according to the mixer configuration of instrument cad data, and the microprogram that forms is sent to the DSP group, thereby need shown in Fig. 5 (c) PC program corresponding to each assembly.Although not shown, PC handles routine, PE handles routine and PP handles the program that routine is every configuration information of processing in this instrument.The input/output terminal quantity that should be noted that each assembly depends on parameter setting, and all changes that can imagine input/output terminal quantity all are stored in the microprogram with module data.
Be characterised in that according to digital mixer of the present utility model system sight is available mutually between different mixer configuration.Specifically, context data can transmit between different CF data under predetermined condition.As Fig. 3 and shown in Figure 5, context data is present in four positions, just: (a) a plurality of context data in a plurality of CD files of storing in the memory storage of a plurality of PC130; (b) situation of presence in the general-purpose storage of PC130 and a plurality of context data; (c) a plurality of context data in a plurality of CF files of storage in the flash memory 102 of instrument 100; And (d) situation of presence in the general-purpose storage of instrument 100, thereby context data transmits between any two (comprising same) in (a) to (d) in principle.It should be noted that, for the CF file of storing in the flash memory that transmits the CF file stored in the memory storage of PC130 and instrument 100 according to its situation is the needs times, thereby before beginning this transmission, the CF file that will transmit is read duplicating in the storer among the RAM of PC130 or instrument 100 as the CF data, these data are transmitted, one finishes this transmission, and these data are read back to memory storage or flash memory.In the present embodiment, this operation is called as the data transmission of CF file.In addition, if two groups of PC shown in Figure 1 and instrument are arranged, then occur such situation sometimes, the context data of CF data is moved to another PC or instrument under the control of one of PC or instrument.For carrying out any situation that this context data transmits, the above-mentioned feature of present embodiment all is applicable.
In the mixer of relevant prior art, will work as in the CF file of front opening contained context data in practice and call in the general-purpose storage, the situation of presence of storing in the general-purpose storage is stored in the CF of front opening file.In the present embodiment, context data can be called between CF file when the CF file of front opening and general-purpose storage and store.This mixer for relevant prior art is impossible.It is the reasons are as follows.Just, the mixer configuration that defines in different substantially these files of CF representation of file is different.Between different mixer configuration, there is not compatibility between the context data in the CF file.Substantially different mixer configuration represents that the arrangement of components in the CF file is different.If the arrangement of components difference also is different with the corresponding assembly sight configuration of assembly then, thereby does not generally have compatibility.
Context data in the present embodiment transmits as described above, and the context data position is performed in all cases.Usually, following situation is arranged:
(1) in PC130 or instrument 100, the context data of a sight is designated in CF file, and specified sight is read in the situation of presence.Can imagine calling of sight comprises: context data is read the situation of presence from the CF file except that working as the CF file of front opening;
(2) in PC130 or instrument 100, the context data of a sight is designated in CF file, and the situation of presence is written to the memory block of the context data of specified CF file.The storage that can imagine sight comprises: the situation of presence is write except that the CF file when the CF file of front opening;
(3) in PC130 or instrument 100, read (or a plurality of) sight of CF file in source or data and write CF file of destination or (or a plurality of) sight of data designated, be designated as the memory block of writing the destination so that context data is copied to from the memory block that is designated as the source of reading.In this case, CF file or the CF data that read the source can be identical with the CF file of writing the destination or CF data; And
(4) on PC130, carry out when two mixer control programs, and their configuration screen duplicates between the situation of presence (or context data) that context data is stored in two general-purpose storages when being shown (general-purpose storage is by independent allocation).
The position that the transmission of the module data in the present embodiment exists according to context data and carrying out in every way.Usually, module data is transmitted in following situation:
An assembly sight and an assembly sight in the situation of presence in the context data in (1) CF file are designated, the assignment component sight in the CF file is read in the assignment component sight of the situation of presence;
(2) an assembly sight of an assembly of the situation of presence an assembly sight and a CF file is designated, the assignment component sight of the situation of presence is write the assembly sight of specifying in the CF file; And
(3) read CF file in source or CF data a sight an assembly sight and write CF file of destination or an assembly sight of CF data designated, so that the assembly sight is copied to the memory block that is designated as the assembly sight of writing the destination from the memory block of the assembly sight that is designated as the source of reading.
This transmission of context data or module data also can be applicable to read the cad data of user's selection to change the general digital mixer of mixer configuration.In this case, this digital mixer has the corresponding CF_ID of mixer configuration exclusive with it and a CF_Ver.
The utility model is applied to above-mentioned general digital mixer, allows the following transmission of context data and assembly sight:
A context data in (1) CF file is designated, the context data of appointment is read in the situation of presence of above-mentioned general digital mixer;
(or many) context data of (or many) context data of (2) CF files and relevant digital mixer is designated, in the memory block with the appointment context data of the appointment context data of CF file being read above-mentioned general digital mixer; And
An assembly sight of a context data in (3) CF files and above-mentioned digital mixer an assembly sight of the exclusive situation of presence designated, so that the assignment component in the CF file is read in the assembly sight of the situation of presence.
Above-mentioned general digital mixer can be write external recording medium as the sight file with the context data of many storages.Each sight file is attached with the CF_ID and the CF_Ver of above-mentioned general digital mixer.If CF_ID and CF_Ver are attached to each sight file of storing in other digital mixers, then above-mentioned general digital mixer by carry out with above-mentioned (1) to shown in (3) from the identical processing of reading of CF file, the sight file that can store from these other digital mixers reads context data or assembly sight.
Should be noted that the data that term " calls ", " storage " and " duplicating " generally is illustrated in when not changing the data content that is transmitted transmit; Yet the transmission of the context data content of calling, storing and duplicating general expression change of context data in the present embodiment.Because context data is attached to the mixer configuration of CF data, so be different from the mixer configuration that context data is write the destination if context data reads the mixer configuration in source, then context data has different structures.
To be described in the details of calling, storing and duplicating the utility model feature of context data between the different bar CF data below.When calling, storing or duplicating context data, the information of writing the destination that needs to specify the information relevant and be used to specify context data with the context data in the source of reading.In the present embodiment, the CF data identify by Fig. 3 and CF_ID shown in Figure 5 and CF_Ver, the C data identify by C_ID and U_ID, sight is numbered by sight and is identified, thus, if between different mixer configuration, satisfy predetermined condition, then allow calling, store and duplicating of context data.
CF_ID (configuration ID) identifies CF data (no matter it is with document form or in general-purpose storage).The version that CF_Ver (configuration version) expression then increases progressively when the CF data are edited, its initial value for example is 1.00.When given CF file is edited, when Bian Ji CF file is stored (as another filename or the mode to rewrite) then, adhere to the CF title that has identical CF_ID and increase progressively CF_Ver in general-purpose storage.When the CF data on PC130 when newly-built, be attached to newly-built CF data with previous nonoverlapping new CF_ID of CF_ID that sets up under relevant model or alternate model and CF_Ver with initial value.Can arrange the numerical value of the next up-to-date CF_ID that will be attached of PC130 management like this.Should be noted that C_ID and CF_ID can comprise the ID of device such as PC, set up these data, prevent to adhere to the CC_ID and the CF_ID of accidental coupling thus by this device.Also can arrange like this, the CF_ID that will be attached to the CF_ID of CF data (will be set up and edit by dealer) and will be attached to CF data (will be set up and edit by the terminal user) is placed in the different pieces of information scope, and is overlapped to prevent these CD_ID.In the CF data area under being in dealer control or be in the CF data area under terminal user's control, adhere to CF_ID and CF_Ver with said method.Adhere to ID and version as mentioned above, allow when editor, to trace back to CF data with identical CF_ID and CF_Ver with initial value from different bar CF data with identical CF_ID.Therefore, the different bar CF data with identical CF_ID belong to identical " row (line) ".
C_ID (assembly ID) identifies every PC data (described with reference to Fig. 3 (a)).C_Ver (component version) represents the version of these PC data.Every C data of cad data identify each assembly by these C_ID and C_Ver in the CD data.
When editing the mixer configuration of CF data continuously, U_ID (exclusive ID) identifies the C data in this row.For example, when the CF data for the first time when newly-built, whenever the C data by new when adding (assembly interpolations), newly the numerical value of U_ID is attached to every C data.When the C data were deleted, it is empty that the numerical value of the U_ID of the C data of being deleted becomes, and this U_ID will not be used in relevant CF data line.If free U_ID is arranged, then the numerical value of new U_ID is attached to the C data of will newly be added.As a result, if the C data are added or delete in the editing process of CF data, and the CF data are stored in the given stage during editing, and any C data that then can determine to have in this row coupling U_ID are identical C data.Should be noted that " identical C data " and do not mean that " identical data ".That is to say that even there is coupling between the U_ID numerical value, the C data of coupling remain two different C data in two different CF data, thereby if the parameter editor is taken place, then these CF data may be different mutually in every CF data.Yet identical C data are guaranteed same type and are had the C data (except that the element of element sight sequence numbering) of the same structure of corresponding C sight.
In the utility model, the C_ID of the data compatibility between the expression assembly sight is attached thereon, and the data compatibility between the assembly sight is checked by this C_ID.Just, have identical C_ID and mean, between these assembly sights data compatibility is arranged.
In addition, in the present embodiment, the CF_ID of the data compatibility between the expression sight (comprising the situation of presence) is attached to each sight, and the data compatibility between the sight is checked by this CF_ID.Just, have identical CF_ID and mean between these sights data compatibility is arranged.
Fig. 6 shows the method for adhering to ID and version when editor's CF data and context data exemplary configuration.Label 601 is illustrated in cad data for the first time newly-built on the configuration screen.Because this is newly-built, thus new CF_ID=XX adhered to, and CF_Ver=1.00 (initial value).This cad data is made up of two assemblies, balanced device EQ611 and dynamic DYN612.Three values of being sealed in the bracket of being write in each assembly square frame are represented C_ID, C_Ver and U_ID with this order.EQ611 is U_ID=1, and DYN612 is U_ID=2.
Label 602 is illustrated on the basis of CF data 601 and will " wire jumper X_OVER623 automatically " (New Parent) adds, to connect and be stored as another title.When CF data 602 were stored, the CF_ID=XX identical with CF data 601 was attached, and its version is incremented to CF_Ver=1.01.The X_OVER623 that adds becomes U_ID=3.This is because till this point, U_ID is used to U_ID=2 in this row.Label 603 is illustrated on the basis of CF data 602 deletion EQ621 and is stored as another title.When CF data 603 were stored, the CF_IDXX identical with CF data 601 and 602 was attached, and version is incremented to CF_Ver=1.02.If add assembly from the state of CF data 603, then obtain U_ID=4.This is because till this point, U_ID is used to U_ID=3.It is empty that the U_ID=1 of deletion becomes, and U_ID=1 will no longer be used in the editor of the CF of this delegation data.
Just, mixer configuration editing device of the present utility model is designed to use with digital mixer, this digital mixer have can executive routine processor, have the audio signal processing unit of the given mixer configuration of forming by configuration component with formation.Device of the present utility model is designed to the mixer configuration data of the mixer configuration of edit definition audio signal processing unit.Mixer configuration editing device of the present utility model has the mixer configuration data storage part, the mixer configuration data that this component stores configuration identifier information CF_ID and version information CF_Ver are specified.Editor's parts read by configuration identifier information and the specified mixer configuration data 601 of version information from the mixer configuration data storage part, edit the mixer configuration data 601 that this reads then, and, this editor's mixer configuration data 602 are write the mixer configuration data storage part with the identical configuration identifier information and the version information of renewal.Transfer member is handled the mixer configuration data as required, and the mixer configuration data that will handle are sent to digital mixer.Editor's parts comprise the interpolation subassembly, this subassembly is indicated according to the user and is operated to add new configuration component 623 to mixer configuration 602, and exclusive identification code " 3 " distributed to new configuration component 623, thereby exclusive identification code " 3 " is attached to the new configuration component 623 of interpolation, even after version information is updated owing to the editor of mixer configuration data 602.Editor's parts also comprise the deletion subassembly, and this subassembly is indicated according to the user and operated, and are used for existing configuration component 621 from mixer configuration 602 deletions.Editor's parts also comprise the connexon parts, and this subassembly is indicated according to the user and operated, and are used for setting between the contained configuration component of mixer configuration connecting.Add subassembly new exclusive identification code " 3 " is distributed to new configuration component 623, thereby new exclusive identification code " 3 " is selected from code, this code never was used in the specified mixer configuration data of identical configuration identifier information.The deletion subassembly is abolished the exclusive identification code " 1 " of the existing configuration component 621 distributed to deletion, thereby the exclusive identification code of abolishing " 1 " no longer is used to new configuration component in the specified mixer configuration data of identical configuration identifier information.Editor's parts can comprise the change subassembly, this subassembly is indicated according to the user and is operated, change into and one the different configuration component of the identical yardstick of type described in the configuration component but be used at least one configuration component that mixer configuration is contained, keep having distributed to described in the configuration component one exclusive identification code simultaneously.
Label 641 expression is for CF data 601 and a sequence data (can imagine this sequence data is stored with proprietary sequence numbering) of setting up.According to two arrangements of components (alignment) of CF data 601, arrange corresponding to the C sight 651 of EQ611 with corresponding to the C sight 652 of DYN612.
The context data of label 642 expression CF data 602.When editor's context data 642, specify the context data 641 of CF data 601, directly the C sight 651 and 652 of context data 641 is called the C sight 661 and 662 of context data 642.Because it is carried out between CF data 601 and CF data 602, be calling between the different configurations so this calls.Under situation about calling between the difference configuration, mixer configuration generally is different, thus the corresponding difference of context data structure.Therefore, if for example C sight 651 has been read, do not know generally then this C sight will be written to which position of context data 642.Utilization is according to the compounder systems of present embodiment, identical CF_ID was attached to cad data before editor, be attached to the cad data with another name storage after editor, and, if the CF data are in identical delegation, then the correlativity between the assembly can provide by U_ID.As a result, after the CF_ID of the CF data of confirming the source of calling and the CF_ID that calls the CF data of destination mated mutually, the U_ID that can obtain EQ611 (that is the assembly of the C sight 651 that reads from context data 641) for example was 1; Can obtain from CF data 602, the assembly that has U_ID=1 is EQ621; And the memory location that can obtain corresponding to the C sight of EQ621 is 661, thus C sight 651 copied to the position 661 that is obtained.When context data 641 was called to context data 642, the C sight 663 of context data 642 was retained constant, because there is not the C sight corresponding to the source of calling.
When the context data 643 of editor's CF data 603, aforesaid suitable equally when directly calling in the context data 642 of specifying CF data 602.The C sight 662 of context data 642 and 663 is copied to the C sight 672 and 673 of context data 642 respectively.Call processing sequence and also attempt to duplicate the C sight 661 of context data 642, still,, in calling the CF data 603 of destination, do not have the assembly of U_ID=1, so C sight 661 will not be replicated because be 1 corresponding to the UID of the assembly of this C sight.Realized calling between the different configurations thus.
Fig. 7 shows the example that the element sight is write processing.As described in reference Fig. 6, utilize compounder systems according to present embodiment, if between the CF_ID even between different bar CF data coupling is being arranged, then the correlativity of C sight can provide by U_ID.Be attached with identical C_ID because have the assembly of identical U_ID, so mutual parameter compatibility is arranged substantially.In some cases, in the attribute information of C_Ver or expression assembly yardstick (such as number of terminals), two assemblies can be different mutually.Therefore, if the C sight 651 of CF data 601 shown in Figure 6 for example is copied to the C sight 661 of CF data 602, then these two C sights 651 and 661 are gone up coupling mutually in structure (just sequence and element sight Format Series Lines (single value, one-dimensional sequence or two-dimensional sequence)), but the part of element sight exists only in one of C sight, and perhaps these C sights are different mutually on the quantity of sequential element.Whether each C sight has element is controlled by the PC configuration information of each assembly, and the number of elements of each C sight is controlled by the attribute information corresponding to the C data of cad data.If number of elements is changed, then the parameter sight is write rule and must be determined in advance.
Fig. 7 (a) shows the example that the element sight is made up of single value.Label 701 expressions are with the data Ex that is written into, and the data Eo of destination is write in label 702 expressions.When the element sight was write processing and has been performed, the data of writing the destination were re-written to Ex.
The data layout that Fig. 7 (b) shows the element sight is the example of one-dimensional sequence.The data of the element sight that label 711 expression will be written into.These data have four elements.If writing the number of elements of the element sight 712 of destination is 6, then carry out and write processing, write first to fourth element (from data E[1] x to E[4] x) of the element sight of destination, shown in label 713.E[5] x and E[6] o (starting anew here) remains unchanged.On the other hand, be 2 if write the number of elements of the element sight 714 of destination, then 2 elements are rewritten, shown in label 715, E[3] x and E[4] x is left in the basket.
The data layout that Fig. 7 (c) shows the element sight is the example of two-dimensional sequence.The data 721 of the element sight that will be rewritten have 4 row elements and 3 column elements.The element sight 722 of writing the destination has 6 row elements and 2 column elements.When processing was write in execution, only lap was rewritten, and other parts are left in the basket, shown in label 723.
As mentioned above, if the element sight is a sequence, then be located in and have under the coupling element any element of target and rewritten writing the source and write purpose, only any element of target is left in the basket under the having of source place finding writing, and only any element of target is retained constant under the having that purpose is located in discovery writing.
Fig. 8 (a) shows from one of many CF file context data and calls the process flow diagram of processing to the sight of the situation of presence.This process flow diagram is identical corresponding to (1) in the above-mentioned three kinds of typical case that transmit context data with the processing of context data from the CF file copy to general-purpose storage substantially.Should be noted that from the processing of when the CF file of front opening, calling context data and also can carry out the routine that need not to add according to this treatment scheme.
In step 810, the CF file that has invoked context data is identified.In step 802, the sight numbering SN with invoked context data in the CF file of this sign is identified.These sign operations can be carried out by any way.For example, according to the indication of user to the context data of calling another CF file, the window that is used to identify this sight is shown, and in this window, the CF file in the specified folder is shown as option.The CF file of wanting is selected from these options, and the sight of the context data of wanting in this CF file numbering is designated.In this operation, the CF_ID of all CF files is read in the specified folder, only have with general-purpose storage in the CF file of this CF_ID of being complementary of the CF_ID of CF data be shown as option.As a result, invoked context data is always specified from the CF data with coupling CF_ID.
Then in step 803, general-purpose storage is protected, being rewritten by another process.In step 804, the cad data that has the CF file of invoked context data is read, with a U_ID (first numbering of ascending order) who prepares it.In step 805, determine: whether have assembly with the U_ID that is complementary with the U_ID for preparing; Among the CAD in general-purpose storage, the C_ID of the assembly of its U_ID coupling whether with the cad data of CF file in the C_ID of the pairing assembly of U_ID for preparing be complementary.If the assembly that does not have the U_ID of its U_ID and preparation to be complementary even if such assembly is perhaps arranged, but does not match between the C_ID of assembly, the C sight that then has the assembly of this U_ID need not to be called, and so far this process proceeds to step 810.If exist to have the assembly of this U_ID, and mate between the C_ID of assembly, the then processing of execution in step 806 to 809 is used to call the C sight of the assembly with this U_ID.
Step 806 to 809 processing is write processing corresponding to the described element sight of reference Fig. 7.At first, in step 806, first element of preparation C sight.In step 807, call element sight (Fig. 7).In step 808, preparation next element sight.If there is not element to be called, then this process turns back to step 807 from step 809, to continue this processing.When all U_ID in the CF in the source of the calling data were processed, then this process went to 812 from step 811, to remove the protection of general-purpose storage.In step 813, can't invoked assembly and element be shown, this processing so far finishes.
Fig. 8 (b) shows the process flow diagram of sight stores processor, and this processing is used for one of many context data that the situation of presence stored into the CF file.This is handled corresponding to (2) in the above-mentioned typical case that transmits context data.Substantially is identical with context data from the processing that general-purpose storage copies to the CF file.Should be noted that from the processing of when the CF file of front opening, calling context data and also can carry out the routine that need not to add according to this treatment scheme.
In step 811 and 822, the CF_ID on storage purpose ground and sight numbering SN are identified.This sign can be carried out under the mode identical with step 801 and 802.Have only with general-purpose storage in the CF file that is complementary of the CF_ID of CF data be shown as option, make the CF file that will be designated as storage purpose ground have the CF_ID identical with the situation of presence.The processing of step 823 to 833 and step 803 to 813 call that to handle be identical.In calling processing, specify the context data of CF file to be copied to general-purpose storage; Simultaneously, in stores processor, data copy to the context data of specifying the CF file from the situation of presence.In step 833, assembly and the element that can't store are shown.
Fig. 8 (a) and 8 (b) show the situation of presence and call processing and situation of presence stores processor, thereby the context data that is used for a sight is replicated.In identical process, the above-mentioned typical case (1) to (3) that is used for the data transmission can be carried out the processing that duplicate context data for two or more sights with batch processing mode between CF data or CF file.
In processing shown in Figure 8, CF data with coupling CF_ID are shown as option, from these option middle fingers pledge love Jing Shuojutiaoyongyuan or storage purpose ground, guarantee the coupling between the CF_ID of the CF_ID of CF data of context data transfer source and the CF data that context data transmits the destination thus; It also is feasible partly locating given CF data are appointed as option and are carried out the CF_ID match check in the beginning of each process.Do not match if find CF_ID, then be considered as not having compatibility and handle as mistake.
Fig. 9 (a) shows the process flow diagram of the C sight replication processes that is used for replication component sight between two CF files (or C sight).This flow process is corresponding to (3) in the above-mentioned typical case of transfer assembly sight.The processing of duplicating the C sight between CF file and general-purpose storage is identical substantially.Should be noted that in identical CF file in the processing of duplicating the C sight between the different assemblies and the processing of in identical CF file, duplicating the C sight between the different context data in same components and also can carry out, therefore need not to prepare another routine according to this flow process.In addition, the element sight of step 807 shown in Fig. 8 (a) calls to handle and also carries out under identical mode with the element stores processor of step 872 shown in Fig. 8 (b), therefore can handle by identical routine.
In step 901, catch expression and be appointed as CF_ID, CF_Ver, the sight numbering SN of the assembly sight of copy source and U_ID and expression are appointed as the assembly sight that duplicates the destination by the user CF_ID, CF_Ver, sight numbering SN and U_ID (if copy source or to duplicate the destination be the situation of presence, then SN is unwanted) by the user.An assembly sight of a context data of the CF file of set identification of CF_ID, CF_Ver, sight numbering SN and U_ID.These can be designated under any way.For example, show a window, in this window,, the assembly sight of copy source is identified, be used for the assembly sight and duplicate, and the assembly of CF file, sight numbering and copy source is designated according to user's indication; Show another window, in this window, the assembly sight that duplicates the destination is identified, CF file, sight numbering and to duplicate the assembly of destination designated.In step 902, the C_ID of assembly that is designated as the assembly sight of copy source compares with the C_ID that is designated as the assembly of the assembly sight that duplicates the destination.If find coupling, then duplicate this element sight in to 907 in step 904.The processing of step 904 to 907 and step 806 shown in Fig. 8 (a) to 809 processing and Fig. 8 (b) shown in the processing of step 826 to 829 be identical.Call shown in Fig. 8 (a) handle and Fig. 8 (b) shown in the stores processor, context data transmits between CF file and general-purpose storage.In replication processes shown in Fig. 9 (a), the assembly sight that U_ID identified of context data (the sight numbering NS with CF data that CF_ID and CF_Ver identified of copy source) is copied to the position of the assembly sight that U_ID identified of context data (the sight numbering SN with the CF data that CF_ID and CF_Ver identified of duplicating the destination).If in step 902, find not matching between two C_ID, then in step 903, show mistake, its expression copy source and the data of duplicating between the assembly sight of destination are incompatible, and based on this, processing finishes.Should be noted that the assembly that has only selected conduct to duplicate the destination among the assembly of CF file just is shown at the window that is used for identifying the assembly sight that duplicates the destination, this assembly has the C_ID identical with the C_ID that is designated as the assembly that duplicates the destination.In this case, be identical because two C_ID have been confirmed to be, so the processing of step 902 can be skipped.
Just, method of the present utility model is designed to edit the assembly sight of digital mixer, this digital mixer have can executive routine processor, to constitute the audio signal processing unit of forming by a plurality of assemblies.The assembly sight is to be used for the parameter set that uses in the operation of each assembly of audio signal processing unit.Method of the present utility model realizes as follows: the storage first assembly sight in first memory, this first assembly sight is the parameter set that uses in the operation of first assembly, this first assembly identifies by the first component identification information and first attribute information, and this first assembly sight has first data ordering according to first attribute information of first assembly; The content of the first assembly sight of storing in editor's first memory; The storage second assembly sight in second memory, this second assembly sight is the parameter set that uses in the operation of second assembly, this second assembly identifies by the second component identification information and second attribute information, and this second assembly sight has second data ordering according to second attribute information of second assembly; If in step 902, finding coupling then from second memory, to read the second assembly sight corresponding to the second component identification information of the second assembly sight with between corresponding to the first component identification information of the first assembly sight; And with in the data ordering of this second assembly sight that reads, write in the first memory with the shared at least one parts of the data ordering of the first assembly sight.
Fig. 9 (b) shows the flow process that the element sight is write processing, and this processing and utilizing access device or access routines are specified the data ordering of context data.This processing is with described processing is identical with reference to Fig. 7, and it is carried out in step 807,827 and 905.In step 921 (it provides access device or access routines), for the element sight that writes the source and write the destination is caught argument structure PS, sequence type ST, writes the size in source and write the size of destination.Argument structure PS and sequence type ST are contained in the source of writing or write in the PE configuration information of this assembly that element belonged to of destination, and the PC data of (referencing) relevant assembly are caught by reference.If sequence type is one dimension or two dimension, then write the quantity that the big or small XX and the XY in source, the big or small OX that writes the destination and OY represent sequence.These sizes are contained in the attribute information of C data of this assembly in the cad data.In step 922, determine sequence type ST.If find that sequence type is single parameter value (Fig. 7 (a)), then in step 923, duplicate this single parameter value.This is the parameter set that is used for having the indicated data structure of argument structure PS copies to the element sight of writing the destination from the element sight that writes the source processing.If row type ST is one dimension (Fig. 7 (b)), then in step 924, carries out one-dimensional sequence and duplicate.In this is handled, number of elements and the indicated number of elements that writes the destination of OX based on the indicated source that writes of XX, in the described mode of reference Fig. 7 (b), the parameter set that will have the indicated data structure of argument structure PS copies to the element sight of writing the destination from the element sight that writes the source.If sequence type ST is a two dimension (Fig. 7 (c)), then in step 925, carries out two-dimensional sequence and duplicate.In this is handled, row element quantity and the indicated row element quantity of writing the destination and the column element quantity of column element quantity, OX and OY based on the indicated source that writes of XX and XY, in the described mode of reference Fig. 7 (c), the parameter set that will have the indicated data structure of argument structure PS copies to the element sight of writing the destination from the element sight that writes the source.
Just, according to the utility model, editing apparatus of scene data is designed to be used in the digital mixer, this digital mixer have can executive routine processor, to constitute audio signal processing unit, this audio signal processing unit has configuration identifier information and the specified mixer configuration of version information.Device of the present utility model is provided for editor's context data, and this context data is to be used for the parameter set that uses in the operation of audio signal processing unit.Editing apparatus of scene data of the present utility model has: the mixer configuration data storage part, its storage comprises a plurality of mixer configuration data of the first mixer configuration data and the second mixer configuration data, the first mixer configuration data definition is by the first configuration identifier information and the first specified mixer configuration of first version information, and the second mixer configuration data definition is by second configuration expression information and the second specified mixer configuration of second version information; The first context data memory unit, it stores first context data, this first context data is the parameter set by the first specified mixer configuration of the first configuration identifier information and first version information, is used for using in the operation of the audio signal processing unit of first mixer configuration.In step of the present utility model, first access unit 921 is based on first mixer configuration, specifies the arrangement of data element of each parameter of first context data, and is operated with the access first context data memory unit, is used for the read-write of first context data.Parameter editor's parts read first context data of storing in the first context data memory unit by utilizing first access unit 921, are used to edit the content of first context data.The second context data storage component stores, second context data, this second context data are to be used for the parameter set that uses in the second configuration identifier information and the second specified mixer configuration of second version information.Second access unit 921 is based on second mixer configuration, specifies the arrangement of data element of each parameter of second context data, and is operated with the access second context data memory unit, is used for the read-write of second context data.If between the first configuration identifier information and the second configuration identifier information, find coupling, then reproduction component 923,924 or 925 is by utilizing first access unit and second access unit, carry out duplicating of each parameter between second context data of storing in first context data of in the first context data memory unit, storing and the second context data memory unit, thereby only realize that for the part of the data element of each parameter that between first context data and second context data, overlaps this duplicates.
The foregoing description is applicable to any able to programme or non-programmable mixer instrument.In addition, with identical configuration ID for example supply with input channel quantity, output channel quantity with trunk mixed quantitatively different mutually above digital mixer and below digital mixer, allow the sight between these two digital mixers to use mutually.In addition, make digital mixer dispose two or more assemblies and assembly ID is distributed to each these assembly, allow to use mutually at the assembly sight that has between these assemblies of same components ID.

Claims (13)

1. digital mixer device, have can executive routine to constitute the processor of audio signal processing unit, this program is corresponding to by the first configuration identifier information and the first specified mixer configuration of first version information, and realization has the operation of the audio signal processing unit of this first mixer configuration, and this digital mixer device comprises:
First storage component, it stores first context data, and this first context data is the data set that is used for having the parameter of being used by the operation of the audio signal processing unit of the first specified mixer configuration of this first configuration identifier information and this first version information;
Parameter editor's parts, it edits the content of first context data of storing in this first storage component;
Parameter provides parts, and it reads this first context data from this first storage component, and this first context data is provided to this audio signal processing unit;
Second storage component, it stores second context data, and this second context data is the data set that is used for having the parameter of being used by the operation of the audio signal processing unit of the second specified mixer configuration of the second configuration identifier information and second version information; It is characterized in that this digital mixer device also comprises:
Reproduction component, even this first version information is different with this second version information, as long as between this first configuration identifier information and this second configuration identifier information, find coupling, just by read this second context data from this second storage component, and at least a portion of second context data that read is written in this first storage component, carry out this second context data to the duplicating of this first context data, wherein this at least a portion is with corresponding for the shared part of this first mixer configuration and this second mixer configuration.
2. digital mixer device as claimed in claim 1, it is characterized in that, form by the configuration component that each exclusive identification code identified by this first configuration identifier information and the first specified mixer configuration of this first version information, and form by the configuration component that each exclusive identification code identified by this second configuration identifier information and the second specified mixer configuration of this second version information, wherein, this reproduction component is determined described for this first mixer configuration and the shared part of this second mixer configuration according to the exclusive identification code of distributing to the shared configuration component of this first mixer configuration and this second mixer configuration.
3. editing apparatus of scene data, be used for can executive routine using with the digital mixer of the processor that constitutes audio signal processing unit with having, this device is provided for editor's context data, this context data is to be used for the parameter data set that uses in the operation of this audio signal processing unit, and this editing apparatus of scene data comprises:
First storage component, it stores first context data, and this first context data is the parameter data set that uses in the operation of the audio signal processing unit with first mixer configuration specified by the first configuration identifier information and first version information;
Editor's parts, it edits the content of first context data of storing in this first storage component;
Second storage component, it stores second context data, and this second context data is the parameter data set that uses in the operation of the audio signal processing unit with second mixer configuration specified by the second configuration identifier information and second version information; It is characterized in that this editing apparatus of scene data also comprises:
Reproduction component, even this first version information is different with this second version information, as long as between this first configuration identifier information and this second configuration identifier information, find coupling, just by read this second context data from this second storage component, and at least a portion of second context data that read is written in this first storage component, carry out this second context data to the duplicating of this first context data, wherein this at least a portion with for this first mixer configuration and the shared corresponding parts of part of this second mixer configuration.
4. editing apparatus of scene data as claimed in claim 3, it is characterized in that, form by the configuration component that each exclusive identification code identified by this first configuration identifier information and the first specified mixer configuration of this first version information, and form by the configuration component that each exclusive identification code identified by this second configuration identifier information and the second specified mixer configuration of this second version information, wherein, this reproduction component is determined described for this first mixer configuration and the shared part of this second mixer configuration according to the exclusive identification code of distributing to the shared configuration component of this first mixer configuration and this second mixer configuration.
5. a digital mixer is characterized in that, has editing apparatus of scene data as claimed in claim 3.
6. a mixer configuration editing device is characterized in that, has editing apparatus of scene data as claimed in claim 3.
7. editing apparatus of scene data, be used for can executive routine using with the digital mixer of the processor that constitutes audio signal processing unit with having, this audio signal processing unit has the mixer configuration of forming by the specified one or more configuration components of exclusive identification code, and this editing apparatus of scene data comprises:
First storage component, it stores first context data, and this first context data is to be used for the parameter data set that uses by the operation of the audio signal processing unit of the first specified mixer configuration of the first configuration identifier information;
Editor's parts, it edits the content of first context data of storing in this first storage component;
Second storage component, it stores second context data, and this second context data is to be used for the parameter data set that uses by the operation of the audio signal processing unit of the second specified mixer configuration of the second configuration identifier information; It is characterized in that this editing apparatus of scene data also comprises:
Reproduction component, as long as between this first configuration identifier information and this second configuration identifier information, find coupling, just by read this second context data from second storage component, and write at least a portion of second context data that is read, carry out this second context data to the duplicating of this first context data, wherein this at least a portion with have identical exclusive identification code and be contained in this first mixer configuration and this second mixer configuration in shared configuration component corresponding.
8. digital mixer device has and can executive routine has processor by the audio signal processing unit of the specified mixer configuration of configuration identifier information with formation, and this digital mixer device comprises:
The mixer configuration data storage part, its storage comprises a plurality of mixer configuration data of the first mixer configuration data and the second mixer configuration data, this first mixer configuration data definition is by the first configuration identifier information and the first specified mixer configuration of first version information, and this second mixer configuration data definition is by the second configuration identifier information and the second specified mixer configuration of second version information;
Program provides parts, it is based on the first mixer configuration data that identified by this first configuration identifier information and this first version information, produce this program, and the program that produces is provided to this processor, to constitute the audio signal processing unit of this first mixer configuration;
The first context data memory unit, it stores first context data, this first context data is the parameter set by the first specified mixer configuration of this first configuration identifier information and this first version information, is used for using in the operation of the audio signal processing unit of this first mixer configuration;
First access unit, it is based on this first mixer configuration, specifies the arrangement of data element of each parameter of this first context data, and is operated with this first context data memory unit of access, is used for the read-write of this first context data;
Parameter editor's parts, it reads first context data of storing in this first context data memory unit by utilizing this first access unit, is used to edit the content of this first context data;
Parameter provides parts, and it reads this first context data by utilizing this first access unit from this first context data memory unit, is used for this first context data is provided to this audio signal processing unit;
The second context data memory unit, it stores second context data, and this second context data is to be used for the parameter set that uses in second mixer configuration that is identified by this second configuration identifier information and this second version information;
Second access unit, it is based on this second mixer configuration, specifies the arrangement of data element of each parameter of this second context data, and is operated with this second context data memory unit of access, is used for the read-write of this second context data; It is characterized in that this digital mixer device also comprises:
Reproduction component, if between this first configuration identifier information and this second configuration identifier information, find coupling, by utilizing this first access unit and this second access unit, carry out duplicating of each parameter between second context data of storing in first context data of in this first context data memory unit, storing and this second context data memory unit, only make that the part for the data element of each parameter that overlaps between this first context data and this second context data realizes that this duplicates.
9. editing apparatus of scene data, be used for can executive routine using having with the digital mixer of the processor that constitutes audio signal processing unit, this audio signal processing unit has by configuration identifier information and the specified mixer configuration of version information, this device is provided for editor's context data, this context data is to be used for the parameter set that uses in the operation of this audio signal processing unit, and this editing apparatus of scene data comprises:
The mixer configuration data storage part, its storage comprises a plurality of mixer configuration data of the first mixer configuration data and the second mixer configuration data, this first mixer configuration data definition is by the first configuration identifier information and the first specified mixer configuration of first version information, and this second mixer configuration data definition is by the second configuration identifier information and the second specified mixer configuration of second version information;
The first context data memory unit, it stores first context data, this first context data is the parameter set by the first specified mixer configuration of this first configuration identifier information and this first version information, is used for using in the operation of the audio signal processing unit of this first mixer configuration;
First access unit, it is based on this first mixer configuration, specifies the arrangement of data element of each parameter of this first context data, and is operated with this first context data memory unit of access, is used for the read-write of this first context data;
Parameter editor's parts, it reads first context data of storing in this first context data memory unit by utilizing this first access unit, is used to edit the content of this first context data;
The second context data memory unit, it stores second context data, and this second context data is to be used for the parameter set that uses in second mixer configuration that is identified by this second configuration identifier information and this second version information;
Second access unit, it is based on this second mixer configuration, specifies the arrangement of data element of each parameter of this second context data, and is operated with this second context data memory unit of access, is used for the read-write of this second context data; It is characterized in that this editing apparatus of scene data also comprises:
Reproduction component, if between this first configuration identifier information and this second configuration identifier information, find coupling, by utilizing this first access unit and this second access unit, carry out duplicating of each parameter between second context data of storing in first context data of in this first context data memory unit, storing and this second context data memory unit, only make that the part for the data element of each parameter that overlaps between this first context data and this second context data realizes that this duplicates.
10. digital mixer device, have can executive routine to constitute the processor of audio signal processing unit, this program is corresponding with the mixer configuration that a plurality of assemblies that identified by each component identification information are formed, and carried out to realize the operation of this mixer configuration by this processor, this digital mixer device comprises:
First storage component, it stores context data, this context data is to be used for the parameter data set that uses in the operation of the audio signal processing unit with mixer configuration of being made up of described a plurality of assemblies, and this context data comprises and the corresponding a plurality of assembly sights of described a plurality of assemblies;
Editor's parts, it edits the content of the context data of storing in this first storage component;
First specified parts, it duplicates the destination with being decided to be of described a plurality of assembly sights of storing in this first storage component;
Second storage component, it stores a plurality of assembly sights, and described a plurality of assembly sights are used for using in the operation of the corresponding assembly that is identified by this component identification information;
Second specified parts, it is appointed as copy source with one of described a plurality of assembly sights of storing in this second storage component; It is characterized in that, this digital mixer device also comprises: reproduction component, if corresponding to the component identification information of the assembly of this copy source with duplicate corresponding to this between component identification information of assembly of destination and find coupling, this reproduction component copies to this with this assembly sight from this copy source and duplicates the destination, wherein, this reproduction component is determined, the assembly that identical component identification information is identified has data compatibility containing between the corresponding assembly sight of a plurality of data elements, and only duplicates for the data element of this copy source and this and duplicate the part of the data element data shared element of destination.
11. parameter editing device, be used for can executive routine using having with the digital mixer of the processor that constitutes the audio signal processing unit of forming by a plurality of assemblies, this device is provided for the editing component sight, this assembly sight is to be used for the parameter set that uses in the operation of each assembly of this audio signal processing unit, and this parameter editing device comprises:
First storage component, it stores the first assembly sight, this first assembly sight is to be used for the parameter set that uses in the operation of first assembly that is identified by the first component identification information and first attribute information, this first assembly sight has first data ordering according to first attribute information of this first assembly;
Editor's parts, it edits the content of the first assembly sight of storing in this first storage component;
Second storage component, it stores the second assembly sight, this second assembly sight is to be used for the parameter set that uses in the operation of second assembly that is identified by the second component identification information and second attribute information, this second assembly sight has second data ordering according to second attribute information of this second assembly; It is characterized in that, this parameter editing device also comprises: reproduction component, if finding coupling corresponding to the second component identification information of this second assembly sight with between corresponding to the first component identification information of this first assembly sight, this reproduction component reads this second assembly sight from this second storage component, and at least a portion of the data ordering of the second assembly sight that read is written in this first storage component, this at least a portion is shared with the data ordering of this first assembly sight.
12. a digital mixer device is characterized in that, has parameter editing device as claimed in claim 11.
13. a mixer configuration editing device is characterized in that, has parameter editing device as claimed in claim 11.
CN 200520004126 2004-02-27 2005-02-24 Scene data and parameter editing and storage device, digital mixer, and configuration editor Expired - Fee Related CN2833784Y (en)

Applications Claiming Priority (3)

Application Number Priority Date Filing Date Title
JP2004053866 2004-02-27
JP2004053867 2004-02-27
JP2004053866A JP4164760B2 (en) 2004-02-27 2004-02-27 Digital mixer, scene data editing device, mixer configuration editing device, and scene data storage device

Publications (1)

Publication Number Publication Date
CN2833784Y true CN2833784Y (en) 2006-11-01

Family

ID=35025980

Family Applications (1)

Application Number Title Priority Date Filing Date
CN 200520004126 Expired - Fee Related CN2833784Y (en) 2004-02-27 2005-02-24 Scene data and parameter editing and storage device, digital mixer, and configuration editor

Country Status (2)

Country Link
JP (1) JP4164760B2 (en)
CN (1) CN2833784Y (en)

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN1661671B (en) * 2004-02-27 2010-05-05 雅马哈株式会社 Editing apparatus of scene data for digital mixer
CN104106268B (en) * 2012-01-17 2017-10-10 雅马哈株式会社 Analog mixer device

Families Citing this family (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2007306459A (en) * 2006-05-15 2007-11-22 Matsushita Electric Ind Co Ltd Mixer system
JP5338416B2 (en) 2009-03-23 2013-11-13 ヤマハ株式会社 Sound equipment
JP5515976B2 (en) * 2010-03-31 2014-06-11 ヤマハ株式会社 Digital audio mixer
CN112885319A (en) * 2021-03-15 2021-06-01 陈岳 Electronic musical instrument

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN1661671B (en) * 2004-02-27 2010-05-05 雅马哈株式会社 Editing apparatus of scene data for digital mixer
CN104106268B (en) * 2012-01-17 2017-10-10 雅马哈株式会社 Analog mixer device

Also Published As

Publication number Publication date
JP2005244764A (en) 2005-09-08
JP4164760B2 (en) 2008-10-15

Similar Documents

Publication Publication Date Title
CN2833784Y (en) Scene data and parameter editing and storage device, digital mixer, and configuration editor
CN2886745Y (en) Digital mixer and mixer configuration editing device
CN1112642C (en) Design part reusing method in configuration tool
US8296649B2 (en) Method, graphical interface and computer-readable medium for generating a preview of a reformatted preview segment
CN1661671A (en) Editing apparatus of scene data for digital mixer
US20070156272A1 (en) Integrated configuration, flow and execution system for semiconductor device experimental flows and production flows
CN1610907A (en) System and method for filtering and organizing items based on common elements
CN103605540B (en) Flash mirror fast writing method based on Android system
CN1662101A (en) Mixer apparatus and sound signal processing method
JP2009532805A (en) Virtual view schematic editor
KR101567455B1 (en) Defining an interactive user interface
CN1877524A (en) Program creation apparatus, program creation method and program
US8175731B2 (en) Apparatus for editing configuration data of digital mixer
CN100524316C (en) Method and program for file information write processing
CN1945478A (en) Simulation apparatus
CN106569829B (en) Method for realizing switching of working modes of touch screen, touch screen device and head-mounted equipment
US20060288294A1 (en) Method, graphical interface and computer-readable medium for forming a batch job
JP4164761B2 (en) Digital mixer, parameter editing device, and mixer configuration editing device
US7975219B2 (en) Method, graphical interface and computer-readable medium for reformatting data
JP2007257327A (en) Design support device, design support method and design support program
JP4161961B2 (en) Editing apparatus and program
JP4164820B2 (en) Digital mixer system, mixer configuration creation / editing device, and mixer control program
JP2005252642A (en) Scene data editing apparatus for digital mixer, mixer configuration editing apparatus, custom component editing apparatus, and scene data storage device
JP2005252643A (en) Parameter setting apparatus for digital mixer
CN114816503A (en) Interactive job submitting method, platform and medium for high-performance computing platform

Legal Events

Date Code Title Description
C14 Grant of patent or utility model
GR01 Patent grant
C17 Cessation of patent right
CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20061101

Termination date: 20120224