CN104754445B - Panorama multiple channel acousto is as method for controlling trajectory - Google Patents

Abstract

The present invention relates to Audiotechnica, specifically a kind of panorama multiple channel acousto is as method for controlling trajectory.The control method is configured by console to the output level value of each audio amplifier node of entity sound box system, acoustic image is moved in the total duration of setting in the way of setting or static, the control method includes：Generate acoustic image track data；With the total duration set by the acoustic image track data in, according to acoustic image track data, adjust the output level of each audio amplifier entity；In the total duration, input to the incoming level of each audio amplifier physical signal and the output level of corresponding audio amplifier entity is overlapped to obtain the level of each audio amplifier entity reality output.As method for controlling trajectory by acoustic image track data control is adjusted to the level of each audio amplifier entity reality output in panorama multiple channel acousto of the present invention, and the acoustic image track motion of setting or static effect can be generated in the total duration set by acoustic image track data.

Description

Panorama multiple channel acousto is as method for controlling trajectory

Technical field

The present invention relates to Audiotechnica, specifically a kind of panorama multiple channel acousto is as method for controlling trajectory.

Background technology

Acoustic image track refers to the movement of caused virtual sound image during audio amplifier system plays in performance or changes path.It is existing Video display, stage Professional sound box system for, audio amplifier position fix after, amplified by the left and right passage master of stage both sides Or acoustic image is substantially set in the middle position of stage by main amplify in the road of left, center, right three, although performance site is except the master on stage Beyond amplifying, large number of audio amplifier is also provided with each position, but whole field is performed, the acoustic image of sound box system is almost very It can change less, therefore it is a need flexibly to control video display, the acoustic image positions of stage Professional sound box system and its trail change Technical problems to be solved.

The content of the invention

Present invention solves the technical problem that being to provide a kind of can flexibly control video display, the acoustic image position of stage Professional sound box system Put and the panorama multiple channel acousto of trail change is as method for controlling trajectory.

In order to solve the above technical problems, the technical solution adopted by the present invention is：A kind of panorama multiple channel acousto is provided as track Control method, the control method are configured to the output level value of each audio amplifier node of entity sound box system by console, made Acoustic image moves in the way of setting or static in the total duration of setting, and the control method includes：

Generate acoustic image track data；The acoustic image track data referred within the period of setting length, in order that control The acoustic image that each virtual audio amplifier node output level is formed in virtual audio amplifier distribution map on platform is run along path set in advance Move or remain stationary as, the output level data that each audio amplifier node changes over time；

In the total duration corresponding to the acoustic image track data, according to acoustic image track data, each audio amplifier entity is adjusted Output level；

In the total duration, it will input to the output electricity of the incoming level of each audio amplifier physical signal and corresponding audio amplifier entity It is flat to be overlapped to obtain the level of each audio amplifier entity reality output；

The acoustic image track data includes becoming rail acoustic image track data, variable domain acoustic image track data and audio amplifier link data, Wherein：

The change rail acoustic image track data obtains by the following method：

Audio amplifier node is set：In audio amplifier distribution map, addition or deletion audio amplifier node；

Change audio amplifier nodal community：The attribute of audio amplifier node includes audio amplifier coordinate, audio amplifier type, corresponds to output channel, be first Beginningization level；

Divide delta-shaped region：According to the distribution of audio amplifier node, audio amplifier distribution map is divided into multiple delta-shaped regions, often Three summits of individual delta-shaped region are audio amplifier node；

Setting acoustic image TRAJECTORY CONTROL point and path of running：What setting acoustic image changed over time in audio amplifier distribution map runs Path, and several acoustic image TRAJECTORY CONTROL points run positioned at this on path；

Edit acoustic image TRAJECTORY CONTROL point attribute：The attribute of acoustic image TRAJECTORY CONTROL point includes acoustic image TRAJECTORY CONTROL point coordinates position At the time of putting, be corresponding, to the time needed for next acoustic image TRAJECTORY CONTROL point；

Record becomes rail acoustic image track data：It is each during path of running is run along setting in acoustic image to record each audio amplifier node The output level numerical value at moment；

The variable domain acoustic image track data obtains by the following method：

Audio amplifier node is set：In audio amplifier distribution map, addition or deletion audio amplifier node；

Change audio amplifier nodal community：The attribute of audio amplifier node includes audio amplifier coordinate, audio amplifier type, corresponds to output channel, be first Beginningization level；

Setting acoustic image, which is run, path and divides acoustic image region：Multiple acoustic image regions are set in audio amplifier distribution map, each Acoustic image region includes several audio amplifier nodes, and sets the path of running for traveling through each acoustic image region；

Edit acoustic image zone time attribute, including at the time of corresponding to acoustic image region, current acoustic image region to next acoustic image The time required to region and acoustic image is run total duration；

Variable domain acoustic image track data is recorded, each audio amplifier node is recorded and is run successively by each in acoustic image along path of running is set During individual acoustic image region, the output level numerical value at each moment；

The audio amplifier link data obtain as follows：

Audio amplifier node is set：In audio amplifier distribution map, addition or deletion audio amplifier node；

Change audio amplifier nodal community：The attribute of audio amplifier node includes audio amplifier coordinate, audio amplifier type, corresponds to output channel, be first Beginningization level；

Audio amplifier node link relation is set：Selected ultralow frequency audio amplifier node is connected to neighbouring multiple full-range cabinet sections Point；

Record audio amplifier link data：Calculate and record the output level DerivedTrim of the ultralow frequency audio amplifier, the output Level DerivedTrim=10*log (Ratio)+DeriveddB, Ratio=∑ 10^{(Trim-i+LinkTrim-i)/10}, wherein Trim- I is the output level value of any full-range cabinet node i itself, and LinkTrim-i is that the full-range cabinet node i original is set The fixed level that links with ultralow frequency audio amplifier, DeriveddB are the initialization level value of the ultralow frequency audio amplifier node, DerivedTrim is the output level value that the ultralow frequency audio amplifier node sets are linked to after some full-range cabinet nodes；

When generating the change rail acoustic image track data, each audio amplifier node was run in acoustic image along path of running is set The output level value calculating method at each moment is in journey：If acoustic image tracing point i is located at what is enclosed by three audio amplifier nodes In delta-shaped region, acoustic image tracing point i is ti at the time of correspondence, for the audio amplifier section of any apex of the delta-shaped region Point A, this moment ti output level are dB_A1=10*lg (L_A’/L_A), wherein L_A' it is the acoustic image tracing point to the delta-shaped region Remaining two straight distance of summit institute structure, L_AIt is the audio amplifier node A to remaining two straight distance of summit institute structure, in audio amplifier The output level value of other audio amplifier nodes in distribution map is zero or negative infinite；

When generating the variable domain acoustic image track data, each audio amplifier node is run successively in acoustic image along path of running is set Move and be by the output level numerical computation method at each moment during each acoustic image region：If the sound of a certain variable domain track As total duration of running is t, be divided into the acoustic image region of n equal width altogether, acoustic image of the acoustic image along straight line run path from certain Individual acoustic image region 1 is moved to next acoustic image region 2, and the run midpoint of line segment that path is located in acoustic image region 1 of acoustic image is sound As TRAJECTORY CONTROL point 1, the run midpoint of line segment that path is located in acoustic image region 2 of acoustic image is acoustic image TRAJECTORY CONTROL point 2, when current During quarter acoustic image tracing point P runs to next acoustic image region 2 from current acoustic image region 1, each audio amplifier section in acoustic image region 1 Point output level be domain 1dB, the output level of each audio amplifier node is domain 2dB in acoustic image region 2, the two acoustic image regions with Outer audio amplifier node output level is zero or negative infinite, and：

Domain 1dB values=10log_eη÷2.3025851

Domain 2dB values=10log_eβ÷2.3025851

Wherein, l₁₂The distance of acoustic image TRAJECTORY CONTROL point 2, l are arrived for acoustic image TRAJECTORY CONTROL point 1_1PFor acoustic image TRAJECTORY CONTROL point 1 To acoustic image tracing point P distance, l_p2Distance for current acoustic image tracing point P to acoustic image TRAJECTORY CONTROL point 2.

Compared with prior art, have the beneficial effect that：By acoustic image track data to each audio amplifier entity reality output Control is adjusted in level, and the acoustic image track motion or quiet of setting can be generated in the total duration set by acoustic image track data Only effect.

Brief description of the drawings

Fig. 1 is step schematic diagram of the panorama multiple channel acousto as method for controlling trajectory of embodiment.

Fig. 2 is the change rail acoustic image track data generation method step schematic diagram of embodiment.

Fig. 3 is the audio amplifier distribution map of embodiment and becomes rail acoustic image track schematic diagram.

Fig. 4 is the triangle audio amplifier node schematic diagram of embodiment.

Fig. 5 is the variable domain acoustic image track data generation method step schematic diagram of embodiment.

Fig. 6 is the audio amplifier distribution map and variable domain acoustic image track schematic diagram of embodiment.

Fig. 7 is the fixed point acoustic image track data generation method step schematic diagram of embodiment.

Fig. 8 is the audio amplifier connection data creation method step schematic diagram of embodiment.

Fig. 9 is the audio amplifier link schematic diagram of embodiment.

Embodiment

The acoustic image TRAJECTORY CONTROL all types of to the present invention is further described below in conjunction with the accompanying drawings.

As shown in figure 1, the present embodiment provides a kind of panorama multiple channel acousto as method for controlling trajectory, the control method pass through control Platform (control main frame) processed is configured to the output level value of each audio amplifier node of entity sound box system, make acoustic image setting it is total when Moved in long in the way of setting or static, the control method includes：

S101:Generate acoustic image track data；

S102:In the total duration corresponding to the acoustic image track data, according to acoustic image track data, it is real to adjust each audio amplifier The output level of body；

S103:In the total duration, it will input to the incoming level of each audio amplifier physical signal and corresponding audio amplifier entity Output level is overlapped to obtain the level of each audio amplifier entity reality output.

Acoustic image track data refers within the period of setting length (the lasting i.e. total duration of acoustic image), in order that console The acoustic image that each virtual audio amplifier node output level is formed in upper virtual audio amplifier distribution map is run along path set in advance Or remain stationary as, the output level data that each audio amplifier node changes over time.I.e. acoustic image track data contains audio amplifier distribution ground Output level delta data of whole audio amplifier nodes in the setting length of time section in figure.For each audio amplifier node, Its output level size changes and changed over time in the setting time section, it is also possible to be zero, negative it is even negative It is infinite, it is preferential using negative infinite.

The audio amplifier entity that each audio amplifier node corresponds in entity sound box system, each audio amplifier entity are included positioned at same One or more audio amplifiers of one opening position.I.e. each audio amplifier node can correspond to one or more co-located audio amplifiers. In order that entity sound box system can accurately reappear acoustic image path, the virtual audio amplifier of each sound in audio amplifier distribution map The position distribution of node should audio amplifier provider location distribution each with entity sound box system it is corresponding, in particular so that each audio amplifier node it Between relative position relation, the relative position relation between each audio amplifier entity is corresponding.

The level of audio amplifier entity reality output is real with the audio amplifier in the level of input signal and above-mentioned acoustic image track data The output level superposition gained of audio amplifier node corresponding to body.The former be input signal characteristic, the latter can be considered as audio amplifier reality The characteristic of body itself.At any one time, different input signals just has different incoming levels, and real for same audio amplifier Body, only an output level.It is, therefore, understood that acoustic image trajectory processing is at the output level to each audio amplifier entity Reason, to form default acoustic image path effect (including acoustic image transfixion).

Incoming level and the output level superposition of audio amplifier entity can be before audio signal actually enter audio amplifier entity first Being handled, can also be handled again after audio amplifier entity is entered, this link for depending on whole public address system is formed, with And whether audio amplifier entity is built-in with audio-frequency signal processing module, such as DSP unit.

The type of acoustic image track data includes：Pinpoint audio-visual-data, become rail acoustic image track data and variable domain acoustic image track. On console during simulation generation acoustic image track data, the speed and process of acoustic image are controlled for convenience, the present invention is implemented Line segment that example is sequentially connected between some acoustic image TRAJECTORY CONTROL points by discrete distribution in audio amplifier distribution map represents acoustic image Path of running, i.e., determine the path of running of acoustic image, and acoustic image by several acoustic image TRAJECTORY CONTROL points of discrete distribution Overall running time.

Acoustic image is pinpointed, is referred within the period of setting length, the one or more audio amplifiers selected in audio amplifier distribution map Node constantly output level, and unselected audio amplifier node output level numerical value is zero or negative infinite situation.Correspondingly, it is fixed Point audio-visual-data, refer within the period of setting length, the one or more audio amplifier nodes selected in audio amplifier distribution map are held Continuous ground output level, and unselected audio amplifier node not output level, or when output level numerical value is zero or negative infinite, Ge Geyin The output level data that case node changes over time.For selected audio amplifier node, its output level is in the setting time Continuously (there may also be upper and lower fluctuating change)；And for unselected audio amplifier node, its output level in the setting time Remain negative infinite.

Become rail acoustic image, refer within the period of setting length, in order that acoustic image is run along preset path, each audio amplifier node According to the situation of certain rule output level.Correspondingly, become rail acoustic image track data, refer within the period of setting length, In order that acoustic image is run along preset path, the output level data that each audio amplifier node changes over time.Acoustic image runs path simultaneously Need not be exactly accurate, and acoustic image motion (running) duration will not be very long, it is only necessary to substantially build audience and can recognize that Acoustic image run effect.

Variable domain acoustic image, refer within the period of setting length, in order that acoustic image is run along predeterminable area, each audio amplifier node The situation that changes according to certain rule of output level.Correspondingly, variable domain acoustic image track data referred in the time of setting length, In order that acoustic image is run along predeterminable area, the output level data that each audio amplifier node changes over time.

As shown in fig. 2, becoming rail acoustic image track data can obtain by the following method:

S201:Audio amplifier node is set：In audio amplifier distribution map 10, addition or deletion audio amplifier node 11, referring to Fig. 3.

S202:Change audio amplifier nodal community：The attribute of audio amplifier node includes audio amplifier coordinate, audio amplifier type, corresponds to export and lead to Road, initialization level, audio amplifier title etc..Audio amplifier node is represented in audio amplifier distribution map with audio amplifier icon, passes through mobile sound Case icon can change its coordinate position.Audio amplifier type refers to full-range cabinet or ultralow frequency audio amplifier, and particular type can be according to reality Need to be divided.Each audio amplifier node in audio amplifier distribution map is all assigned an output channel, each output channel pair One or more sounds at co-located place should be included in an audio amplifier entity in entity sound box system, each audio amplifier entity Case.I.e. each audio amplifier node can correspond to one or more co-located audio amplifiers.In order to reappear in audio amplifier distribution map Designed acoustic image is run path, and the position distribution of audio amplifier entity should be with the position distribution pair of audio amplifier node in audio amplifier distribution map Should.

S203:Divide delta-shaped region：As shown in figure 3, according to the distribution of audio amplifier node, audio amplifier distribution map is divided more Individual delta-shaped region, three summits of each delta-shaped region are audio amplifier node；Each delta-shaped region is not overlapping, and each Other audio amplifier nodes are not included in delta-shaped region, each audio amplifier node and an output channel (or audio playing apparatus) It is corresponding；

Further, can also aid in determining delta-shaped region, the auxiliary sound box by setting auxiliary sound box node Node does not have corresponding output channel, not output level；

S204:Setting acoustic image TRAJECTORY CONTROL point and path of running：Acoustic image is set to change over time in audio amplifier distribution map Path 12 of running, and several acoustic image TRAJECTORY CONTROL points 11 run positioned at this on path.It can set with the following method Determine acoustic image to run path and acoustic image TRAJECTORY CONTROL point：

1st, fixed point structure：Determine (coordinate) position of several acoustic image TRAJECTORY CONTROL points successively in audio amplifier distribution map, Several acoustic image TRAJECTORY CONTROL points are in turn connected to form into acoustic image to run path, the acoustic image TRAJECTORY CONTROL point pair of first determination Should at the time of be zero, at the time of follow-up acoustic image TRAJECTORY CONTROL point corresponds to be from determine first acoustic image TRAJECTORY CONTROL point to determine work as The time that preceding acoustic image TRAJECTORY CONTROL point is undergone.Such as can be by clicking on sign (such as mouse pointer) audio amplifier distribution Acoustic image TRAJECTORY CONTROL point is clicked on figure, determines that an acoustic image TRAJECTORY CONTROL point-to-point hits the next acoustic image track control of determination from clicking on System point elapsed time determines the time span between two acoustic image tracing points, and each acoustic image track is finally calculated At the time of corresponding to point；

2nd, dragging generation：Dragging marks (such as mouse pointer) along arbitrary line, curve or broken line in audio amplifier distribution map Motion path so that it is determined that acoustic image is run, during mark is dragged, since initial position, at interval of a period of time Ts all An acoustic image TRAJECTORY CONTROL point can be generated on the path of running.Ts is 108ms in the present embodiment；

S205:Edit acoustic image TRAJECTORY CONTROL point attribute：The attribute of acoustic image TRAJECTORY CONTROL point is sat including acoustic image TRAJECTORY CONTROL point Cursor position, it is corresponding at the time of, to the time needed for next acoustic image TRAJECTORY CONTROL point.Can be to selected acoustic image TRAJECTORY CONTROL point institute Time and acoustic image at the time of corresponding, needed for the selected acoustic image TRAJECTORY CONTROL point to next acoustic image TRAJECTORY CONTROL point run path pair One or more of total duration answered is modified.

Assuming that acoustic image TRAJECTORY CONTROL point i is ti at the time of correspondence, acoustic image is run to next track from acoustic image TRAJECTORY CONTROL point i The point i+1 former required times are ti ', and acoustic image total duration corresponding to path of running is t.This means acoustic image is run from initial position The time needed to acoustic image TRAJECTORY CONTROL point i is ti, and the time that acoustic image runs through needed for whole path is t.

It is complete before the acoustic image TRAJECTORY CONTROL point if being modified at the time of to corresponding to a certain acoustic image TRAJECTORY CONTROL point Portion's acoustic image TRAJECTORY CONTROL point each self-corresponding moment, and the run total duration in path of acoustic image are required for being adjusted.If acoustic image TRAJECTORY CONTROL point i is ti at the time of former corresponding, is Ti at the time of correspondence after modification, any sound before acoustic image TRAJECTORY CONTROL point i It is Tj at the time of correspondence after adjustment as being tj at the time of TRAJECTORY CONTROL point J is former corresponding, acoustic image is run former total duration corresponding to path For t, amended total duration is T, then Tj=tj/ti* (Ti-ti)+tj, T=t+ (Ti-ti).The adjustment that the present invention uses Mode advantages of simple, and amount of calculation very little.

It is understood that after time modification corresponding to any acoustic image TRAJECTORY CONTROL point, the time increased or decreased can Whole acoustic image TRAJECTORY CONTROL points (i.e. aforementioned manner) before distributing to the acoustic image TRAJECTORY CONTROL point in identical duration ratio, also may be used With the whole acoustic image TRAJECTORY CONTROL points run by each acoustic image of duration pro rate on path.During using latter approach, it is assumed that sound It is ki as TRAJECTORY CONTROL point i prepares the increased time, then acoustic image TRAJECTORY CONTROL point will be modified to Ti=at the time of correspondence (ki*ti/t)+ti, i.e. time ki are not all to distinguish dispensing acoustic image TRAJECTORY CONTROL point, and each acoustic image TRAJECTORY CONTROL point is all Portion of time can be distributed in its ratio with path total duration of running.

If the time needed for a certain acoustic image TRAJECTORY CONTROL point to next acoustic image TRAJECTORY CONTROL point is adjusted, then next At the time of corresponding to acoustic image TRAJECTORY CONTROL point, and the run total duration in path of acoustic image is required for being adjusted.If acoustic image track Control point i is ti at the time of former corresponding, is Ti at the time of correspondence after modification, acoustic image from current acoustic image TRAJECTORY CONTROL point i run to It is Ti ' times required after ti ' is changed that next tracing point i+1 former required times, which are, when acoustic image runs former total corresponding to path A length of t, amended total duration are T, then Ti+1=Ti+Ti ', T=t+ (Ti-ti)+(Ti '-ti ').

If modification acoustic image is run total duration corresponding to path, then the acoustic image is run each acoustic image TRAJECTORY CONTROL on path It will be all adjusted at the time of corresponding to point and its to the time needed for next acoustic image TRAJECTORY CONTROL point.If acoustic image TRAJECTORY CONTROL point I is ti at the time of former corresponding, is Ti at the time of correspondence after adjustment, acoustic image is run to next rail from current acoustic image TRAJECTORY CONTROL point i It is Ti ' the required times after ti ' adjustment that the mark point i+1 former required times, which be, and acoustic image former total duration corresponding to path of running is t, Amended total duration is T, then Ti=ti/t* (T-t)+ti, Ti '=ti '/t* (T-t)+ti '.

S206:Record becomes rail acoustic image track data：Each audio amplifier node is recorded to run process along setting path of running in acoustic image In each moment output level numerical value.

For becoming for rail acoustic image, the output electricity of the related audio amplifier node for generating acoustic image can be calculated by the following method Level values.Enclosed it is assumed that acoustic image tracing point i (being not necessarily acoustic image TRAJECTORY CONTROL point) is located at by three audio amplifier nodes In the delta-shaped region formed, acoustic image tracing point i is ti at the time of correspondence, and now the three of vertex position audio amplifier node will be defeated Go out a certain size level, the output level value of other audio amplifier nodes in audio amplifier distribution map beyond these three audio amplifier nodes It is zero or negative infinite, so as to ensure that the acoustic image at ti moment in audio amplifier distribution map is located at above-mentioned acoustic image tracing point i.For this three The audio amplifier node A of any apex of angular domain, this moment ti output level are dB_A1=10*lg (L_A’/L_A), wherein L_A’ For remaining two straight distance of summit institute structure of the acoustic image tracing point to the delta-shaped region, L_AFor the audio amplifier node A to remaining The two straight distances of summit institute structure；

Further, each audio amplifier node can also set initialization level value.Assuming that above-mentioned audio amplifier node A initialization Level is dB_A, then in above-mentioned moment ti, audio amplifier node A1 output level dB_A1'=dB_A+10*lg(L_A’/L_A).Its lingering sound Case node set initialization level after t output level by that analogy.

Further, as shown in Fig. 2 if any part acoustic image tracing point (or acoustic image run path) do not fall within any one by In the delta-shaped region that three audio amplifier nodes are formed (movement locus end), then it is new to set to set auxiliary sound box node 13 Delta-shaped region, to ensure that whole acoustic image tracing points are each fallen within corresponding delta-shaped region, the auxiliary sound box node does not have There is corresponding output channel, not output level, be only used for auxiliary and determine delta-shaped region；

Further, when recording the output level value of each audio amplifier node, can continuously record, can also be according to certain Frequency records.For the latter, refer to the output level numerical value that each audio amplifier node is recorded once at interval of certain time.In this reality Apply in example, acoustic image is recorded in along the output for setting each audio amplifier node when path is run using the frequency of 25 frames/second or 30 frames/second Level value.The output level data of each audio amplifier node are recorded by certain frequency, it is possible to reduce data volume, accelerate to inputting audio Signal carries out processing speed during acoustic image trajectory processing, ensures that acoustic image is run the real-time of effect.

As shown in 5 figures, variable domain acoustic image track data can obtain by the following method:

S501：Audio amplifier node is set：In audio amplifier distribution map, addition or deletion audio amplifier node.

S502：Change audio amplifier nodal community：The attribute of audio amplifier node includes audio amplifier coordinate, audio amplifier type, corresponds to export and lead to Road, initialization level, audio amplifier title etc..Audio amplifier node is represented in audio amplifier distribution map with audio amplifier icon, passes through mobile sound Case icon can change its coordinate position.Audio amplifier type refers to full-range cabinet or ultralow frequency audio amplifier, and particular type can be according to reality Need to be divided.Each audio amplifier node in audio amplifier distribution map is all assigned an output channel, each output channel pair One or more sounds at co-located place should be included in an audio amplifier entity in entity sound box system, each audio amplifier entity Case.I.e. each audio amplifier node can correspond to one or more co-located audio amplifiers.In order to reappear in audio amplifier distribution map Designed acoustic image is run path, and the position distribution of audio amplifier entity should be with the position distribution pair of audio amplifier node in audio amplifier distribution map Should.

S503：Setting acoustic image, which is run, path and divides acoustic image region：Multiple acoustic image regions are set in audio amplifier distribution map, Each acoustic image region includes several audio amplifier nodes, and sets the path of running for traveling through each acoustic image region.I.e. by acoustic image area Domain is considered as one " acoustic image point ", and acoustic image is run to another region from a region, until running through whole acoustic image regions successively.Can , can also be quick to set in the following manner with any acoustic image region for setting each complementary overhangs in audio amplifier distribution map Acoustic image region：

Set straight line acoustic image to run path in audio amplifier distribution map, and several acoustic image areas are set along acoustic image path of running Domain, the border in each acoustic image region are approximately perpendicular to the direction of running of the acoustic image.These acoustic image regions can be arranged side by side, and also may be used To be arranged at intervals, but in order to ensure to give birth to the continuity of acoustic image movement (running), mode is arranged side by side in prioritizing selection.These acoustic image areas The gross area in domain is less than or equal to the area of whole audio amplifier distribution map.When dividing acoustic image region, wide division can be used, Not wide division can be used.

During concrete operations, can by drag sign (such as mouse pointer) come and meanwhile set acoustic image to run path and division Acoustic image region.Specifically：Dragging sign is moved to end in audio amplifier distribution map from a certain start position along some direction Point position, while according to impartial several acoustic image regions of division of air line distance of the start position to the final position, Ge Gesheng As the border in region is perpendicular to the straight line of the start position to the final position, and the width in each acoustic image region is impartial.Sound As running total duration the time that middle final position undergone is moved to drag sign from original position.

Assuming that air line distance of the sign from start position to final position is R, total duration used is t, and equalization is drawn The quantity for dividing acoustic image region is n, then the n acoustic image region that width is R/n will be automatically generated, and corresponding to each acoustic image region At the time of be t/n.

S504：Edit acoustic image zone time attribute, including at the time of corresponding to acoustic image region, current acoustic image region is to next The time required to acoustic image region and acoustic image is run total duration.The editor of acoustic image area attribute compiles with becoming rail acoustic image tracing point attribute Collect similar.If being modified at the time of to corresponding to a certain acoustic image region, whole acoustic image regions before the sound area domain are each At the time of corresponding, and the total duration that acoustic image is run is required for being adjusted.If to a certain acoustic image region to next acoustic image region The required time is adjusted, then at the time of corresponding to next acoustic image region, and acoustic image total duration of running is required for carrying out Adjustment.If modification acoustic image is run total duration, then at the time of corresponding to each acoustic image region that the acoustic image is run on path and its It will be all adjusted to the time needed for next acoustic image region.

S505：Variable domain acoustic image track data is recorded, each audio amplifier node is recorded and is run successively in acoustic image along path of running is set During each acoustic image region, the output level numerical value at each moment.

For variable domain acoustic image, the output electricity of the related audio amplifier node for generating acoustic image can be calculated by the following method Level values.

As shown in Figure 6, it is assumed that the acoustic image of a certain variable domain track total duration of running is t, is divided into the sound of 4 equal widths altogether As region, acoustic image of the acoustic image along straight line is run, and from some acoustic image regions 1, (acoustic image region i) is to next acoustic image region 2 in path (acoustic image region i+1) is mobile, and the run midpoint of line segment that path is located in acoustic image region 1 of acoustic image is the (sound of acoustic image TRAJECTORY CONTROL point 1 As TRAJECTORY CONTROL point i), the run midpoint of line segment that path is located in acoustic image region 2 of acoustic image is the (acoustic image of acoustic image TRAJECTORY CONTROL point 2 TRAJECTORY CONTROL point i+1).During acoustic image tracing point P runs to next acoustic image region 2 from current acoustic image region 1, acoustic image area The output level of each audio amplifier node is domain 1dB (domain dB in domain 1_i), the output level of each audio amplifier node is in acoustic image region 2 Domain 2dB (domain dB_i+1), the audio amplifier node output level beyond the two acoustic image regions is zero or negative infinite.

Domain 1dB values=10log_eη÷2.3025851

Domain 2dB values=10log_eβ÷2.3025851

Wherein, l₁₂The distance of acoustic image TRAJECTORY CONTROL point 2, l are arrived for acoustic image TRAJECTORY CONTROL point 1_1PFor acoustic image TRAJECTORY CONTROL point 1 To acoustic image tracing point P distance, l_p2Distance for current acoustic image tracing point P to acoustic image TRAJECTORY CONTROL point 2.Can be with from above-mentioned formula Find out that each acoustic image tracing point there are two acoustic image region output levels, but when acoustic image tracing point is located at the control of each acoustic image track During system point, only one of which acoustic image region output level, such as when acoustic image tracing point P moves to acoustic image TRAJECTORY CONTROL point 2, this When there was only the output level of acoustic image region 2, and the output level in acoustic image region 1 is zero.

When recording the output level value of each audio amplifier node in variable domain acoustic image track, can continuously record, can also be according to one Fixed frequency records.For the latter, refer to the output level numerical value that each audio amplifier node is recorded once at interval of certain time. In the present embodiment, each audio amplifier node when acoustic image edge setting path is run is recorded in using the frequency of 25 frames/second or 30 frames/second Output level value.The output level data of each audio amplifier node are recorded by certain frequency, it is possible to reduce data volume, accelerate to input Audio signal carries out processing speed during acoustic image trajectory processing, ensures that acoustic image is run the real-time of effect.

As shown in 7 figures, fixed point acoustic image track data can obtain by the following method:

S701：Audio amplifier node is set：In audio amplifier distribution map, addition or deletion audio amplifier node.

S702：Change audio amplifier nodal community：The attribute of audio amplifier node includes audio amplifier coordinate, audio amplifier type, corresponds to export and lead to Road, initialization level, audio amplifier title etc..

S703：Acoustic image tracing point and total duration are set, one or more audio amplifier nodes, institute are selected in audio amplifier distribution map Selected each audio amplifier node sets acoustic image tracing point in each audio amplifier node residence time as acoustic image tracing point.

S704：Record fixed point acoustic image track data：Record the output at each audio amplifier node each moment in above-mentioned total duration Level numerical value.

In addition, the acoustic image track data of the present invention also includes audio amplifier link data.Audio amplifier link refers to hold audio amplifier node Row is operation associated, when associating the active audio amplifier node output level in audio amplifier node, associates the passive sound box section of audio amplifier node Put automatic output level.Audio amplifier link data are passive sound boxes after being associated operation to several selected audio amplifier nodes Node relative to active audio amplifier node output level difference.For being necessary the audio amplifier node of link association in spatial distribution Distance can relatively.

As shown in figure 8, audio amplifier link data can obtain by the following method：

S801：Audio amplifier node is set：In audio amplifier distribution map, addition or deletion audio amplifier node.

S802：Change audio amplifier nodal community：The attribute of audio amplifier node includes audio amplifier coordinate, audio amplifier type, corresponds to export and lead to Road, initialization level, audio amplifier title etc..

S803：Audio amplifier node link relation is set：Selected ultralow frequency audio amplifier node is connected to neighbouring multiple full ranges Audio amplifier node；

S804：Record audio amplifier link data：Calculate and record the output level DerivedTrim of the ultralow frequency audio amplifier, The output level DerivedTrim=10*log (Ratio)+DeriveddB, Ratio=∑ 10^{(Trim-i+LinkTrim-i)/10}, its Middle Trim-i is the output level value of any full-range cabinet node i itself, and LinkTrim-i is the full-range cabinet section The former settings of point i and the level that links of the ultralow frequency audio amplifier, DeriveddB are the initialization level of the ultralow frequency audio amplifier node Value, DerivedTrim are the output level that the ultralow frequency audio amplifier node sets are linked to after some full-range cabinet nodes Value.One ultralow frequency audio amplifier node may be configured as linking to one or more full-range cabinet nodes, after link, when full-range cabinet section Point output level, then the ultralow frequency audio amplifier node linked with it will automatic output level, to coordinate full-range cabinet node Build certain sound effect.For a ultralow frequency audio amplifier node link to a full-range cabinet node, both only need to be considered Distance, source of sound property and required audio etc., ultralow frequency audio amplifier node can be set and follow the full-range cabinet node automatically Output level during broadcasting, that is, link level.

As shown in Figure 9, it is assumed that the ultralow frequency audio amplifier node 24 in audio amplifier distribution map links to 3 neighbouring full-range cabinets Node, itself output level value of full-range cabinet node 21,22,23 are respectively Trim1, Trim2 and Trim3, ultralow frequency audio amplifier Node 24 originally with each full-range cabinet point 21,22,23 link level value be respectively LinkTrim1, LinkTrim2 with LinkTrim3.If it is Ratio that level, which is totally added ratio, ultralow frequency audio amplifier node 24 itself initialization level value is DeriveddB, the last output level value of ultralow frequency audio amplifier node 24 is DerivedTrim, then has：

Ratio=10^{(Trim1+LinkTrim1)/10}+10^{(Trim2+LinkTrim2)/10}+10^{(Trim3+LinkTrim3)/10}

DerivedTrim=10*log (Ratio)+DeriveddB

When Ratio is more than 1, ultralow frequency audio amplifier node 24 is linked to gained output level after these three full-range cabinet nodes For 0, i.e., its final output level value is initialization level value.

Claims (8)

1. a kind of panorama multiple channel acousto is as method for controlling trajectory, the control method is by console to each audio amplifier of entity sound box system The output level value of node is configured, and acoustic image is moved in the total duration of setting in the way of setting or static, its feature It is, the control method includes：

Generate acoustic image track data；The acoustic image track data referred within the period of setting length, in order that on console The acoustic image that each virtual audio amplifier node output level is formed in virtual audio amplifier distribution map run along path set in advance or Remain stationary as, the output level data that each audio amplifier node changes over time；

In the total duration corresponding to the acoustic image track data, according to acoustic image track data, the output of each audio amplifier entity is adjusted Level；

In the total duration, input to the incoming level of each audio amplifier physical signal and the output level of corresponding audio amplifier entity is entered Row superposition obtains the level of each audio amplifier entity reality output；

The acoustic image track data includes becoming rail acoustic image track data, variable domain acoustic image track data and audio amplifier link data, wherein：

The change rail acoustic image track data obtains by the following method：

Audio amplifier node is set：In audio amplifier distribution map, addition or deletion audio amplifier node；

Change audio amplifier nodal community：The attribute of audio amplifier node includes audio amplifier coordinate, audio amplifier type, corresponding output channel, initialization Level；

Divide delta-shaped region：According to the distribution of audio amplifier node, audio amplifier distribution map is divided into multiple delta-shaped regions, Mei Gesan Three summits of angular domain are audio amplifier node；

Setting acoustic image TRAJECTORY CONTROL point and path of running：The road of running for setting acoustic image to change over time in audio amplifier distribution map Footpath, and several acoustic image TRAJECTORY CONTROL points run positioned at this on path；

Edit acoustic image TRAJECTORY CONTROL point attribute：The attribute of acoustic image TRAJECTORY CONTROL point includes acoustic image TRAJECTORY CONTROL point coordinates position, institute At the time of corresponding, to the time needed for next acoustic image TRAJECTORY CONTROL point；

Record becomes rail acoustic image track data：Record each audio amplifier node and set during path of running is run each moment on acoustic image edge Output level numerical value；

The variable domain acoustic image track data obtains by the following method：

Audio amplifier node is set：In audio amplifier distribution map, addition or deletion audio amplifier node；

Change audio amplifier nodal community：The attribute of audio amplifier node includes audio amplifier coordinate, audio amplifier type, corresponding output channel, initialization Level；

Setting acoustic image, which is run, path and divides acoustic image region：Multiple acoustic image regions, each acoustic image are set in audio amplifier distribution map Region includes several audio amplifier nodes, and sets the path of running for traveling through each acoustic image region；

Edit acoustic image zone time attribute, including at the time of corresponding to acoustic image region, current acoustic image region to next acoustic image region Required time and acoustic image are run total duration；

Variable domain acoustic image track data is recorded, each audio amplifier node is recorded and is run successively by each sound in acoustic image along path of running is set During region, the output level numerical value at each moment；

The audio amplifier link data obtain as follows：

Audio amplifier node is set：In audio amplifier distribution map, addition or deletion audio amplifier node；

Change audio amplifier nodal community：The attribute of audio amplifier node includes audio amplifier coordinate, audio amplifier type, corresponding output channel, initialization Level；

Audio amplifier node link relation is set：Selected ultralow frequency audio amplifier node is connected to neighbouring multiple full-range cabinet nodes；

Record audio amplifier link data：Calculate and record the output level DerivedTrim of the ultralow frequency audio amplifier, the output level DerivedTrim=10*log (Ratio)+DeriveddB, Ratio=∑ 10^{(Trim-i+LinkTrim-i)/10}, wherein Trim-i is The output level value of any full-range cabinet node i itself, LinkTrim-i for the former setting of the full-range cabinet node i with The link level of ultralow frequency audio amplifier, DeriveddB be the ultralow frequency audio amplifier node initialization level value, DerivedTrim The output level value linked to for the ultralow frequency audio amplifier node sets after some full-range cabinet nodes；

When generating the change rail acoustic image track data, each audio amplifier node is run along setting during path runs in acoustic image The output level value calculating method at each moment is：If acoustic image tracing point i is located at the triangle enclosed by three audio amplifier nodes In shape region, acoustic image tracing point i is ti at the time of correspondence, for the audio amplifier node A of any apex of the delta-shaped region, This moment ti output level is dB_A1=10*lg (L_A’/L_A), wherein L_A' for the acoustic image tracing point to the delta-shaped region remaining The two straight distances of summit institute structure, L_AFor the audio amplifier node A to remaining two straight distance of summit institute structure, it is distributed in audio amplifier The output level value of other audio amplifier nodes on map is zero or negative infinite；

When generating the variable domain acoustic image track data, each audio amplifier node acoustic image along setting run path run successively through The output level numerical computation method for spending each moment during each acoustic image region is：If the acoustic image of a certain variable domain track is run Dynamic total duration is t, is divided into the acoustic image region of n equal width altogether, and acoustic image of the acoustic image along straight line runs path from some sound As region 1 is moved to next acoustic image region 2, the run midpoint of line segment that path is located in acoustic image region 1 of acoustic image is acoustic image rail Mark control point 1, the run midpoint of line segment that path is located in acoustic image region 2 of acoustic image is acoustic image TRAJECTORY CONTROL point 2, current time sound During being run as tracing point P from current acoustic image region 1 to next acoustic image region 2, each audio amplifier node in acoustic image region 1 Output level is domain 1dB, and the output level of each audio amplifier node is domain 2dB in acoustic image region 2, beyond the two acoustic image regions Audio amplifier node output level is zero or negative infinite, and：

<mrow> <mi>&amp;eta;</mi> <mo>=</mo> <mfrac> <msub> <mi>l</mi> <mrow> <mi>p</mi> <mn>2</mn> </mrow> </msub> <msub> <mi>l</mi> <mn>12</mn> </msub> </mfrac> <mo>=</mo> <mfrac> <mrow> <msub> <mi>l</mi> <mn>12</mn> </msub> <mo>-</mo> <msub> <mi>l</mi> <mrow> <mn>1</mn> <mi>p</mi> </mrow> </msub> </mrow> <msub> <mi>l</mi> <mn>12</mn> </msub> </mfrac> </mrow>

Domain 1dB values=10log_eη÷2.3025851

<mrow> <mi>&amp;beta;</mi> <mo>=</mo> <mfrac> <msub> <mi>l</mi> <mrow> <mn>1</mn> <mi>p</mi> </mrow> </msub> <msub> <mi>l</mi> <mn>12</mn> </msub> </mfrac> <mo>=</mo> <mfrac> <mrow> <msub> <mi>l</mi> <mn>12</mn> </msub> <mo>-</mo> <msub> <mi>l</mi> <mrow> <mi>p</mi> <mn>2</mn> </mrow> </msub> </mrow> <msub> <mi>l</mi> <mn>12</mn> </msub> </mfrac> </mrow>

Domain 2dB values=10log_eβ÷2.3025851

Wherein, l₁₂The distance of acoustic image TRAJECTORY CONTROL point 2, l are arrived for acoustic image TRAJECTORY CONTROL point 1_1PAcoustic image is arrived for acoustic image TRAJECTORY CONTROL point 1 Tracing point P distance, l_p2Distance for current acoustic image tracing point P to acoustic image TRAJECTORY CONTROL point 2.

2. panorama multiple channel acousto according to claim 1 is as method for controlling trajectory, it is characterised in that：Generating the change rail During acoustic image track data, each audio amplifier node is provided with initialization level value, if the initialization level of the audio amplifier node A is dB_A, in moment ti, the output level dB of the audio amplifier node A1_A1'=dB_A+10*lg(L_A’/L_A), remaining audio amplifier node is set Initialize level after t output level by that analogy.

3. panorama multiple channel acousto according to claim 1 is as method for controlling trajectory, it is characterised in that is generating the change rail During acoustic image track data, acoustic image TRAJECTORY CONTROL point and path of running are set with the following method：In the audio amplifier distribution map The position of several acoustic image TRAJECTORY CONTROL points is determined successively, and several acoustic image TRAJECTORY CONTROL points are in turn connected to form into acoustic image runs Dynamic path, the acoustic image TRAJECTORY CONTROL point of first determination is zero at the time of correspondence, at the time of follow-up acoustic image TRAJECTORY CONTROL point corresponds to For the time undergone from first acoustic image TRAJECTORY CONTROL point of determination to the current acoustic image TRAJECTORY CONTROL point of determination.

4. panorama multiple channel acousto according to claim 1 is as method for controlling trajectory, it is characterised in that is generating the change rail During acoustic image track data, acoustic image TRAJECTORY CONTROL point and path of running are set with the following method：Dragged in audio amplifier distribution map Mark moves the path so that it is determined that acoustic image is run along arbitrary line, curve or broken line, during mark is dragged, from initial bit Beginning is put, at interval of can all generate an acoustic image TRAJECTORY CONTROL point on the path of running for a period of time.

5. panorama multiple channel acousto according to claim 1 is as method for controlling trajectory, it is characterised in that：Generating the change rail During acoustic image track data, edit acoustic image TRAJECTORY CONTROL point it is corresponding at the time of, if when corresponding to acoustic image TRAJECTORY CONTROL point i originals Carve as ti, be Ti at the time of correspondence after modification, corresponding to any acoustic image TRAJECTORY CONTROL point J originals before acoustic image TRAJECTORY CONTROL point i Moment is tj, is Tj at the time of correspondence after adjustment, and acoustic image former total duration corresponding to path of running is t, and amended total duration is T, then Tj=tj/ti* (Ti-ti)+tj, T=t+ (Ti-ti).

6. panorama multiple channel acousto according to claim 1 is as method for controlling trajectory, it is characterised in that：Generating the change rail During acoustic image track data, if there is part acoustic image tracing point not fall within any one delta-shaped region being made up of three audio amplifier nodes In, set the auxiliary sound box node audio amplifier node adjacent with the part acoustic image tracing point that new delta-shaped region is set, make institute State run whole acoustic image tracing points in path of acoustic image to fall into corresponding delta-shaped region, the auxiliary sound box node is without corresponding Output channel, not output level.

7. panorama multiple channel acousto according to claim 1 is as method for controlling trajectory, it is characterised in that：Generating the variable domain During acoustic image track data, when recording the output level value of each audio amplifier node in variable domain acoustic image track, recording mode is continuous record, Or recorded according to certain frequency.

8. panorama multiple channel acousto according to claim 1 is as method for controlling trajectory, it is characterised in that：Generating the variable domain During acoustic image track data, set acoustic image run path and divide the mode in acoustic image region as：Sign is dragged to be distributed in audio amplifier Final position is moved to from a certain start position along some direction on map, while according to the start position to the final position Air line distance is impartial to divide several acoustic image regions, and the border in each acoustic image region is perpendicular to the start position to the terminal position The straight line put, and the width in each acoustic image region is impartial, the total duration that acoustic image is run is moved for dragging sign from original position Move the time undergone to middle final position.