CN102508663A - Graphical interface layout setting device and method for multi-parameter monitor - Google Patents

Abstract

The invention relates to the technical field of interface layout setting for monitors, in particular to a graphical interface layout setting device and a graphical interface layout setting method for a multi-parameter monitor. Windows are unified and organized, and a well-regulated window layout result is generated on the premise of meeting a series of constraints by using grid-based layout rules. Therefore, the problem of possible disorder of window positions is solved, the readability of the physiological parameter information of the multi-parameter monitor is improved, and the aim of rationally displaying physiological parameters on a display screen is fulfilled.

Description

The apparatus and method that a kind of multi-parameter monitor graphical interfaces layout is provided with

Technical field

The present invention relates to the technical field that the graphical interfaces layout is provided with, be specifically related to the apparatus and method that a kind of multi-parameter monitor graphical interfaces layout is provided with

Background technology

In the patient care field, multi-parameter monitor is widely used .Multi-parameter monitor is used for gathering in real time, showing and keep watch on patient's physiological parameter, like electrocardio, blood pressure, blood oxygen etc.Present multi-parameter monitor on the market can support a considerable amount of physiological parameters to show; Each physiological parameter or show continuous type Wave data, or show discrete type trend data, or two types data all show; And the demonstration of each physiological data generally needs a window on display screen, directly causes multi-parameter monitor to need window displayed quantity considerable.How on display screen, to organize these windows effectively, intuitively and reasonably present to the user to physiological parameter, be the difficult problem of multi-parameter monitor manufacturer thinking always.

Whether basis supports dynamic layout; The graphic user interface layout method of multi-parameter monitor mainly contains two kinds at present: a kind of is the mode of stationary window; Promptly all be presented at fixing position to all windows of patient monitor; The advantage of this method is that software realizes simple, and shortcoming is that the physiological parameter quantity of supporting is few, and the application scenario is narrow; A kind of in addition is the mode of dynamic window; The coordinate, size, the observability that promptly show the window of physiological parameter are dynamically to adjust; The advantage of this method is to have introduced dirigibility from software view to graphic user interface; Make that the physiological parameter quantity of supporting is unrestricted, the application scenario is wider, and shortcoming is that software is realized more complicated.

existing at present disclosed patent protection the method for some dynamic layouts in multi-parameter monitor interface; For example; The Chinese invention patent publication number is: CN1659503; Name is called: " rendering method of object on display screen with convergent-divergent can be freely located in optimization "; A kind of window layout method that can be used for multi-parameter monitor is disclosed; This method changes object automatically according to the available demonstration resource on contents of object, selected preferred setting and the display screen between minimum readable size and selected full-size, the best on available display surface is filled realizing, meanwhile might suppress contents of object more unessential details, change contents of object and/or object display mode to avoid overlapping each other of object.

But; The layout method of describing in the disclosed technical scheme in the above-mentioned patent tries hard to the filling rate of display surface is brought up to maximum; And rule and the alignment of coordinate dimension of having ignored window is to the influence of readability; Because when above-mentioned layout method comes into force at every turn, all need recomputate the size of window according to windows content, and the size of window possibly be optional between minimum readable size and full-size; After possibly causing layout to finish this window and other window level with vertical on all do not line up, finally cause the window's position confusing

Summary of the invention

for overcoming above-mentioned defective, the object of the invention promptly is a kind of device and method that can rationally present the many parameter patient monitor graphical interfaces layout settings of physiological parameter.

The objective of the invention is to realize through following technical scheme:

The method that a kind of multi-parameter monitor graphical interfaces layout is provided with comprises:

Step 1. is obtained the information parameter of each sub-windows, and obtains the dimensional parameters at main interface;

Step 2. with the division that main interface averages, obtains plural identical grid according to the dimensional parameters at main interface;

Step 3. is with the partition definition that carries out of all grids, and the zone definitions that a part of grid is existed is a wave regions, and the zone definitions that a part of grid is existed is a parameter region;

Step 4. imports subwindow according to the information parameter of each sub-windows in wave regions and parameter region;

step 5. pair main interface that the completion subwindow imports shows.

Further, described step 1 also comprises,

each physiological parameter related subwindow collect the different priority that is that one or several group of windows, each group of windows are all preset.

Further, described step 4 further comprises:

Step 41. makes up a two-dimensional array according to the line number and the columns of grid in the described main interface;

The part of step 42. unappropriated grid in described two-dimensional array travels through each the parameter subwindow in the group of windows of each activation from high to low and it is imported in the two-dimensional array of said parameter region correspondence position according to preset priority;

The part of step 43. unappropriated grid in described two-dimensional array travels through each the waveform subwindow in the group of windows of each activation from high to low and it is imported in the two-dimensional array of said wave regions correspondence position according to preset priority;

The co-ordinate position information that each imports subwindow is calculated and stored to step 44. according to described two-dimensional array;

step 45. compares the co-ordinate position information of each importing subwindow of said storage with last each co-ordinate position information that imports subwindow of storing; Each imports the co-ordinate position information of subwindow to upgrade last storage, and it is imported in the described main interface.

are further again, and in the described step 45, the mode of renewal comprises: show, hide and move.

Further again, further comprise in the described step 3,

The standard of preset partition definition specifically comprises,

The right side two row of the grid that a. main interface zone is corresponding always are used for the display parameter subwindow; Be parameter region; The conventional parameter window takies two adjacent grids of level, and concentrated parameter window takies a grid, in the corresponding grid of main interface zone except that right two row; Other zone is mainly used in the display waveform subwindow, is wave regions;

B. the parameter subwindow always has precedence over the demonstration of waveform subwindow; If main interface zone is not enough to show simultaneously all parameter subwindows and waveform subwindow; Then at the bottom-up hiding waveform subwindow of wave regions; And in the zone of vacating display parameter subwindow from left to right, all show until all parameter windows, or till all waveform window have all been hidden;

c. makes the waveform subwindow and the parameter subwindow horizontal alignment of same physiological parameter as far as possible, or each other near.

further, and in the described step 1, the information parameter of subwindow comprises, title, type, group name are claimed, window object, the line number that occupies grid, the columns that occupies grid, status information.

further, the line number of grid and columns can dynamically be adjusted in the described step 2.

the present invention get up each window organization of unity; And use is based on the placement rule of grid; Satisfying under the precondition of a series of constraints, the well-regulated window layout result of generation rule had so both avoided the confusing problem of the window's position that possibly occur; Improve the readability of multi-parameter monitor physiological parameter information again, reached the purpose that rationally presents physiological parameter in display screen surface.

The device that a kind of multi-parameter monitor graphical interfaces of the present invention layout is provided with mainly comprises:

The subwindow parameter acquiring unit, said subwindow parameter acquiring unit is used to obtain the information parameter of each sub-windows;

Main interface parameter acquiring unit, said main interface parameter acquiring unit is used for and obtains the dimensional parameters at main interface;

Main interface division unit, said main interface division unit is connected with main interface parameter acquiring unit, is used for the dimensional parameters according to main interface, with the division that main interface averages, obtains plural identical grid;

The net region definition unit; Said net region definition unit is connected with main interface division unit; Be used for the partition definition that carries out with all grids, the zone definitions that a part of grid is existed is a wave regions, and the zone definitions that a part of grid is existed is a parameter region;

Subwindow imports the unit, and said subwindow imports the unit and is connected with the subwindow parameter acquiring unit with the net region definition unit, is used for the information parameter according to each sub-windows, and in the wave regions of correspondence and parameter region, imports corresponding subwindow respectively;

main interface display unit, said main interface display unit import the unit with subwindow and are connected, and are used for the main interface of accomplishing the subwindow importing is shown.

Further, described subwindow imports the unit and comprises: the array construction unit, and parameter window imports the unit, and waveform window imports the unit, position storage unit and information updating unit,

Described array construction unit is used for making up a two-dimensional array according to the line number and the columns of described main interface grid;

Described parameter window imports the unit; Be connected with described array construction unit; Be used for part, travel through each the parameter subwindow in the group of windows of each activation according to preset priority from high to low and it is imported in the two-dimensional array of said parameter region correspondence position at the unappropriated grid of described two-dimensional array;

Described waveform window imports the unit; Importing the unit with described parameter window is connected; Be used for part, travel through each the waveform subwindow in the group of windows of each activation according to preset priority from high to low and it is imported in the two-dimensional array of said wave regions correspondence position at the unappropriated grid of described two-dimensional array;

Described position storage unit imports the unit with described waveform window and is connected, and is used for according to described two-dimensional array, calculates and store the co-ordinate position information that each imports subwindow;

described information updating unit; Be connected with described position storage unit; Be used for the co-ordinate position information of each importing subwindow of said storage is compared with last each co-ordinate position information that imports subwindow of storing; Each imports the co-ordinate position information of subwindow to upgrade last storage, and it is imported in the described main interface.

Further, comprise that also group of windows is provided with unit and the preset unit of parameter,

Described group of windows is provided with the unit, is connected with described subwindow parameter acquiring unit, be used for each physiological parameter related subwindow collect and be one or several group of windows;

The preset unit of described parameter is provided with the unit with described group of windows and is connected with described main interface division unit, is used for the priority of preset said group of windows and the subregion standard of preset said wave regions and said parameter region.

Description of drawings

In order to be easy to explanation, the present invention is done to describe in detail by following preferred embodiment and accompanying drawing .

Fig. 1 is the structural representation of an embodiment of method of a kind of multi-parameter monitor graphical interfaces of the present invention layout setting;

Fig. 2 is the structural representation of another embodiment of method of a kind of multi-parameter monitor graphical interfaces of the present invention layout setting;

Fig. 3 is the structural representation of an embodiment of device of a kind of multi-parameter monitor graphical interfaces of the present invention layout setting;

Fig. 4 is the structural representation of another embodiment of device of a kind of multi-parameter monitor graphical interfaces of the present invention layout setting;

Fig. 5 divides synoptic diagram for the interface of the apparatus and method that a kind of multi-parameter monitor graphical interfaces of the present invention layout is provided with;

Fig. 6 is the subsurface gridding synoptic diagram of the apparatus and method of a kind of multi-parameter monitor graphical interfaces of the present invention layout setting.

Embodiment

In order to make the object of the invention, technical scheme and advantage clearer,, the present invention is further elaborated below in conjunction with accompanying drawing and embodiment.Should be appreciated that specific embodiment described herein only in order to explanation the present invention, and be not used in qualification the present invention.

See also Fig. 1, an embodiment of the method that a kind of multi-parameter monitor graphical interfaces of the present invention layout is provided with mainly comprises:

101. obtain the information parameter of each sub-windows, and obtain the dimensional parameters at main interface;

The display screen surface of general multi-parameter monitor can be divided into four logic regions by function; As shown in Figure 5; The display screen upside is " information zone "; Downside is optional " screen key zone ", and middle left side is " wave regions ", and middle right side is " parameter region ".Wherein " wave regions " and " parameter region " is defined as " main interface zone " altogether.The disclosed interface of the present invention autoplacement method promptly is that the coordinate dimension that appears at all windows in " main interface " is adjusted, to reach the purpose that rationally presents physiological parameter in display screen surface.

generally in multi-parameter monitor, the demonstration of physiological parameters of patients always takies one or several rectangular areas in the display screen, is called " subwindow ".According to the characteristics of different physiological parameters, window mainly is divided into " waveform subwindow " and " parameter subwindow ".The waveform subwindow is used to show on the time domain continuous, and mainly embodies the physiological parameter of Changing Pattern.The parameter subwindow is used to show on the time domain discrete, or has only the significant continuous physiological parameter of up-to-date numerical value.

each subwindow (comprising waveform subwindow and parameter subwindow) also has certain attributes (information parameter), such as: title, type, group name are claimed, window object, the line number that occupies grid, the columns that occupies grid, status information (as whether activating) or the like.Above-mentioned information can be kept in a kind of file that can write down hierarchy information, for example uses XML.This step has been obtained the information parameter of above-mentioned each sub-windows and has been obtained the current length and width size at main interface.

According to the dimensional parameters at main interface,, obtain plural identical grid with the division that main interface averages;

The notion of " grid " is introduced in in the window layout process; Be about to main interface zone and high wide grid such as be divided into; And after guaranteeing that layout finishes, all windows perhaps just occupy a grid, perhaps occupy the plurality of adjacent grid.And the line number R of grid and columns C are the parameters that can dynamically adjust, and the span of R and C must guarantee that the size of dissimilar subwindows all is large enough to hold corresponding physiological data and shows.According to the current size (wide W, long H) of main interface zone, and the line number R and the columns C of current grid, each size of mesh opening (wide W ÷ C, long H ÷ R) can be calculated;

103. with the partition definition that carries out of all grids, the zone definitions that a part of grid is existed is a wave regions, the zone definitions that a part of grid is existed is a parameter region;

Partition definition is carried out according to preset subregion standard in .

According to the information parameter of each sub-windows, in wave regions and parameter region, import subwindow;

The main interface that the subwindow importing is accomplished in 105. pairs shows.

For better explanation, see also Fig. 2, another embodiment of the method that a kind of multi-parameter monitor graphical interfaces of the present invention layout is provided with mainly comprises:

201. obtain the information parameter of each sub-windows, and obtain the dimensional parameters at main interface;

202 each physiological parameters related subwindow collect the different priority that is that one or several group of windows, each group of windows are all preset;

each physiological parameter related demonstration subwindow collect and be one or several " group of windows ", each one or several waveform subwindow of group of windows management with (or) the parameter subwindow.Each group of windows all has preset different priority, and has certain attributes, such as: group of windows title, related physiological parameter title, the waveform subwindow title that whether activates, managed, the parameter subwindow title of being managed.

According to the dimensional parameters at main interface,, obtain plural identical grid with the division that main interface averages;

204. with the partition definition that carries out of all grids, the zone definitions that a part of grid is existed is a wave regions, the zone definitions that a part of grid is existed is a parameter region;

Subregion standard preset in the present embodiment is specific as follows:

● The right side two row of the grid that main interface zone is corresponding always are used for the display parameter subwindow; Be parameter region; The conventional parameter subwindow takies two adjacent grids of level, concentrate the parameter subwindow and take a grid, in the corresponding grid of main interface zone except that right two row; Other zone is mainly used in the display waveform subwindow, is wave regions;

● The parameter subwindow always has precedence over the waveform subwindow and shows; If main interface zone is not enough to show simultaneously all parameter subwindows and waveform subwindow; Then at the bottom-up hiding waveform subwindow of wave regions; And in the zone of vacating display parameter subwindow from left to right, all show until all parameter windows, or till all waveform window have all been hidden;

● Make the waveform subwindow and the parameter subwindow horizontal alignment of same physiological parameter as far as possible, or each other near;

Standard through as above is a wave regions with the zone definitions that described a part of grid exists, and the zone definitions that a part of grid is existed is a parameter region;

205. line number and columns according to grid in the described main interface make up a two-dimensional array;

206. the part of unappropriated grid in described two-dimensional array travels through each the parameter subwindow in the group of windows of each activation from high to low and it is imported in the two-dimensional array of said parameter region correspondence position according to preset priority;

207. the part of unappropriated grid in described two-dimensional array travels through each the waveform subwindow in the group of windows of each activation from high to low and it is imported in the two-dimensional array of said wave regions correspondence position according to preset priority;

208., calculate and store the co-ordinate position information that each imports subwindow according to described two-dimensional array;

209. the co-ordinate position information of each importing subwindow of said storage is compared with last each co-ordinate position information that imports subwindow of storing; Each imports the co-ordinate position information of subwindow to upgrade last storage, and it is imported in the described main interface;

The mode that are wherein upgraded comprises: show, hide and move.

The technical scheme of a kind of concrete realization of said step 104 has been described in step 205 as above～209, will be elaborated for example according to Fig. 6 below:

Construct the two-dimensional array g [R] [C] (each element of g is used for the situation that takies of the corresponding grid of mark) of the capable C row of R; The element data type definition of g is that window handle is (when certain element assignment of g is the handle of certain window; Represent that this window has taken the corresponding grid of this element), and all be initialized as invalid handle;

Priority travels through the group of windows a of each activation from high to low, and the parameter window p of each activation among the traversal a is if p is for concentrating window; Be (0 then from index; C-2) grid begins, press A, B, C, D ..., V, W, X order (is example with grid shown in Figure 6) search first unappropriated grid (r, c); The value of g [r] [c] is revised as the handle of p, and expression p has taken a grid; If p is conventional window; Be that the grid of (0, C-2) begins then from index, press A, C, E ..., U, W order (is example with instance shown in Figure 6) to search column index be even number; And unappropriated grid (r; C), the value of g [r] [c] and g [r] [c+1] all is revised as the handle of p, expression p has taken two adjacent grids of level; In first row of statistics g how many elements being arranged still is invalid handle, and the numerical value that draws is the portion waveshape zone and is used to after the display parameter window, the remaining waveform line number N that can hold at most; Be reinitialized to invalid handle to each element of g;

Priority travels through the group of windows a of each activation from high to low, and the waveform window that top n is activated is placed in wave regions, and is specific as follows:

The waveform window q of each activation among the traversal a seeks the level grid of adjacent free time in wave regions from top to bottom, if found, and line index is the corresponding element assignment of g the handle of q then less than N;

The start of line index i of the grid that all activated waveform window occupies among the statistics a and row span n;

If n is zero; The waveform window that does not have activation among a then is described; Perhaps wave regions has been unable to hold waveform window, and all activated parameter window is the parameter window of " dissociating " among this time mark a, their handle all among additional record to the tabulation b;

If the n non-zero, then explaining has had waveform window to appear in the wave regions among a, and i is the start of line line index at first waveform window place; Be arranged to all parameter windows among a in the parameter region that line index is i, specifically this time: the parameter window p of each activation among the traversal a, if p is for concentrating window; From index is (i; C-2) grid begins, press A, B, C, D ..., V, W, X order (is example with instance shown in Figure 6) search first unappropriated grid (r, c); The value of g [r] [c] is revised as the handle of p, and expression p has taken a grid; If p is conventional window; Be that the grid of (i, C-2) begins then from index, press A, C, E ..., U, W order (is example with instance shown in Figure 6) to search column index be even number; And unappropriated grid (r; C), the value of g [r] [c] and g [r] [c+1] all is revised as the handle of p, expression p has taken two adjacent grids of level;

Each parameter window p among the traversal b; If p is for concentrating window, be that the grid of (0, C-2) begins then from index; Press A, B, C, D ..., V, W, X order (is example with instance shown in Figure 6) search first unappropriated grid (r; C), the value of g [r] [c] is revised as the handle of p, expression p has taken a grid; If p is conventional window; Be that the grid of (0, C-2) begins then from index, press A, C, E ..., U, W order (is example with instance shown in Figure 6) to search column index be even number; And unappropriated grid (r; C), the value of g [r] [c] and g [r] [c+1] all is revised as the handle of p, expression p has taken two adjacent grids of level;

So far, in the middle of g, writing down the position of window information that is about to be presented at main viewing area, if the initial index of the grid of the position that certain window occupies correspondence is (i in main viewing area; J), and horizontal span is m grid, and vertical span is a n grid; Then this window in main viewing area coordinate and be of a size of (i * w, j * h, m * w; N * h), the step of using new layout is following:

Traversal g notes the handle of the window of each appearance and coordinate dimension, is placed among the array d;

Travel through current all windows that appear at main viewing area, if it not in d, is then hidden this window;

Travel through current all windows that still appear at main viewing area,, then move this window by the coordinate dimension among the d if its coordinate dimension and current coordinate dimension in d is inconsistent;

Window among the traversal d, current as if it is the window of hiding, and then upgrades its coordinate dimension, displays it then;

The main interface that the subwindow importing is accomplished in 210. pairs shows.

See also Fig. 3, the device that a kind of multi-parameter monitor graphical interfaces of the present invention layout is provided with mainly comprises:

Subwindow parameter acquiring unit 301, said subwindow parameter acquiring unit 301 is used to obtain the information parameter of each sub-windows;

Main interface parameter acquiring unit 302, said main interface parameter acquiring unit 302 is used for and obtains the dimensional parameters at main interface;

Main interface division unit 303, said main interface division unit 303 is connected with main interface parameter acquiring unit 302, is used for the dimensional parameters according to main interface, with the division that main interface averages, obtains plural identical grid;

Net region definition unit 304; Said net region definition unit 304 is connected with main interface division unit 303; Be used for the partition definition that carries out with all grids, the zone definitions that a part of grid is existed is a wave regions, and the zone definitions that a part of grid is existed is a parameter region;

Subwindow imports unit 305, and said subwindow imports unit 305 and is connected with subwindow parameter acquiring unit 301 with net region definition unit 304, is used for the information parameter according to each sub-windows, in wave regions and parameter region, imports subwindow;

main interface display unit 306, said main interface display unit 306 import unit 305 with subwindow and are connected, and are used for the main interface of accomplishing the subwindow importing is shown.

See also Fig. 4,, also comprise among another embodiment of the device of a kind of multi-parameter monitor graphical interfaces of the present invention layout setting for explanation the present invention further,

Elaboration the present invention for further sees also Fig. 4, and another embodiment of the device that a kind of multi-parameter monitor graphical interfaces of the present invention layout is provided with also comprises:

Group of windows is provided with unit 307, and said group of windows is provided with unit 307 and is connected with described subwindow parameter acquiring unit 301, be used for each physiological parameter related subwindow collect and be one or several group of windows;

Parameter is preset unit 308; The preset unit 308 of described parameter is provided with unit 307 with described group of windows and is connected with described main interface division unit 303, is used for the priority of preset said group of windows and the subregion standard of preset said wave regions and said parameter region;

Described subwindow imports unit 305 and also further comprises:

Array construction unit 309 is used for making up a two-dimensional array according to the line number and the columns of described main interface grid;

Parameter window imports unit 310; Be connected with described array construction unit 309; Be used for part, travel through each the parameter subwindow in the group of windows of each activation according to preset priority from high to low and it is imported in the two-dimensional array of said parameter region correspondence position at the unappropriated grid of described two-dimensional array;

Waveform window imports unit 311; Importing unit 310 with described parameter window is connected; Be used for part, travel through each the waveform subwindow in the group of windows of each activation according to preset priority from high to low and it is imported in the two-dimensional array of said wave regions correspondence position at the unappropriated grid of described two-dimensional array;

Position storage unit 312 imports unit 311 with described waveform window and is connected, and is used for according to described two-dimensional array, calculates and store the co-ordinate position information that each imports subwindow;

Information updating unit 313; Be connected with described position storage unit 312; Be used for the co-ordinate position information of each importing subwindow of said storage is compared with last each co-ordinate position information that imports subwindow of storing; Each imports the co-ordinate position information of subwindow to upgrade last storage, and it is imported in the described main interface;

The above is merely preferred embodiment of the present invention, not in order to restriction the present invention, all any modifications of within spirit of the present invention and principle, being done, is equal to and replaces and improvement etc., all should be included within protection scope of the present invention

Claims (10)

1. the method that multi-parameter monitor graphical interfaces layout is provided with is characterized in that, comprising:

Step 1. is obtained the information parameter of each sub-windows, and obtains the dimensional parameters at main interface;

Step 2. with the division that main interface averages, obtains plural identical grid according to the dimensional parameters at main interface;

Step 3. is with the partition definition that carries out of all grids, and the zone definitions that a part of grid is existed is a wave regions, and the zone definitions that a part of grid is existed is a parameter region;

Step 4. imports subwindow according to the information parameter of each sub-windows in wave regions and parameter region;

The step 5. pair main interface that the completion subwindow imports shows.

2. the method that a kind of multi-parameter monitor graphical interfaces layout according to claim 2 is provided with is characterized in that, described step 1 also comprises,

Each physiological parameter related subwindow collect the different priority that is that one or several group of windows, each group of windows are all preset.

3. the method that a kind of multi-parameter monitor graphical interfaces layout according to claim 1 and 2 is provided with is characterized in that described step 4 further comprises:

Step 41. makes up a two-dimensional array according to the line number and the columns of grid in the described main interface;

The part of step 42. unappropriated grid in described two-dimensional array travels through each the parameter subwindow in the group of windows of each activation from high to low and it is imported in the two-dimensional array of said parameter region correspondence position according to preset priority;

The part of step 43. unappropriated grid in described two-dimensional array travels through each the waveform subwindow in the group of windows of each activation from high to low and it is imported in the two-dimensional array of said wave regions correspondence position according to preset priority;

The co-ordinate position information that each imports subwindow is calculated and stored to step 44. according to described two-dimensional array;

Step 45. compares the co-ordinate position information of each importing subwindow of said storage with last each co-ordinate position information that imports subwindow of storing; Each imports the co-ordinate position information of subwindow to upgrade last storage, and it is imported in the described main interface.

4. the method that a kind of multi-parameter monitor graphical interfaces layout according to claim 3 is provided with is characterized in that in the described step 45, the mode of renewal comprises: show, hide and move.

5. the method that a kind of multi-parameter monitor graphical interfaces layout according to claim 1 is provided with is characterized in that, further comprises in the described step 3,

The standard of preset partition definition specifically comprises,

The right side two row of the grid that a. main interface zone is corresponding always are used for the display parameter subwindow; Be parameter region; The conventional parameter subwindow takies two adjacent grids of level, concentrate the parameter subwindow and take a grid, in the corresponding grid of main interface zone except that right two row; Other zone is mainly used in the display waveform subwindow, is wave regions;

B. the parameter subwindow always has precedence over the demonstration of waveform subwindow; If main interface zone is not enough to show simultaneously all parameter subwindows and waveform subwindow; Then at the bottom-up hiding waveform subwindow of wave regions; And in the zone of vacating display parameter subwindow from left to right, all show until all parameter windows, or till all waveform window have all been hidden;

C. make the waveform subwindow and the parameter subwindow horizontal alignment of same physiological parameter as far as possible, or each other near.

6. the method that a kind of multi-parameter monitor graphical interfaces layout according to claim 1 is provided with; It is characterized in that; In the described step 1, the information parameter of subwindow comprises, title, type, group name are claimed, window object, the line number that occupies grid, the columns that occupies grid, status information.

7. the method that a kind of multi-parameter monitor graphical interfaces layout according to claim 1 is provided with is characterized in that the line number of grid and columns can dynamically be adjusted in the described step 2.

8. the device that multi-parameter monitor graphical interfaces layout is provided with is characterized in that, comprising:

The subwindow parameter acquiring unit, said subwindow parameter acquiring unit is used to obtain the information parameter of each sub-windows;

Main interface parameter acquiring unit, said main interface parameter acquiring unit is used for and obtains the dimensional parameters at main interface;

Main interface division unit, said main interface division unit is connected with main interface parameter acquiring unit, is used for the dimensional parameters according to main interface, with the division that main interface averages, obtains plural identical grid;

The net region definition unit; Said net region definition unit is connected with main interface division unit; Be used for the partition definition that carries out with all grids, the zone definitions that a part of grid is existed is a wave regions, and the zone definitions that a part of grid is existed is a parameter region;

Subwindow imports the unit, and said subwindow imports the unit and is connected with the subwindow parameter acquiring unit with the net region definition unit, is used for the information parameter based on each sub-windows, and in the wave regions of correspondence and parameter region, imports corresponding subwindow respectively;

Main interface display unit, said main interface display unit import the unit with subwindow and are connected, and are used for the main interface of accomplishing the subwindow importing is shown.

9. the device that a kind of multi-parameter monitor graphical interfaces layout according to claim 8 is provided with is characterized in that, described subwindow imports the unit and comprises: the array construction unit; Parameter window imports the unit; Waveform window imports unit, position storage unit and information updating unit

Described array construction unit is used for making up a two-dimensional array according to the line number and the columns of described main interface grid;

Described parameter window imports the unit; Be connected with described array construction unit; Be used for part, travel through each the parameter subwindow in the group of windows of each activation based on preset priority from high to low and it is imported in the two-dimensional array of said parameter region correspondence position at the unappropriated grid of described two-dimensional array;

Described waveform window imports the unit; Importing the unit with described parameter window is connected; Be used for part, travel through each the waveform subwindow in the group of windows of each activation based on preset priority from high to low and it is imported in the two-dimensional array of said wave regions correspondence position at the unappropriated grid of described two-dimensional array;

Described position storage unit imports the unit with described waveform window and is connected, and is used for according to described two-dimensional array, calculates and store the co-ordinate position information that each imports subwindow;

Described information updating unit; Be connected with described position storage unit; Be used for the co-ordinate position information of each importing subwindow of said storage is compared with last each co-ordinate position information that imports subwindow of storing; Each imports the co-ordinate position information of subwindow to upgrade last storage, and it is imported in the described main interface.

10. the device that a kind of multi-parameter monitor graphical interfaces layout according to claim 8 is provided with is characterized in that, comprises that also group of windows is provided with unit and the preset unit of parameter,

Described group of windows is provided with the unit, is connected with described subwindow parameter acquiring unit, be used for each physiological parameter related subwindow collect and be one or several group of windows;

The preset unit of described parameter is provided with the unit with described group of windows and is connected with described main interface division unit, is used for the priority of preset said group of windows and the subregion standard of preset said wave regions and said parameter region.

Images