CN105512506A - Interface adjusting method and interface adjusting device applied to monitor - Google Patents

Abstract

The invention discloses an interface adjusting method and an interface adjusting device applied to a monitor. The interface adjusting method includes monitoring a touch instruction inputted into the monitor; if the monitored touch instruction inputted to the monitor is a multipoint touch instruction, recognizing touch gestures corresponding to the multipoint touch instruction; based on the recognized touch gestures and a touch area touched by the multipoint touch instruction, performing corresponding interface adjustment on a display area where the touch area is located. The interface adjusting method and the interface adjusting device applied to the monitor have the advantage that user's operation on interface adjustment can be simplified without affecting a waveform and parameter display space on an interface.

Description

Be applied to interface method of adjustment and the device of patient monitor

Technical field

The present invention relates to patient monitor technical field, be specifically related to a kind of the interface method of adjustment and the device that are applied to patient monitor.

Background technology

Patient monitor is a kind of to measure and to control physiological parameters of patients, and can compare with known set value, if there is exceeding standard, and the device that can give the alarm or system.

At present, the interface method of adjustment of patient monitor mainly contains general chooses mode and shortcut two kinds, chooses mode to adopt to fly shuttle knob to operate, and flies shuttle knob choose a certain window control on interface to carry out the adjustment at interface by rotating.Interface is adjusted control and is positioned on interface by shortcut, and user directly clicks the adjustment that this interface adjustment control carries out interface.

But, above-mentioned two kinds of equal existing defects of mode: choose mode to require user repeatedly to rotate to fly shuttle knob-operated cursor to carry out the selected of window control, there is complex operation, the defect of user's more time etc. need be expended; Shortcut needs that interface is adjusted control and is positioned over interface, can impact like this to the display space of the waveform on interface and parameter, and the interface adjustment control being such as positioned over interface can block or reduce the display space of waveform on interface and parameter.

Summary of the invention

The invention provides a kind of the interface method of adjustment and the device that are applied to patient monitor, under the prerequisite of the display space at the waveform do not affected on interface and parameter, simplify the operation that user adjusts interface.

One aspect of the present invention provides a kind of interface method of adjustment being applied to patient monitor, comprising:

The touch command of monitoring input patient monitor;

If monitoring the touch command inputting above-mentioned patient monitor is multi-point touch instruction, then:

Identify the touch control gesture that above-mentioned multi-point touch instruction is corresponding;

Based on the touch area that the touch control gesture recognized and above-mentioned multi-point touch instruction are touched, correspondingly interface adjustment is carried out to the viewing area at place, above-mentioned touch area.

The present invention provides a kind of interface adjusting gear being applied to patient monitor on the other hand, comprising:

Monitoring means, for monitoring the touch command of input patient monitor;

Recognition unit, when being multi-point touch instruction for monitoring when above-mentioned monitoring means the touch command inputting above-mentioned patient monitor, identifies the touch control gesture that above-mentioned multi-point touch instruction is corresponding;

Adjustment unit, for the touch area that the touch control gesture that recognizes based on above-mentioned recognition unit and above-mentioned multi-point touch instruction are touched, carries out correspondingly interface adjustment to the viewing area at place, above-mentioned touch area.

Therefore, by the touch command of monitoring input patient monitor in the present invention, monitor input this patient monitor touch command be multi-point touch instruction time, the touch area that the touch control gesture corresponding based on this multi-point touch instruction and this multi-point touch instruction touch, correspondingly interface adjustment is carried out to the viewing area at this place, touch area, thus user can directly be adjusted by the interface of mode to patient monitor of multi-point touch, under the prerequisite of the display space of the waveform do not affected on interface and parameter, greatly simplifie the operation that user adjusts interface.

Accompanying drawing explanation

In order to be illustrated more clearly in the embodiment of the present invention or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

Fig. 1 is a kind of interface method of adjustment embodiment schematic flow sheet being applied to patient monitor provided by the invention;

Fig. 2 is a kind of another embodiment schematic flow sheet of interface method of adjustment being applied to patient monitor provided by the invention;

Fig. 3 is a kind of another example structure schematic diagram of interface method of adjustment being applied to patient monitor provided by the invention;

Fig. 4 is a kind of interface adjusting gear example structure schematic diagram being applied to patient monitor provided by the invention.

Embodiment

For making goal of the invention of the present invention, feature, advantage can be more obvious and understandable, below in conjunction with the accompanying drawing in the embodiment of the present invention, technical scheme in the embodiment of the present invention is clearly and completely described, obviously, described embodiment is only the present invention's part embodiment, and not all embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art, not making the every other embodiment obtained under creative work prerequisite, belong to the scope of protection of the invention.

Embodiment one

The embodiment of the present invention provides a kind of interface method of adjustment of patient monitor, refers to Fig. 1, and the interface method of adjustment in the embodiment of the present invention, comprising:

The touch command of step 101, monitoring input patient monitor;

In the embodiment of the present invention, patient monitor is started shooting, after initial configuration is carried out to the parameters of this patient monitor, the interface display of patient monitor gather patient every physiological parameter and by the waveform of correspondence.Particularly, patient monitor by being connected to the sensor of patient, probe obtains the physiological parameter data signal (such as electrocardio, blood oxygen, blood pressure, body temperature etc.) relevant to patient, and the waveform that after analyzing the physiological parameter data signal obtained, display analysis obtains on the interface of this patient monitor every physiological parameter is corresponding.

Patient monitor in the embodiment of the present invention supports touch-control input, and after patient monitor starting up, patient monitor continues to monitor the touch command of this patient monitor of input.

If it is multi-point touch instruction that step 102 monitors the touch command inputting above-mentioned patient monitor, then: identify the touch control gesture that above-mentioned multi-point touch instruction is corresponding;

" multiple spot " in the embodiment of the present invention refers to that N number of touch point is triggered simultaneously, and wherein, N is more than or equal to 2.

In patient monitor, single-point touch menu is very abundant, ejects different parameter menu according to single-point touch region difference.As: cardiogram (ECG, ElectroCardioGraph) parameter region.Single-point touch ECG region, occurs that ECG waveform arranges menu, and menu content comprises ECG waveform walking speed, ECG range-adjusting, ECG lead switching, display parameter are selected.To change the waveform walking speed of ECG, need single-point ECG waveform walking speed window, eject ECG waveform walking speed window, option comprises: X1 shelves, X2 shelves, X5 shelves etc., needs to select respective notch, could change the waveform walking speed of ECG.And in order to distinguish the operation of common single-point touch in the embodiment of the present invention, use multi-point touch, can distinguish with the mode being triggered touch-control menu by single-point touch like this, avoid user misoperation.

In a step 102, when to monitor the touch command inputting above-mentioned patient monitor be multi-point touch instruction, identify the touch control gesture that this multi-point touch instruction is corresponding, touch control gesture includes but not limited to: gesture, multiple spot click gesture that gesture, multiple spot that downslide gesture, upper skating gesture, right skating gesture, left skating gesture, multiple spot ecto-entad are gathered spread from inside to outside.

Step 103, the touch area touched based on the touch control gesture recognized and above-mentioned multi-point touch instruction, carry out correspondingly interface adjustment to the viewing area at place, above-mentioned touch area;

In the invention process, preset the adjustment instruction relevant to touch control gesture, so that based on the adjustment instruction corresponding to the touch control gesture recognized, carry out correspondingly interface adjustment (adjustment etc. of the display layout of the walking speed adjustment of such as waveform, the amplitude adjustment of waveform, each waveform) by the viewing area of this adjustment instruction to the place, touch area that above-mentioned multi-point touch instruction touches.

It should be noted that, the viewing area mentioned in the embodiment of the present invention refers to the maximum boundary window at each waveform place, if above-mentioned touch area is within the scope of same viewing area, then think and need to operate the waveform in this viewing area, patient monitor according to preset with the adjustment instruction corresponding to this touch control gesture, to this viewing area carry out correspondingly interface adjustment.Optionally, if above-mentioned touch area relates to multiple viewing area, then think and need the waveform in the multiple viewing areas involved by above-mentioned touch area to operate, patient monitor according to preset with the adjustment instruction corresponding to above-mentioned touch control gesture, to the multiple viewing areas involved by above-mentioned touch area carry out correspondingly interface adjustment.Concrete, the touch area that above-mentioned multi-point touch instruction relates to also relates to multiple viewing area within the scope of same viewing area, can be determined by the initial touch point of above-mentioned multiple touch command, when all initial touch point of above-mentioned multi-point touch instruction is all within the scope of same viewing area, then can determine that touch area that this multi-point touch instruction touches is within the scope of same viewing area, when the initial touch point of above-mentioned multi-point touch instruction lays respectively in different viewing areas, then can determine that the touch area that this multi-point touch instruction touches relates to multiple viewing area, and the viewing area that other touch point of no matter this multi-point touch instruction touches how.For above-mentioned multi-point touch instruction for two point touch command is described, then this two point touch command certainly exists two initial touch points, when two initial touch points of this two point touch command are all within the scope of same viewing area, namely determine that touch area that this two point touch command touches is within the scope of same viewing area, when two initial touch points of this two point touch command lay respectively in two different viewing areas, then determine that the touch area that this two point touch command is touched relates to two viewing areas.

Optional, if when monitoring the multi-point touch instruction inputting above-mentioned patient monitor for more than twice in scheduled duration, then only carry out processing (namely for the multi-point touch instruction of the above-mentioned patient monitor of the input monitored first in this preset duration, multi-point touch instruction only for the above-mentioned patient monitor of the input monitored first in this preset duration performs step 102 and subsequent step), in this preset duration, the follow-up multi-point touch instruction monitored is considered as invalid touch command, to prevent artificial maloperation at short notice.Illustrate and set above-mentioned preset duration as 1 second, if monitored the right skating gesture of twice two point touch-control in 1 second, then only perform step 102 and subsequent step for the right skating gesture of the two point touch-control monitored first in this preset duration, the right skating gesture of the second time two point touch-control monitored in same second is considered as invalid touch command.

Therefore, by the touch command of monitoring input patient monitor in the present invention, monitor input this patient monitor touch command be multi-point touch instruction time, the touch area that the touch control gesture corresponding based on this multi-point touch instruction and this multi-point touch instruction touch, correspondingly interface adjustment is carried out to the viewing area at this place, touch area, thus user can directly be adjusted by the interface of mode to patient monitor of multi-point touch, under the prerequisite of the display space of the waveform do not affected on interface and parameter, greatly simplifie the operation that user adjusts interface.

Embodiment two

The embodiment of the present invention, on the basis of embodiment one, is described for touch area further, refers to Fig. 2 within the scope of same viewing area, and the interface method of adjustment in the embodiment of the present invention, comprising:

The touch command of step 201, monitoring input patient monitor;

In the embodiment of the present invention, patient monitor is started shooting, after initial configuration is carried out to the parameters of this patient monitor, the interface display of patient monitor gather patient every physiological parameter and by the waveform of correspondence.Particularly, patient monitor by being connected to the sensor of patient, probe obtains the physiological parameter data signal (such as electrocardio, blood oxygen, blood pressure, body temperature etc.) relevant to patient, and the waveform that after analyzing the physiological parameter data signal obtained, display analysis obtains on the interface of this patient monitor every physiological parameter is corresponding.

Patient monitor in the embodiment of the present invention supports touch-control input, and after patient monitor starting up, patient monitor continues to monitor the touch command of this patient monitor of input.

If it is multi-point touch instruction that step 202 monitors the touch command inputting above-mentioned patient monitor, then: identify the touch control gesture that above-mentioned multi-point touch instruction is corresponding;

Particularly, step 202 with reference to the description in the step 102 in embodiment illustrated in fig. 1, can not repeat herein.

If the touch area that the instruction of step 203 above-mentioned multi-point touch touches is positioned at the viewing area of same waveform, then based on the touch area that the above-mentioned touch control gesture recognized and above-mentioned multi-point touch instruction are touched, the waveform shown in the viewing area to place, above-mentioned touch area correspondingly adjusts;

In the embodiment of the present invention, preset the adjustment instruction relevant to touch control gesture, so that based on the adjustment instruction corresponding to the touch control gesture recognized, by this adjustment instruction, the waveform shown in the viewing area at the place, touch area that above-mentioned multi-point touch instruction touches correspondingly is adjusted, to realize the adjustment to interface.

Wherein, the viewing area mentioned in the embodiment of the present invention refers to the maximum boundary window at each waveform place, if above-mentioned touch area is positioned at the viewing area scope of same waveform, then think and need to operate the waveform in this viewing area, patient monitor according to preset with the adjustment instruction corresponding to this touch control gesture, to this viewing area carry out correspondingly interface adjustment.Concrete, the touch area that above-mentioned multi-point touch instruction relates to also relates to multiple viewing area within the scope of same viewing area, can be determined by the initial touch point of above-mentioned multiple touch command, when all initial touch point of above-mentioned multi-point touch instruction is all within the scope of same viewing area, then can determine that touch area that this multi-point touch instruction touches is within the scope of same viewing area, when the initial touch point of above-mentioned multi-point touch instruction lays respectively in different viewing areas, then can determine that the touch area that this multi-point touch instruction touches relates to multiple viewing area, and the viewing area that other touch point of no matter this multi-point touch instruction touches how.

Optionally, if the above-mentioned touch control gesture recognized is downslide gesture, then the amplitude of the waveform shown in the viewing area to place, above-mentioned touch area reduces by a gear; If the above-mentioned touch control gesture recognized is upper skating gesture, then the amplitude of the waveform shown in the viewing area to place, above-mentioned touch area increases a gear; If the above-mentioned touch control gesture recognized is right skating gesture, then the walking speed of the waveform shown in the viewing area to place, above-mentioned touch area increases a gear; If the above-mentioned touch control gesture recognized is left skating gesture, then the walking speed of the waveform shown in the viewing area to place, above-mentioned touch area reduces by a gear.Wherein, above-mentioned downslide gesture and upper skating gesture are not limited to the above-below direction in vertical direction, as long as the trend meeting gesture is above-below direction, then meet the standard of amplitude adjustment.Particularly, in patient monitor initial configuration process, different amplitude gears can be pre-set, such as, following amplitude gear can be set gradually: Z1 shelves according to amplitude is ascending, Z3 shelves, Z5 shelves etc., when recognizing touch control gesture and be downslide gesture at every turn, the amplitude of the waveform shown in the viewing area to place, above-mentioned touch area reduces a gear (being such as reduced to Z3 shelves from Z5 shelves), when recognizing touch control gesture and be upper skating gesture at every turn, the amplitude of the waveform shown in the viewing area to place, above-mentioned touch area increases a gear (such as increasing to Z5 shelves from Z3 shelves), further, when the amplitude adjusted of current form is to lowest gear (or most high tap position), can no longer respond above-mentioned downslide gesture (or upper skating gesture), namely the gear gear of increasing degree (or no longer) of amplitude is no longer reduced, during to prevent user misoperation, wave-shape amplitude is caused to be adjusted too small (or excessive) and affect the observation of medical personnel to patient's waveform.In like manner, above-mentioned right skating gesture and left skating gesture are not limited to the left and right directions in horizontal direction, as long as the trend meeting gesture is left and right directions, then meet the standard of amplitude adjustment.Particularly, in patient monitor initial configuration process, different walking speed gears can be pre-set, such as, following walking speed gear can be set gradually from slow to fast: X1 shelves according to walking speed, X2 shelves, X5 shelves etc., when recognizing touch control gesture and be right skating gesture at every turn, the walking speed of the waveform shown in the viewing area to place, above-mentioned touch area increases a gear (such as increasing to X2 shelves from X1 shelves), when recognizing touch control gesture and be left skating gesture at every turn, the walking speed of the waveform shown in the viewing area to place, above-mentioned touch area reduces a gear (being such as reduced to X1 shelves from X2 shelves).Further, when the walking speed adjusted of current form is to lowest gear (or most high tap position), can no longer respond above-mentioned left skating gesture (or right skating gesture), namely the gear (or no longer increasing the gear of walking speed) of walking speed is no longer reduced, during to prevent user misoperation, waveform walking speed is caused to be adjusted too small (or excessive) and affect the observation of medical personnel to patient's waveform.

Be described for the cardiogram viewing area of patient monitor, if set gradually following amplitude gear according to amplitude is ascending: Z1 shelves, Z3 shelves, Z5 shelves; Following walking speed gear is set gradually from slow to fast: X1 shelves, X2 shelves, X5 shelves according to walking speed; The walking speed of current form is X2 shelves, and the amplitude (i.e. amplitude) of waveform is Z3 shelves.When user uses this cardiogram viewing area of two point touch control operation, if the touch control gesture of the input of user is downslide gesture, then in this cardiogram viewing area, the amplitude correspondence of the waveform of display is adjusted to Z1 shelves; If the touch control gesture of the input of user is upper skating gesture, then in this cardiogram viewing area, the amplitude correspondence of the waveform of display is adjusted to Z5 shelves; If the touch control gesture of the input of user is right skating gesture, then in this cardiogram viewing area, the walking speed correspondence of the waveform of display is adjusted to X5 shelves; If the touch control gesture of the input of user is left skating gesture, then in this cardiogram viewing area, the walking speed correspondence of the waveform of display is adjusted to X1 shelves.

Optional, if when monitoring the multi-point touch instruction inputting above-mentioned patient monitor for more than twice in scheduled duration, then only carry out processing (namely for the multi-point touch instruction of the above-mentioned patient monitor of the input monitored first in this preset duration, multi-point touch instruction only for the above-mentioned patient monitor of the input monitored first in this preset duration performs step 202 and subsequent step), in this preset duration, the follow-up multi-point touch instruction monitored is considered as invalid touch command, to prevent artificial maloperation at short notice.Illustrate and set above-mentioned preset duration as 1 second, if monitored the right skating gesture of twice two point touch-control in 1 second, then only perform step 202 and subsequent step for the right skating gesture of the two point touch-control monitored first in this preset duration, the right skating gesture of the second time two point touch-control monitored in same second is considered as invalid touch command.

Therefore, by the touch command of monitoring input patient monitor in the present invention, monitor input this patient monitor touch command be multi-point touch instruction time, the touch area that the touch control gesture corresponding based on this multi-point touch instruction and this multi-point touch instruction touch, correspondingly interface adjustment is carried out to the viewing area at this place, touch area, such as, user only the viewing area of a waveform on the interface of patient monitor need carry out the right sliding operation of multiple spot (or the left sliding operation of multiple spot), get final product the walking speed of the waveform in corresponding increase (or minimizing) this viewing area, again such as, user only the viewing area of a waveform on the interface of patient monitor need carry out sliding operation on multiple spot (or multiple spot glide operation), get final product the amplitude of the waveform in corresponding increase (or minimizing) this viewing area, user can directly be adjusted by the interface of mode to patient monitor of multi-point touch, under the prerequisite of the display space of the waveform do not affected on interface and parameter, greatly simplifie the operation that user adjusts interface.

Embodiment three

The embodiment of the present invention is on the basis of embodiment one, be not described within the scope of same viewing area for touch area further, it should be noted that, also can combine with embodiment two in the embodiment of the present invention, refer to Fig. 3, interface method of adjustment in the embodiment of the present invention, comprising:

The touch command of step 301, monitoring input patient monitor;

In the embodiment of the present invention, patient monitor is started shooting, after initial configuration is carried out to the parameters of this patient monitor, the interface display of patient monitor gather patient every physiological parameter and by the waveform of correspondence.Particularly, patient monitor by being connected to the sensor of patient, probe obtains the physiological parameter data signal (such as electrocardio, blood oxygen, blood pressure, body temperature etc.) relevant to patient, and the waveform that after analyzing the physiological parameter data signal obtained, display analysis obtains on the interface of this patient monitor every physiological parameter is corresponding.

Patient monitor in the embodiment of the present invention supports touch-control input, and after patient monitor starting up, patient monitor continues to monitor the touch command of this patient monitor of input.

If it is multi-point touch instruction that step 302 monitors the touch command inputting above-mentioned patient monitor, then: identify the touch control gesture that above-mentioned multi-point touch instruction is corresponding;

Particularly, step 302 with reference to the description in the step 102 in embodiment illustrated in fig. 1, can not repeat herein.

If the touch area that the above-mentioned multi-point touch instruction of step 303 touches lays respectively in the viewing area of different wave, then judge whether each waveform that above-mentioned touch area shows can superpose;

The viewing area mentioned in the embodiment of the present invention refers to the maximum boundary window at each waveform place, if above-mentioned touch area relates to multiple viewing area, then think and need the waveform in the multiple viewing areas involved by above-mentioned touch area to operate, patient monitor according to preset with the adjustment instruction corresponding to above-mentioned touch control gesture, to the multiple viewing areas involved by above-mentioned touch area carry out correspondingly interface adjustment.Concrete, the touch area that above-mentioned multi-point touch instruction relates to also relates to multiple viewing area within the scope of same viewing area, can be determined by the initial touch point of above-mentioned multiple touch command, when all initial touch point of above-mentioned multi-point touch instruction is all within the scope of same viewing area, then can determine that touch area that this multi-point touch instruction touches is within the scope of same viewing area, when the initial touch point of above-mentioned multi-point touch instruction lays respectively in different viewing areas, then can determine that the touch area that this multi-point touch instruction touches relates to multiple viewing area, and the viewing area that other touch point of no matter this multi-point touch instruction touches how.

In the embodiment of the present invention, if the touch area that above-mentioned multi-point touch instruction touches lays respectively in the viewing area of different wave, can first whether can superpose according to each waveform of the configuration determination preset above-mentioned touch area display, can superpose if judge, then perform step 304, cannot superpose if judge, then perform step 305.

Wherein, above-mentioned default configuration refers to the monitored parameters that can superpose preset in patient monitor initialization procedure.Such as, the monitored parameters that can superpose preset is blood oxygen and invasive blood pressure, if the touch area then touched when above-mentioned multi-point touch instruction lays respectively in the viewing area of blood oxygen waveform and invasive blood pressure waveform, the configuration according to presetting can judge that two waveforms that above-mentioned touch area shows can superpose.

Step 304, based on preset the superposition display mode corresponding with the touch control gesture recognized, each addition of waveforms above-mentioned is presented in same viewing area;

In the embodiment of the present invention, when each waveform judging that above-mentioned touch area shows can superpose, based on based on the superposition display mode corresponding with the touch control gesture recognized preset, each addition of waveforms above-mentioned is presented in same viewing area.Particularly, the superposition display mode preset includes but not limited to following four kinds:

The first: each waveform above-mentioned is presented in same viewing area, and, respectively above-mentioned first waveform and above-mentioned second waveform are identified in this viewing area.Be described (for ease of describing in the viewing area that the touch area touched for above-mentioned multi-point touch instruction lays respectively at two waveforms, these two waveforms are described as the first waveform and the second waveform respectively), then in step 304, above-mentioned first waveform and above-mentioned second waveform can be presented at same viewing area, further, respectively above-mentioned first waveform and above-mentioned second waveform are identified in this viewing area, such as, in this viewing area, above-mentioned first waveform and above-mentioned second waveform is shown by different colors respectively.

The second: difference is done to each waveform above-mentioned, and in above-mentioned same viewing area, show the difference of each waveform above-mentioned in real time, so that user checks the same parameter trend (such as blood oxygen parameter) of the synchronization different parts of same patient, make the interface of patient monitor more clear and show waveform corresponding to each physiological parameter compactly.Be described for the waveform that blood oxygen parameter is corresponding, (two blood-oxygen functional is a kind of method that difference by calculating two blood oxygen levels carrys out tentative diagnosis illness to need to use two blood-oxygen functional for some special occasions, there is very important clinical meaning) time, when blood oxygen waveform 1 and blood oxygen waveform 2 show with two windows (i.e. viewing area) respectively, user can carry out touch operation simultaneously in these two windows, default for triggering, poor touch control gesture is done to waveform to input, when patient monitor recognizes this touch control gesture, and when judging that hemorrhage oxygen waveform 1 and blood oxygen waveform 2 can superpose, difference is done to blood oxygen waveform 1 and blood oxygen waveform 2, and in above-mentioned same viewing area, show the difference of blood oxygen waveform 1 and blood oxygen waveform 2 in real time.Further, when the difference of wantonly one or two waveform in each waveform above-mentioned exceedes default difference threshold, input alerting signal, exceedes default difference threshold with the difference of these two waveforms of reminding user, particularly, this alerting signal includes but not limited to: flicker, sound, color or other.

The third: by each waveform above-mentioned according to same isobase simultaneously countershaft Overlapping display in above-mentioned same viewing area.

4th kind: the amplitude that each waveform above-mentioned carries out same time shaft is summed into a synthetic waveform, in above-mentioned same viewing area, show above-mentioned synthetic waveform.

In the embodiment of the present invention, the touch control gesture of a multiple spot can be set respectively for each superposition display mode above-mentioned, so that user triggers corresponding Overlapping display for needing the corresponding touch control gesture of two or more Waveform Input of Overlapping display, or, also the touch control gesture of a multiple spot can be set respectively for often kind of combination of above-mentioned two or more superposition display mode, so that user is for the Overlapping display needing the corresponding touch control gesture of the two or more Waveform Input of Overlapping display to trigger respective combination, such as, combination for above-mentioned the first and the second superposition display mode sets the touch control gesture of a multiple spot, when user is for the first waveform and this touch control gesture of the second Waveform Input, above-mentioned first waveform and above-mentioned second waveform are presented at same viewing area, and respectively above-mentioned first waveform and above-mentioned second waveform are identified in this viewing area, simultaneously, difference is done to above-mentioned first waveform and above-mentioned second waveform, and in this viewing area, show the difference of above-mentioned first waveform and the second waveform in real time.

Further, after the step 304, the viewing area at the original place of waveform user can also being pointed out whether to retain be moved in each waveform above-mentioned, if user selects the viewing area retaining the original place of waveform be moved in each waveform above-mentioned, then retain the viewing area at the original place of waveform be moved in each waveform above-mentioned, if user selects the viewing area not retaining the original place of waveform be moved in each waveform above-mentioned, then the viewing area be available may be used for the waveform showing other physiological parameter.

Step 305, the not stackable information of output;

It is not stackable that above-mentioned not stackable information is used to indicate user's each waveform above-mentioned.The type of above-mentioned not stackable information be specifically as follows voice, word, flicker or other, be not construed as limiting herein.

Therefore, by the touch command of monitoring input patient monitor in the present invention, monitor input this patient monitor touch command be multi-point touch instruction time, the touch area that the touch control gesture corresponding based on this multi-point touch instruction and this multi-point touch instruction touch, correspondingly interface adjustment is carried out to the viewing area at this place, touch area, such as, user only need the touch control gesture of multiple spot preset of multiple stackable viewing area, the waveform place input on the interface of patient monitor, correspondingly Overlapping display can be carried out to the plurality of stackable waveform, user can directly be adjusted by the interface of mode to patient monitor of multi-point touch, under the prerequisite of the display space of the waveform do not affected on interface and parameter, greatly simplifie the operation that user adjusts interface.

Embodiment four

The embodiment of the present invention provides a kind of interface adjusting gear being applied to patient monitor.Refer to Fig. 4, the interface adjusting gear 400 in the embodiment of the present invention, comprising:

Monitoring means 401, for monitoring the touch command of input patient monitor;

Recognition unit 402, when being multi-point touch instruction for monitoring when monitoring means 401 touch command inputting above-mentioned patient monitor, identifies the touch control gesture that above-mentioned multi-point touch instruction is corresponding;

Adjustment unit 403, for the touch area that the touch control gesture that recognizes based on recognition unit 402 and above-mentioned multi-point touch instruction are touched, carries out correspondingly interface adjustment to the viewing area at place, above-mentioned touch area.

Optionally, adjustment unit 403 comprises: the first sub-adjustment unit, for: when the touch area that above-mentioned multi-point touch instruction touches is positioned at the viewing area of same waveform, based on the touch area that the above-mentioned touch control gesture recognized and above-mentioned multi-point touch instruction are touched, the waveform shown in the viewing area to place, above-mentioned touch area correspondingly adjusts.

Optionally, above-mentioned first sub-adjustment unit specifically for: when the above-mentioned touch control gesture that recognition unit 402 recognizes is downslide gesture, the amplitude of the waveform shown in the viewing area to place, above-mentioned touch area reduces by a gear; When the above-mentioned touch control gesture that recognition unit 402 recognizes is upper skating gesture, the amplitude of the waveform shown in the viewing area to place, above-mentioned touch area increases a gear; When the above-mentioned touch control gesture that recognition unit 402 recognizes is right skating gesture, the walking speed of the waveform shown in the viewing area to place, above-mentioned touch area increases a gear; When the above-mentioned touch control gesture that recognition unit 402 recognizes is left skating gesture, the walking speed of the waveform shown in the viewing area to place, above-mentioned touch area reduces by a gear.

Further, interface adjusting gear in the embodiment of the present invention also comprises: judging unit, for when the touch area that above-mentioned multi-point touch instruction touches lays respectively in the viewing area of different wave, judge whether each waveform that above-mentioned touch area shows can superpose; Tip element, during for judging that each waveform above-mentioned cannot superpose when above-mentioned judging unit, exports not stackable information, so that indicating user each waveform above-mentioned is not stackable; Adjustment unit 403 also comprises: the second sub-adjustment unit, touch area for touching when above-mentioned multi-point touch instruction lays respectively in the viewing area of different wave, and above-mentioned judging unit is when judging that each waveform above-mentioned can superpose, based on the superposition display mode corresponding with the touch control gesture recognized preset, each addition of waveforms above-mentioned is presented in same viewing area.

Optionally, above-mentioned second sub-adjustment unit specifically for: the touch area touched when above-mentioned multi-point touch instruction lays respectively in the viewing area of different wave, and above-mentioned judging unit is when judging that each waveform above-mentioned can superpose, based on the superposition display mode corresponding with the touch control gesture recognized preset, difference is done to each waveform above-mentioned, and show the difference of each waveform above-mentioned in real time in above-mentioned same viewing area; Or, the touch area touched when above-mentioned multi-point touch instruction lays respectively in the viewing area of different wave, and above-mentioned judging unit is when judging that each waveform above-mentioned can superpose, based on the superposition display mode corresponding with the touch control gesture recognized preset, will each waveform above-mentioned according to countershaft Overlapping display while of same isobase in above-mentioned same viewing area; Or, the touch area touched when above-mentioned multi-point touch instruction lays respectively in the viewing area of different wave, and above-mentioned judging unit is when judging that each waveform above-mentioned can superpose, based on the superposition display mode corresponding with the touch control gesture recognized preset, the amplitude that each waveform above-mentioned carries out same time shaft is summed into a synthetic waveform, in above-mentioned same viewing area, shows above-mentioned synthetic waveform.

It should be noted that, the concrete accessible site of interface adjusting gear in the embodiment of the present invention is in above-mentioned patient monitor, this interface adjusting gear may be used for realizing the whole technical schemes in above-described embodiment one or embodiment two or embodiment three, the function of its each functional module can according to the method specific implementation in above-described embodiment one or embodiment two or embodiment three, its specific implementation process can refer to the associated description in above-described embodiment, repeats no more herein.

Therefore, by the touch command of monitoring input patient monitor in the present invention, monitor input this patient monitor touch command be multi-point touch instruction time, the touch area that the touch control gesture corresponding based on this multi-point touch instruction and this multi-point touch instruction touch, correspondingly interface adjustment is carried out to the viewing area at this place, touch area, thus user can directly be adjusted by the interface of mode to patient monitor of multi-point touch, under the prerequisite of the display space of the waveform do not affected on interface and parameter, greatly simplifie the operation that user adjusts interface.

It should be noted that, in several embodiments that the application provides, should be understood that disclosed apparatus and method can realize by another way.Such as, device embodiment described above is only schematic, such as, the division of said units, be only a kind of logic function to divide, actual can have other dividing mode when realizing, such as multiple unit or assembly can in conjunction with or another system can be integrated into, or some features can be ignored, or do not perform.Another point, shown or discussed coupling each other or direct-coupling or communication connection can be by some interfaces, and the indirect coupling of device or unit or communication connection can be electrical, machinery or other form.

For aforesaid each embodiment of the method, in order to easy description, therefore it is all expressed as a series of combination of actions, but those skilled in the art should know, the present invention is not by the restriction of described sequence of movement, because according to the present invention, some step can adopt other order or carry out simultaneously.Secondly, those skilled in the art also should know, the embodiment described in instructions all belongs to preferred embodiment, and involved action and module might not be all that the present invention is necessary.

In the above-described embodiments, the description of each embodiment is all emphasized particularly on different fields, in certain embodiment, there is no the part described in detail, can see the associated description of other embodiment.

Be more than to a kind of be applied to the interface method of adjustment of patient monitor and the description of device provided by the present invention, for one of ordinary skill in the art, according to the thought of the embodiment of the present invention, all will change in specific embodiments and applications, to sum up, this description should not be construed as limitation of the present invention.

Claims (10)

1. be applied to an interface method of adjustment for patient monitor, it is characterized in that, comprising:

The touch command of monitoring input patient monitor;

If monitoring the touch command inputting described patient monitor is multi-point touch instruction, then:

Identify the touch control gesture that described multi-point touch instruction is corresponding;

Based on the touch area that the touch control gesture recognized and described multi-point touch instruction are touched, correspondingly interface adjustment is carried out to the viewing area at place, described touch area.

2. method according to claim 1, is characterized in that, the touch area that described described touch control gesture based on recognizing and described multi-point touch instruction touch, and carries out correspondingly interface adjustment comprise the viewing area at place, described touch area:

If the touch area that described multi-point touch instruction touches is positioned at the viewing area of same waveform, then based on the touch area that the described touch control gesture recognized and described multi-point touch instruction are touched, the waveform shown in the viewing area to place, described touch area correspondingly adjusts.

3. method according to claim 2, it is characterized in that, if the touch area that described multi-point touch instruction touches is positioned at the viewing area of same waveform, the then described touch area touched based on the described touch control gesture recognized and described multi-point touch instruction, the waveform shown in viewing area to place, described touch area correspondingly adjusts, and comprising:

If the described touch control gesture recognized is downslide gesture, then the amplitude of the waveform shown in the viewing area to place, described touch area reduces by a gear;

If the described touch control gesture recognized is upper skating gesture, then the amplitude of the waveform shown in the viewing area to place, described touch area increases a gear;

If the described touch control gesture recognized is right skating gesture, then the walking speed of the waveform shown in the viewing area to place, described touch area increases a gear;

If the described touch control gesture recognized is left skating gesture, then the walking speed of the waveform shown in the viewing area to place, described touch area reduces by a gear.

4. the method according to any one of claims 1 to 3, it is characterized in that, the touch area that described described touch control gesture based on recognizing and described multi-point touch instruction touch, correspondingly interface adjustment is carried out to the viewing area at place, described touch area, comprises before:

If the touch area that described multi-point touch instruction touches lays respectively in the viewing area of different wave, then, judge whether each waveform that described touch area shows can superpose;

If judge, each waveform described cannot superpose, then export not stackable information, so that each waveform is not stackable described in indicating user;

The touch area that described described touch control gesture based on recognizing and described multi-point touch instruction touch, correspondingly interface adjustment is carried out to the viewing area at place, described touch area, comprise: if the touch area that described multi-point touch instruction touches lays respectively in the viewing area of different wave, and judge that each waveform described can superpose, then, based on the superposition display mode corresponding with the touch control gesture recognized preset, each addition of waveforms described is presented in same viewing area.

5. method according to claim 4, is characterized in that, the described superposition display mode corresponding with the touch control gesture recognized based on presetting, is presented at each addition of waveforms described in same viewing area, comprises:

Based on the superposition display mode corresponding with the touch control gesture recognized preset, difference is done to each waveform described, and show the difference of each waveform described in real time in described same viewing area;

Or, based on the superposition display mode corresponding with the touch control gesture recognized preset, will each waveform described according to countershaft Overlapping display while of same isobase in described same viewing area;

Or, based on the superposition display mode corresponding with the touch control gesture recognized preset, the amplitude that each waveform described carries out same time shaft is summed into a synthetic waveform, in described same viewing area, shows described synthetic waveform.

6. be applied to an interface adjusting gear for patient monitor, it is characterized in that, comprising:

Monitoring means, for monitoring the touch command of input patient monitor;

Recognition unit, when being multi-point touch instruction for monitoring when described monitoring means the touch command inputting described patient monitor, identifies the touch control gesture that described multi-point touch instruction is corresponding;

Adjustment unit, for the touch area that the touch control gesture that recognizes based on described recognition unit and described multi-point touch instruction are touched, carries out correspondingly interface adjustment to the viewing area at place, described touch area.

7. interface according to claim 6 adjusting gear, is characterized in that, described adjustment unit comprises:

First sub-adjustment unit, for: when the touch area that described multi-point touch instruction touches is positioned at the viewing area of same waveform, based on the touch area that the described touch control gesture recognized and described multi-point touch instruction are touched, the waveform shown in the viewing area to place, described touch area correspondingly adjusts.

8. interface according to claim 7 adjusting gear, it is characterized in that, described first sub-adjustment unit specifically for: when the described touch control gesture that described recognition unit recognizes is downslide gesture, the amplitude of the waveform shown in the viewing area to place, described touch area reduces by a gear; When the described touch control gesture that described recognition unit recognizes is upper skating gesture, the amplitude of the waveform shown in the viewing area to place, described touch area increases a gear; When the described touch control gesture that described recognition unit recognizes is right skating gesture, the walking speed of the waveform shown in the viewing area to place, described touch area increases a gear; When the described touch control gesture that described recognition unit recognizes is left skating gesture, the walking speed of the waveform shown in the viewing area to place, described touch area reduces by a gear.

9. the interface adjusting gear according to any one of claim 6 to 8, is characterized in that, described interface adjusting gear also comprises:

Judging unit, for when the touch area that described multi-point touch instruction touches lays respectively in the viewing area of different wave, judges whether each waveform that described touch area shows can superpose;

Tip element, during for judging that when described judging unit each waveform described cannot superpose, exports not stackable information, so that each waveform is not stackable described in indicating user;

Described adjustment unit also comprises:

Second sub-adjustment unit, touch area for touching when described multi-point touch instruction lays respectively in the viewing area of different wave, and described judging unit is when judging that each waveform described can superpose, based on the superposition display mode corresponding with the touch control gesture recognized preset, each addition of waveforms described is presented in same viewing area.

10. interface according to claim 9 adjusting gear, it is characterized in that, described second sub-adjustment unit specifically for: the touch area touched when described multi-point touch instruction lays respectively in the viewing area of different wave, and described judging unit is when judging that each waveform described can superpose, based on the superposition display mode corresponding with the touch control gesture recognized preset, difference is done to each waveform described, and show the difference of each waveform described in real time in described same viewing area; Or, the touch area touched when described multi-point touch instruction lays respectively in the viewing area of different wave, and described judging unit is when judging that each waveform described can superpose, based on the superposition display mode corresponding with the touch control gesture recognized preset, will each waveform described according to countershaft Overlapping display while of same isobase in described same viewing area; Or, the touch area touched when described multi-point touch instruction lays respectively in the viewing area of different wave, and described judging unit is when judging that each waveform described can superpose, based on the superposition display mode corresponding with the touch control gesture recognized preset, the amplitude that each waveform described carries out same time shaft is summed into a synthetic waveform, in described same viewing area, shows described synthetic waveform.