CN113035344B - Emergency treatment false touch prevention method, device and system - Google Patents

Abstract

The invention discloses a method, a device and a system for preventing false touch in emergency treatment, which comprise the following steps: an emergency treatment trigger unit which displays an emergency treatment identifier which can be operated; the time delay unit is used for timing the trigger duration when the emergency treatment event is triggered; the emergency treatment confirming unit generates and displays an emergency treatment warning when the trigger duration reaches a delay threshold value, and simultaneously displays an operable emergency treatment confirming identifier; a communication unit for outputting an emergency treatment signal to control the medical device to perform treatment when the emergency treatment event is confirmed; the position optimization unit is used for considering the emergency treatment triggering as false touch when the triggering duration time does not reach the delay threshold, generating a recommended display position of the emergency treatment identifier according to the false touch information and displaying the recommended display position when the number of false touches reaches the false touch threshold; and the position adjusting unit moves the emergency treatment identifier to a new position according to the new position determined by the recommended display position. So as to realize accurate false touch prevention emergency treatment.

Description

Emergency treatment false touch prevention method, device and system

Technical Field

The invention belongs to the technical field of medical equipment, and particularly relates to an emergency treatment false touch prevention method, device and system.

Background

Implantable devices such as cardiac pacemakers, implantable cardioverter-defibrillators (ICDs), Cardiac Resynchronization Therapy (CRT), and the like, are small, active medical devices that can be implanted in the chest or abdomen of a patient. After the implantable device is implanted into a human body, a doctor uses a program controller to realize the setting and monitoring of the implantable device and the data monitoring of a patient; the program control instrument is communicated with the process control head or other wireless communication modules of the implanted equipment to carry out data interaction.

When a doctor uses a program-controlled instrument to follow up a patient, the patient may have some emergencies, and emergency treatment is needed. Thus, emergency treatment triggering is a necessary function of the program controller. When the patient is suddenly uncomfortable in the follow-up visit process, the doctor can control the implantable device to carry out emergency treatment on the patient by controlling and operating the program-controlled instrument and starting the emergency treatment triggering mechanism.

In the prior art, the program-controlled instrument emergency treatment comprises two operation modes of hardware and software. The hardware mode is that a mechanical key is arranged on the program control instrument, and a doctor presses the corresponding mechanical key to trigger when in need of treatment. Although this mechanism has good responsiveness, it has a high requirement for machine design, and it is necessary to consider various aspects such as safety, reliability, long life, and prevention of erroneous touch when designing a hardware system. Meanwhile, under the trend that program controllers tend to move and be portable, enough space cannot be provided on the machine body for placing mechanical keys.

The software mode is that an emergency treatment button is put on the program control instrument software, and a doctor presses the corresponding button to trigger when treatment is needed. The software mode is out of human factors engineering factor and the design of preventing mistake and touching, and the position that the button shows is generally all fixed and is put in screen corner, prevents mistake and touches the effect poor, simultaneously, can't study the display position of adjustment button according to user's custom, lacks the flexibility.

Patent application publication No. CN110721408A discloses a program control instrument and an emergency treatment triggering system, and patent application publication No. CN111407265A discloses a program control instrument and an emergency treatment triggering system. In the two technical schemes, a software mode is adopted for triggering emergency treatment, but the emergency treatment cannot realize false touch prevention.

Disclosure of Invention

In view of the above, embodiments of the present invention provide a method, an apparatus, and a system for preventing false touch in emergency treatment, so as to achieve accurate false touch prevention in emergency treatment.

In a first aspect, an embodiment of the present invention provides an emergency treatment device for preventing accidental touch, including:

an emergency treatment triggering unit for displaying an emergency treatment identifier that can be operated;

the time delay unit is used for carrying out trigger duration timing when the emergency treatment event is triggered by operating the emergency treatment identifier;

the emergency treatment confirming unit is used for activating the emergency treatment event to generate and display an emergency treatment warning when the trigger duration reaches a delay threshold value, and simultaneously displaying an operable emergency treatment confirming identifier;

a communication unit for outputting an emergency treatment signal to control the medical device to perform treatment when the emergency treatment event is confirmed by the emergency treatment confirmation flag;

the position optimization unit is used for considering that the emergency treatment trigger is a false touch when the trigger duration does not reach the delay threshold, generating a recommended display position of the emergency treatment identifier according to the false touch information when the number of false touches reaches the false touch threshold, and displaying the recommended display position;

and the position adjusting unit is used for moving the emergency treatment identifier to a new position according to the new position determined by the recommended display position.

In one embodiment, the location optimization unit has a false touch counting function, and the number of false touch emergency treatment events with the trigger duration not reaching the delay threshold is accumulated to determine the number of false touches.

In one embodiment, the position optimization unit executes the false touch accumulated count to determine the accumulated number of false touches when determining that the number of false touches does not reach the false touch threshold.

In one embodiment, the position optimization unit, wherein generating the recommended display position of the emergency treatment identifier according to the false touch information includes:

and determining a position recommendation model by using the number of false touches and the current display position contained in the false touch information as a sample pair in a machine learning manner, and performing position regression on the false touch information according to the position recommendation model to generate a recommended display position.

In one embodiment, the new position determined according to the recommended display position in the position adjusting unit includes:

and determining a new position in the threshold area with the recommended display position as the center, or taking the recommended display position as the new position.

In one embodiment, the delay threshold is 2-10 seconds, the step is 0.1 second, and the false touch threshold is 5-30 times.

In a second aspect, an embodiment of the present invention provides a method for emergency treatment of false touch, where the method for emergency treatment of false touch adopts the apparatus for emergency treatment of false touch provided in the first aspect, and the method for emergency treatment of false touch includes the following steps:

triggering an emergency treatment event by emergency treatment of the emergency treatment triggering unit;

utilizing a delay unit to time the trigger duration when triggering the emergency treatment event;

when the trigger duration reaches the delay threshold value by using the emergency treatment confirmation unit, the emergency treatment event is activated to generate and display an emergency treatment warning, and an operable emergency treatment confirmation identifier is displayed at the same time;

confirming the emergency treatment event through the emergency treatment confirmation mark of the emergency treatment confirmation unit;

outputting an emergency treatment signal to control the medical device to perform treatment when the emergency treatment event is confirmed by using the communication unit;

when the trigger duration time does not reach the delay threshold value and the number of times of mistaken touch reaches the mistaken touch threshold value, a position optimization unit is utilized to generate a recommended display position of the emergency treatment identifier according to the mistaken touch information and display the recommended display position at the same time;

and moving the emergency treatment identifier to a new position according to the new position determined by the recommended display position by using the position adjusting unit.

In one embodiment, the method further comprises: and performing false touch counting by using a position optimization unit, namely accumulating the number of the emergency treatment events of which the trigger duration does not reach the delay threshold so as to determine the number of false touches.

In one embodiment, generating the recommended display position of the emergency treatment identifier according to the false touch information by using the position optimization unit comprises:

and determining a position recommendation model by using the number of false touches and the current display position contained in the false touch information as a sample pair in a machine learning manner, and performing position regression on the false touch information according to the position recommendation model to generate a recommended display position.

In a third aspect, a false touch prevention emergency treatment system comprises an implantable medical device, a program control head and a program control instrument, wherein the implantable medical device is in communication connection with the program control instrument through the process control head, and the program control instrument comprises the false touch prevention emergency treatment device provided by the first aspect;

the program-controlled instrument realizes the false touch prevention emergency treatment method provided by the second aspect by using the false touch prevention emergency treatment device provided by the first aspect, and outputs an emergency treatment signal to the implanted medical equipment to start treatment.

According to the emergency treatment false touch prevention method, the emergency treatment false touch prevention device and the emergency treatment false touch prevention system, a pure software control mode is adopted, the delay timing function of the delay unit, the secondary doctor confirmation function of the emergency treatment confirmation unit and the emergency treatment identification display position adjustment function of the position optimization unit and the position adjustment unit are combined, the three functions simultaneously act to achieve false touch prevention, and the accuracy of emergency treatment is improved. Meanwhile, the delay threshold and the false touch threshold can be set individually according to the use habit, so that the implementation is convenient, and the flexibility is good.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a block diagram of an embodiment of a false touch prevention emergency treatment device;

FIG. 2 is a schematic flow chart of a method for preventing accidental touch emergency treatment according to one embodiment;

FIG. 3 is a block diagram of the anti-false touch emergency treatment system in one embodiment;

fig. 4 is a schematic flow chart illustrating the use of the false touch prevention emergency treatment system in one embodiment.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be further described in detail with reference to the accompanying drawings and examples. It should be understood that the detailed description and specific examples, while indicating the scope of the invention, are intended for purposes of illustration only and are not intended to limit the scope of the invention.

The emergency treatment trigger is the essential function of the program control instrument. When the patient is suddenly uncomfortable in the follow-up visit process, the doctor can control the implantable device to carry out emergency treatment on the patient by controlling and operating the program-controlled instrument and starting the emergency treatment triggering mechanism. The emergency treatment identification displayed on the program controller display is in the form of a software control, the sensitivity is higher, the condition of mistaken touch can occur due to human factors in the using process, and when emergency treatment is realized by mistaken touch, certain damage can be caused to a patient, so that the realization of the mistaken touch prevention emergency treatment is very necessary, and the improvement of the accuracy of the mistaken touch prevention emergency treatment is more important. Therefore, the portable programmable controller solves the problems that the body cannot provide enough space for accommodating a mechanical key due to the increasing movement and portability of the programmable controller, and the emergency treatment function cannot be realized in a hardware mode. Meanwhile, the problems that the conventional software mode for realizing the emergency treatment function cannot move due to fixed button positions, and is poor in flexibility and false touch prevention precision are solved.

Fig. 1 is a block diagram of the structure of an emergency treatment device for preventing accidental touch in one embodiment. As shown in fig. 1, the embodiment provides a false touch prevention emergency treatment device 100 including: an emergency treatment triggering unit 110, a time delay unit 120, an emergency treatment confirmation unit 130, a communication unit 140, a position optimization unit 150, and a position adjustment unit 160.

The emergency treatment triggering unit 110 is configured to display an emergency treatment identifier that can be operated. Wherein, the emergency treatment identifier is set on the display screen as a prompt sign capable of generating an emergency treatment triggering event, and can be selected, and when the emergency treatment identifier is selected, the emergency treatment triggering unit 100 will trigger the emergency treatment event.

The delay unit 120 is used to time the trigger duration when an emergency treatment event is triggered by operating the emergency treatment flag. In order to realize the false touch judgment of the emergency treatment identifier, trigger duration statistics is carried out on the emergency treatment event triggered by operating the emergency treatment identifier, when the trigger duration reaches a set delay threshold, the triggered emergency treatment event is considered to be a valid event, otherwise, the triggered emergency treatment event is an invalid event generated by false touch, and when the triggered emergency treatment event is the invalid event, the emergency treatment event is stopped. When the event is a valid event, an emergency treatment confirmation process is entered.

The delay threshold is used as a basis for judging whether the emergency treatment event is an ineffective event or an effective event, and can be set to be 2-10 seconds according to the use condition of the user and the application scene program control of the user, and the step is adjusted to be 0.1 second, preferably to be 3 seconds.

The emergency treatment confirmation unit 130 is configured to activate the emergency treatment event to generate and display an emergency treatment alert when the trigger duration reaches the delay threshold, and to display an emergency treatment confirmation identifier that can be operated. When the trigger duration timed by the delay unit 120 reaches the delay threshold, the emergency treatment event generated by the trigger is considered to be an effective event, the emergency treatment event is activated at this time, and then an emergency treatment alert for reminding a doctor to confirm the emergency treatment event is generated, wherein the emergency treatment alert may be a section of alert statement or a section of alert identifier, and is displayed on the display screen. An emergency treatment confirmation flag is also generated for receiving the confirmation signal when the emergency treatment alert is generated, and when the emergency treatment confirmation flag is selected, the emergency treatment event confirmation signal from the doctor is considered to be received, and the emergency treatment event confirmation signal serves as a trigger signal for outputting the emergency treatment signal.

In one embodiment, the emergency treatment confirmation mark may be another emergency treatment confirmation mark which is independent of the emergency treatment warning and is displayed on the display screen, and may be a symbol formed by color and/or shape. Of course, the emergency treatment confirmation identifier may also be combined with the emergency treatment alert, that is, the generated and displayed emergency treatment alert has operability, and at this time, the emergency treatment alert is directly used as the emergency treatment confirmation identifier, and confirmation of the emergency treatment event is realized by selecting the emergency treatment alert.

The communication unit 140 is used to output an emergency treatment signal to control the medical device to perform treatment when the emergency treatment event is confirmed by the emergency treatment confirmation flag. The communication unit 140 realizes communication between the anti-false touch emergency treatment device 100 and the medical equipment, and outputs an emergency treatment signal when the emergency treatment event is confirmed by the emergency treatment confirmation mark, wherein the emergency treatment signal is used as a trigger signal of the medical equipment to trigger the medical equipment to start an emergency treatment program to implement treatment. In the same embodiment, the communication unit 140 may implement communication by using a cellular network, a local area network, a USB, and other communication methods.

The position optimization unit 150 is configured to consider that the emergency treatment trigger is a false touch when the trigger duration does not reach the delay threshold, generate a recommended display position of the emergency treatment identifier according to the false touch information when the number of false touches reaches the false touch threshold, and display the recommended display position at the same time.

In order to more accurately realize the false touch prevention, the location optimization unit 150 provided by the embodiment has a function of optimizing the location of the emergency treatment identifier according to the user habit data. In the embodiment, whether the emergency treatment triggering event is mistaken touch is judged according to the delay threshold, and when the triggering duration does not reach the delay threshold, the emergency treatment triggering event is considered as an invalid event, and the false touch is judged. In the embodiment, the false touch frequency is also used as a precondition for judging whether to optimize the position of the emergency treatment identifier, and the position of the emergency treatment identifier is optimized only when the accumulated number of false touches reaches a false touch threshold.

The error threshold is used as a judgment basis for whether to perform emergency treatment identifier optimization, and may be set to 5 to 30 times according to the use condition of the user and the application scenario program control where the user is located, and the step is adjusted to 1 time, preferably, may be set to 10 times. The accumulated number of false touches may be an accumulated number of false touches within a set investigation period, for example, an accumulated number of false touches within 3 months, or may be a historical accumulated number of false touches, that is, an accumulated number of false touches from the start of use to the current time.

In one embodiment, the location optimization unit has a false touch counting function, and counts the number of emergency treatment events of which the trigger duration does not reach the delay threshold value to determine the number of false touches. In an embodiment, in order to realize the accumulation of the number of false touches, the number of emergency treatment events of which the trigger duration does not reach the delay threshold may be directly used as the number of false touches, or the number of emergency treatment events of which the trigger duration does not reach the delay threshold may be calculated according to a certain proportion.

In one embodiment, the position optimization unit executes a false touch accumulated count to determine the accumulated number of false touches when determining that the number of false touches does not reach the false touch threshold. After the cumulative count of false touches, the emergency treatment event is terminated.

In one embodiment, generating the recommended display position of the emergency treatment identifier according to the false touch information comprises: and determining a position recommendation model by using the number of false touches and the current display position contained in the false touch information as a sample pair in a machine learning manner, and performing position regression on the false touch information according to the position recommendation model to generate a recommended display position.

In the embodiment, the use habit is learned by adopting a machine learning mode according to the false touch information and the display position, and the recommended display position for avoiding the use habit is regressed logically according to the use habit. During machine learning, the mistaken touch information can be used as input sample data, the corresponding display position is used as label data, and the position recommendation model is determined by adopting supervised learning. Of course, the false touch information and the display position can be simultaneously used as input sample data, and unsupervised learning is adopted to carry out logistic regression so as to determine the position recommendation model. When the position recommendation model is applied, the position regression is carried out according to the input error information, a recommendation display position is generated and output and displayed on a display screen.

The position adjusting unit 160 is configured to move the emergency treatment identifier to a new position according to the new position determined by the recommended display position. When the recommended display position is generated, the emergency treatment identifier may be moved to a new position after determining a new position capable of reducing user touch according to the recommended display position.

In one embodiment, the new position determined from the recommended display position includes: and determining a new position in the threshold area with the recommended display position as the center, or taking the recommended display position as the new position. The position adjusting unit may randomly generate a new position within a threshold area, based on the threshold range, for example, a circular area within a threshold radius centered on the recommended display position as the threshold area, where the threshold area generally does not include the original position of the emergency treatment identifier. Currently, the recommended display position may also be directly used as the new position. The emergency treatment identifier may be moved to the new location after the new location is determined.

According to the emergency treatment false touch prevention method, a pure software control mode is adopted, and the delay timing function of the delay unit, the secondary doctor confirmation function of the emergency treatment confirmation unit and the emergency treatment identification display position adjustment function of the position optimization unit and the position adjustment unit are combined, so that false touch prevention is realized, and the accuracy of emergency treatment is improved. Meanwhile, the delay threshold and the false touch threshold can be set individually according to the use habit, so that the implementation is convenient, and the flexibility is good.

Fig. 2 is a schematic flow chart of a false touch prevention emergency treatment method in one embodiment. As shown in fig. 2, the embodiment provides a false touch prevention emergency treatment method, which adopts the false touch prevention emergency treatment device, and specifically includes the following steps:

s201, triggering an emergency treatment event through emergency treatment of an emergency treatment triggering unit;

s202, a time delay unit is utilized to carry out trigger duration timing when an emergency treatment event is triggered;

s203, when the trigger duration reaches the delay threshold value by using the emergency treatment confirmation unit, generating and displaying an emergency treatment warning, and simultaneously displaying an operable emergency treatment confirmation identifier;

s204, the emergency treatment event is confirmed through the emergency treatment confirmation mark of the emergency treatment confirmation unit;

s205, outputting an emergency treatment signal to control the medical equipment to carry out treatment when the emergency treatment event is confirmed by utilizing the communication unit;

s206, when the trigger duration time does not reach the delay threshold value and the number of mistaken touches reaches the mistaken touch threshold value, generating a recommended display position of the emergency treatment identifier according to the mistaken touch information by using the position optimization unit, and displaying the recommended display position at the same time;

and S207, moving the emergency treatment identifier to a new position according to the new position determined by the recommended display position by using the position adjusting unit.

In one embodiment, the method for preventing the emergency treatment of the false touch further comprises: and (4) carrying out false touch counting by using a position optimization unit, namely accumulating the number of false touch emergency treatment events of which the trigger duration does not reach a delay threshold so as to determine the number of false touches.

In one embodiment, generating the recommended display position of the emergency treatment identifier according to the false touch information by using the position optimization unit comprises:

and determining a position recommendation model by taking the number of false touches and the current display position contained in the false touch information as a sample pair in a machine learning manner, and performing position regression on the false touch information according to the position recommendation model to generate a recommended display position.

It should be noted that the false touch prevention emergency treatment method and the false touch prevention emergency treatment device provided by the embodiment belong to the same inventive concept. The false touch prevention emergency treatment method provided by the embodiment is realized by using each unit in the false touch prevention emergency treatment device when performing false touch prevention emergency treatment, and the specific implementation process is detailed in the embodiment of the false touch prevention emergency treatment device and is not described herein again.

Fig. 3 is a block diagram of the false touch prevention emergency treatment system in one embodiment. As shown in fig. 3, the anti-false touch emergency treatment system provided by the embodiment includes an implantable medical device 310, and a programmer 320 communicatively coupled to the implantable medical device, wherein the programmer 320 can perform data interaction with the implantable medical device 310 through a communication-enabled programmer head 330.

Implantable medical device 310 is particularly directed to cardiac rhythm management-type devices, and generally includes: cardiac pacemakers, Implantable Cardioverter Defibrillators (ICDs), and Cardiac Resynchronization Therapy (CRT). The cardiac pacemaker is used for a pulse generator for cardiac pacing control, and delivers pacing pulse stimulation to the heart through an electrode lead connected with the cardiac pacemaker and senses the electrical signal of the heart. An ICD is a pacemaker that can correct heart rate or rhythm and prevent sudden death. It can sense the abnormal rhythm of heart, and can make cardioversion, defibrillation and pacing so as to correct malignant ventricular arrhythmia which can easily result in sudden death. CRTs are classified into cardiac resynchronization pacemakers (CRT-P), i.e., three-chamber pacemakers, and cardiac resynchronization defibrillators (CRT-D), i.e., three-chamber defibrillators. The CRT-P has the function of pacing the left ventricle and the right ventricle simultaneously besides pacing the right atrium, and can effectively improve the life quality of the heart failure patients with asynchronization of the left ventricle and the right ventricle. CRT-D has not only the function of improving the synchronism of the heart contraction but also the function of defibrillation, and it can recognize the life threatening malignant ventricular arrhythmia in time and deliver the corresponding treatment to avoid sudden death.

The programming head 330 is wirelessly coupled to the implantable medical device 310 to provide a transmission path for data interaction between the programmer 320 and the implantable medical device 310. The programmer 320 communicates with the implantable medical device 310 through the programming head 330 to implement parameter setting, monitoring and patient data monitoring of the implantable medical device 310, wherein the set parameters include a delay threshold, a false touch threshold, and the like; meanwhile, data exchange can be carried out with organizations such as manufacturers, hospitals and the like through a wired/wireless network; in addition, data can also be transmitted to the user management/service device;

in the provided anti-false touch emergency treatment system, the program controller 320 includes the anti-false touch emergency treatment device 100 provided by the foregoing embodiment. Specifically, an emergency treatment identifier, an emergency treatment alert, and an emergency treatment confirmation identifier are displayed on the display of the programmer 320. The program controller 320 implements the above-mentioned false touch prevention emergency treatment method by using the above-mentioned false touch prevention emergency treatment apparatus 100, and outputs an emergency treatment signal to the implantable medical device 310 to start treatment.

In the embodiment of the anti-false touch emergency treatment system 300, the programmer 320 initiates the search for the implantable medical device 310 through the programmer 330, and the implantable medical device 310 establishes a communication link in response to the programmer 330. When a doctor needs an emergency treatment function during follow-up, the doctor activates and triggers the emergency treatment identifier after reaching a preset delay by pressing the emergency treatment identifier displayed on the program-controlled instrument 320 for a long time, so as to generate an effective emergency treatment event, generates an emergency treatment triggering alarm after the emergency treatment identifier is triggered, and sends an emergency treatment signal to the implanted medical equipment 310 after the triggering alarm is confirmed by the doctor. The implantable medical device 310 receives the emergency treatment signal and initiates a treatment procedure.

Fig. 4 is a schematic flow chart illustrating the use of the false touch prevention emergency treatment system in one embodiment. As shown in fig. 4, the use process of the false touch prevention emergency treatment system provided by the embodiment is as follows:

s401, after the program control instrument is started, a doctor calls out a software interface of the program control instrument.

S402, displaying an emergency treatment identifier on the interface.

S403, when the emergency treatment mark is pressed down, timing is started, otherwise, the emergency treatment mark is displayed on the interface

And (5) treatment identification.

And S404, when the pressing time reaches a preset delay threshold, sending out an emergency treatment event activation signal to be triggered. Otherwise, counting is started.

S405, when the number of times of false touch reaches a preset false touch threshold value, the program controller software prompts the recommended user to move the emergency treatment identifier to a recommended display position according to user habit learning, otherwise, the count is increased by 1, and the interface displays the emergency treatment identifier.

And S406, when the emergency treatment identifier is triggered, the program-controlled instrument sends out an emergency treatment triggering warning.

And S407, when the doctor secondarily confirms the emergency treatment triggering event, the program-controlled instrument sends an emergency treatment signal to the implanted medical equipment. Otherwise, the emergency mark is displayed on the interface.

And S408, the implantable medical device receives the emergency treatment signal and starts a treatment program.

The embodiment provides a prevent mistake and touch urgent treatment system, has overcome programme-controlled appearance and has leaded to the organism to provide the not enough space and hold the machinery button because of moving the portability day by day, relies on pure software mode, triggers through the time delay control and the accurate realization of the dual affirmation mechanism of doctor secondary affirmation prevents mistake and touches, possesses the preferred recommendation function of user's custom study + position simultaneously, implements conveniently, and the flexibility is good.

The above-mentioned embodiments are intended to illustrate the technical solutions and advantages of the present invention, and it should be understood that the above-mentioned embodiments are only the most preferred embodiments of the present invention, and are not intended to limit the present invention, and any modifications, additions, equivalents, etc. made within the scope of the principles of the present invention should be included in the scope of the present invention.

Claims (10)

1. An emergency treatment device for preventing accidental touch comprises an emergency treatment trigger unit for displaying an emergency treatment identifier which can be operated; it is characterized by also comprising:

the time delay unit is used for carrying out trigger duration timing when the emergency treatment event is triggered by operating the emergency treatment identifier;

the emergency treatment confirming unit is used for activating the emergency treatment event to generate and display an emergency treatment warning when the trigger duration reaches a delay threshold value, and simultaneously displaying an operable emergency treatment confirming identifier;

a communication unit for outputting an emergency treatment signal to control the medical device to perform a treatment when the emergency treatment event is confirmed by the emergency treatment confirmation flag;

the position optimization unit is used for considering the emergency treatment triggering as false touch when the triggering duration time does not reach the delay threshold, generating a recommended display position of the emergency treatment identifier according to the false touch information when the number of false touches reaches the false touch threshold, and displaying the recommended display position;

and the position adjusting unit is used for moving the emergency treatment identifier to a new position according to the new position determined by the recommended display position.

2. The apparatus according to claim 1, wherein the position optimization unit has a false touch counting function for counting the number of the emergency treatment events whose trigger duration does not reach the delay threshold to determine the number of false touches.

3. The apparatus according to claim 2, wherein the position optimizing unit performs a false touch count to determine the accumulated number of false touches when it is determined that the number of false touches does not reach the false touch threshold.

4. The apparatus according to claim 1, wherein the position optimization unit generates the recommended display position of the emergency treatment identifier based on the false touch information includes:

and determining a position recommendation model by using the number of false touches and the current display position contained in the false touch information as a sample pair in a machine learning manner, and performing position regression on the false touch information according to the position recommendation model to generate a recommended display position.

5. The apparatus according to claim 1, wherein the position adjustment unit determines the new position based on the recommended display position by including:

and determining a new position in the threshold area with the recommendation display position as the center, or taking the recommendation display position as the new position.

6. The anti-false touch emergency treatment device according to claim 1, wherein the delay threshold is 2-10 seconds, and the false touch threshold is 5-30 times.

7. An anti-false touch emergency treatment method, characterized in that the anti-false touch emergency treatment method adopts the anti-false touch emergency treatment device of any one of claims 1 to 6, and the anti-false touch emergency treatment method comprises the following steps:

triggering an emergency treatment event by emergency treatment of the emergency treatment triggering unit;

utilizing a delay unit to time the trigger duration when triggering the emergency treatment event;

when the trigger duration reaches the delay threshold value by using the emergency treatment confirmation unit, the emergency treatment event is activated to generate and display an emergency treatment warning, and an operable emergency treatment confirmation identifier is displayed at the same time;

confirming the emergency treatment event through the emergency treatment confirmation identification of the emergency treatment confirmation unit;

outputting an emergency treatment signal to control the medical device to perform treatment when the emergency treatment event is confirmed by using the communication unit;

when the trigger duration time does not reach the delay threshold value and the number of times of mistaken touch reaches the mistaken touch threshold value, generating a recommended display position of the emergency treatment identifier according to the mistaken touch information by using a position optimization unit, and displaying the recommended display position at the same time;

and moving the emergency treatment identifier to a new position according to the new position determined by the recommended display position by using the position adjusting unit.

8. The method of false touch prevention emergency treatment of claim 7, further comprising: and (4) carrying out false touch counting by using a position optimization unit, namely accumulating the number of false touch emergency treatment events of which the trigger duration does not reach a delay threshold so as to determine the number of false touches.

9. The method of claim 7, wherein generating the recommended display position of the emergency treatment identifier from the false touch information using the position optimization unit comprises:

and determining a position recommendation model by using the number of false touches and the current display position contained in the false touch information as a sample pair in a machine learning manner, and performing position regression on the false touch information according to the position recommendation model to generate a recommended display position.

10. An emergency treatment system for preventing false touch comprises an implantable medical device, a program control head and a program control instrument, wherein the implantable medical device is in communication connection with the program control instrument through the process control head, and is characterized in that the program control instrument comprises the emergency treatment device for preventing false touch according to any one of claims 1-6;

the program-controlled instrument uses the false touch prevention emergency treatment device of any one of claims 1 to 6 to realize the false touch prevention emergency treatment method of any one of claims 7 to 9, and outputs an emergency treatment signal to the implanted medical equipment to start treatment.

Images