TWI789747B - First aid training system utilizing augmented reality - Google Patents

Abstract

The invention discloses a first aid traning system utilizing augmented reality including an interactive mannequin and a portable data processing apparatus. The interactive mannequin includes a casing, a plurality of sensors, a first wireless signal transmission module and a controller. The portable data processing apparatus includes an imagec capaturing module, a display, a data storage module, a second wireless signal transmission module and at least one processors. When a user operates the interactive mannequin and selectively operates the plurality of sensors, the controller receives a sensed signal sent by the plurality of sensors and forwards the sensed signal to the at least one processor. The at least one processor executes a first aid training application to generate a training evaluation information in accordance with the sensed signal and an assigned symptom information.

Description

First aid training system using augmented reality

The present invention relates to a first aid training system, and more particularly to a first aid training system utilizing augmented reality and an interactive manikin.

"First aid", as the name suggests, is to help people in need of help in emergencies. The definition of first aid is that when a person suffers an accident injury or a sudden disease, when the medical equipment is insufficient, before the medical rescue personnel arrive, the immediate temporary emergency rescue measures are given at the scene of the injury, and the life-threatening medical treatment is provided. people, get the needed life rescue, avoid missing precious rescue moments, and reduce the occurrence of regrets.

Most of the current first aid training needs to rely on mannequins to proceed smoothly. The most common manikin used for first aid training is the Resuscitation Anne or CPR Anne. However, currently available manikins for first aid training can only assist in first aid training for a single type of symptom. Moreover, the operation of the trainers cannot be statistically recorded and quantified by the electronic system, so that it is impossible to give the trainers evaluation information on the operation.

In addition, not only infants and young children who cannot yet express themselves with words, but even adults are mostly unable to express themselves in words when encountering emergency situations. When encountering a situation that requires first aid, the rescuer must judge the individual case situation according to the various symptoms of the person to be rescued at that time, so as to give the correct first aid treatment. If the rescuer makes a wrong judgment, he will also miss precious rescue moments and cause regrets. Therefore, in the first aid training, it is a very important course for rescuers to be familiar with the various symptoms of the individual cases in need of first aid. Especially in first aid training, the facial expressions and complexion of the person to be rescued are important information for judging the situation of a case. However, the current mannequins used for first aid training cannot present facial expressions and facial expressions for emergency symptoms.

Therefore, one technical problem to be solved by the present invention is to provide a first aid training system using augmented reality.

According to a preferred embodiment of the present invention, the first aid training system using augmented reality includes an interactive human body model and a portable data processing device. The interactive human body model includes a model shell, a plurality of sensors, a first wireless signal transmission module and a controller. The model shell has a face. A plurality of sensors are respectively arranged on the model casing. The first wireless signal transmission module is arranged in the model casing. The controller is arranged in the model casing and is electrically connected to a plurality of sensors and the first wireless signal transmission module. The portable data processing device includes an image capture module, a display, a data storage module, a second wireless signal transmission module and at least one processor. The data storage module stores the first aid training application program and a plurality of predetermined symptom information. At least one processor is electrically connected to the image capture module, the display, the data storage module and the second wireless signal transmission module respectively. The user operates the portable data processing device to execute the first aid training application program through at least one processor, and captures the original image about the model shell through the image capture module. At least one processor executes the first aid training application program and receives trigger information, and selects selected symptom information from a plurality of predetermined symptom information according to the trigger information. At least one processor executes the first aid training application program and generates a selected symptom expression image according to the selected symptom information, and synthesizes the selected symptom expression image and the original image into a current image, and displays the current image on the display. When the user operates the interactive human body model and selectively operates a plurality of sensors, the controller receives sensing signals sent by the plurality of sensors, and sends the sensing signals through the first wireless signal transmission module. At least one processor receives the sensing signal through the second wireless signal transmission module, and generates training evaluation information according to the sensing signal and selected symptom information.

In one embodiment, the original image includes a facial image. At least one processor executes the first aid training application program to superimpose the selected symptom expression image on the face image of the original image to synthesize the current image.

In a specific embodiment, the plurality of sensors may include at least one touch sensor, at least one pressure sensor, and at least one gesture sensor.

Further, the first aid training system utilizing augmented reality according to a preferred embodiment of the present invention further includes at least one temperature regulating element. At least one temperature regulating element is respectively arranged on the model housing and electrically connected to the controller. At least one processor sends selected symptom information through the second wireless signal transmission module. The controller receives the selected symptom information through the first wireless signal transmission module, and selectively controls the individual temperature generated by each temperature regulating element in the at least one temperature regulating element according to the selected symptom information.

Further, the first aid training system using augmented reality according to a preferred embodiment of the present invention further includes at least one activation element. At least one actuating element is respectively arranged on the model housing and electrically connected to the controller. At least one processor sends selected symptom information through the second wireless signal transmission module. The controller receives selected symptom information through the first wireless signal transmission module, and selectively controls individual movements generated by each of the at least one actuating element according to the selected symptom information.

Further, the first aid training system using augmented reality according to a preferred embodiment of the present invention also includes a pump and a pipeline. The face of the model shell has two nostrils. The pump is arranged in the model housing and electrically connected to the controller. Tubing is connected between the pump and both nostrils. At least one processor sends selected symptom information through the second wireless signal transmission module. The controller receives selected symptom information through the first wireless signal transmission module, and selectively controls the pump to inhale or deliver air through the pipeline and the two nostrils according to the selected symptom information.

Further, the first aid training system utilizing augmented reality according to a preferred embodiment of the present invention further includes an identification tag. The identification label is attached to the model shell. At least one processor executes the first aid training application program to capture the recognition image related to the recognition tag through the image capture module, and interprets the recognition image into trigger information.

In a specific embodiment, the identification label may be a pattern label, a one-dimensional barcode label or a two-dimensional barcode label, and the like.

In a specific embodiment, the first wireless signal transmission module transmits the pressure signal and the switch signal through a wireless communication protocol. The wireless communication protocol can be Wi-Fi protocol, WiMAX protocol, IEEE 802.11-based protocols (IEEE 802.11-based protocols), 3G network protocol, 4G network protocol, 5G network protocol, HSPA network protocol, LTE network protocol, Bluetooth protocol (Bluetooth protocol), or other commercial wireless communication protocols.

Different from the prior art, the augmented reality first aid training system according to the present invention utilizes the augmented reality effect and the interactive human body model to present the facial expressions and expressions of the person to be rescued according to the emergency symptoms, and can also record, Quantify the operation of the trainer, and then give the trainer real-time evaluation information on the operation.

The advantages and spirit of the present invention can be further understood through the following detailed description of the invention and the accompanying drawings.

Please refer to FIG. 1 , the structure of a medical waste sorting system 1 according to a preferred embodiment of the present invention is schematically shown in FIG. 1 .

Please refer to FIG. 1 , FIG. 2 , FIG. 3 , FIG. 4 and FIG. 7 , which schematically depict a first aid training system 1 using augmented reality according to a preferred embodiment of the present invention. Fig. 1 is an appearance view of a first aid training system 1 using augmented reality according to a preferred embodiment of the present invention. Fig. 2 is another appearance view of the first aid training system 1 using augmented reality according to a preferred embodiment of the present invention. FIG. 3 is a functional block diagram depicting elements and some components of the first aid training system 1 using augmented reality according to a preferred embodiment of the present invention. FIG. 4 is a frame diagram of the first aid training system 1 using augmented reality to execute the first aid training application 342 to present augmented reality effects according to a preferred embodiment of the present invention. FIG. 7 is a partial cross-sectional view of a model casing 20 , an essential element of the first aid training system 1 utilizing augmented reality according to a preferred embodiment of the present invention. Some elements and components are also shown in FIG. 7 .

As shown in FIG. 1 , FIG. 2 and FIG. 3 , the first aid training system 1 using augmented reality according to a preferred embodiment of the present invention includes an interactive human body model 2 and a portable data processing device 3 .

The interactive human body model 2 includes a model shell 20 , a plurality of sensors 21 , a first wireless signal transmission module 22 and a controller 23 . The model housing 20 has a face 202 . A plurality of sensors 21 are respectively disposed on the model casing 20 . The first wireless signal transmission module 22 is arranged in the model housing 20 . The controller 23 is disposed in the model casing 20 and is electrically connected to the plurality of sensors 21 and the first wireless signal transmission module 22 . In FIG. 1 and FIG. 2 , the model shell 20 is a shell of an infant model, but the present invention is not limited thereto.

The portable data processing device 3 includes an image capture module 30 , a display 32 , a data storage module 34 , a second wireless signal transmission module 36 and at least one processor 38 . The data storage module 34 stores the first aid training application program 342 and a plurality of predetermined symptom information 344 therein. At least one processor 38 is electrically connected to the image capture module 30 , the display 32 , the data storage module 34 and the second wireless signal transmission module 36 respectively. Each predetermined symptom information 344 corresponds to an emergency symptom.

In a specific embodiment, the portable data processing device 3 may be a notebook computer, a smart phone, a tablet computer, and the like.

The user operates the portable data processing device 3 to execute the first aid training application program 342 through at least one processor 38 , and captures the original image I1 of the model shell through the image capture module 30 . At least one processor 38 executes the first aid training application program 342 and receives trigger information, and selects selected symptom information 346 from a plurality of predetermined symptom information 344 according to the trigger information. In this way, the user can perform first aid training without prior knowledge of the need for emergency symptoms.

At least one processor 38 executes the first aid training application program 342 and generates the selected symptom expression image I3 according to the selected symptom information 346, and synthesizes the selected symptom expression image I3 and the original image I1 into the current image I4, and displays the current image I4 on the display 32 . This is the use of augmented reality technology to present facial expressions and facial expressions for emergency symptoms, allowing users to judge the case status. In FIG. 1 , the image displayed on the display 32 is the original image I1, and at this moment at least one processor 38 executes the first aid training application program 342 and has not yet received trigger information. In Fig. 2, the image displayed on the display 32 is the current image I4, at this moment at least one processor 38 executes the first aid training application program 342 and has received the trigger information, and generates the selected symptom expression image I3 according to the selected symptom information 346, and Combining the selected symptom expression image I3 with the original image I1 to synthesize the current image I4. Also in FIG. 2 , the selected symptom expression image I3 is an expression image of a baby choking, but the present invention is not limited thereto.

In a specific embodiment, as shown in FIG. 4 , the original image I1 includes a facial image I2 . At least one processor 38 executes the first aid training application program 342 to superimpose the selected symptom image I3 on the face image I2 of the original image I1 to synthesize the current image I4.

When the user operates the interactive mannequin 2 and selectively operates a plurality of sensors 21 , the controller 23 receives the sensing signals sent by the plurality of sensors 21 and transmits them through the first wireless signal transmission module 22 sensing signal. At least one processor 38 receives the sensing signal through the second wireless signal transmission module 36 , and generates training evaluation information according to the sensing signal and selected symptom information 346 . Further, the portable data processing device 3 includes a broadcasting module 39 . While at least one processor 38 displays the current image I4 on the display 32, at least one processor 38 can play the sound corresponding to the selected symptom information 346 through the broadcast module 39 according to the selected symptom information 346, such as crying and vomiting. wait. Allow users to hear the sound of emergency symptoms to judge the case situation. At least one processor 38 can also display the training evaluation information on the display 32 and play it through the broadcast module 39 to give positive feedback or corrective and correct guidance to the user in real time.

For example, in the example shown in FIG. 2 , the selected symptom expression image I3 of the current image I4 displayed on the display 32 shows an expression image of a baby with pale face, purple lips and painful expression. After seeing the selected symptom expression image I3, if the user correctly judges that the case is a baby choking situation, the user should use the Hamlic method for first aid, and operate the interactive mannequin 2 to pick up the model shell 20 and turn over Then buckle the back five times continuously on the correct position, then turn the model shell 20 to the front and press the chest five times continuously on the correct position. A plurality of sensors 21 arranged on the model casing 20 will sense the user's operation on the model casing 20 and send sensing signals, including the user's actions such as flipping, moving, and applying pressure to the model casing 20, and sensing The signal even covers the sequence, strength and frequency of each movement. At least one processor 38 executes a first aid training application 342 and generates training assessment information according to the sensed signals and selected symptom information 346 . If the user operates correctly, at least one processor 38 can display the training evaluation information on the display 32 and play it through the broadcast module 39 to give positive feedback to the user immediately. If the user does not operate correctly, at least one processor 38 can display the training evaluation information on the display 32 and play it through the broadcast module 39 to give the user correction and correct guidance in real time.

Please refer to FIG. 5 and FIG. 6 . FIG. 5 schematically shows some examples of symptoms and facial expressions of babies needing first aid. FIG. 6 schematically shows some example images of symptoms and facial expressions of adults in need of first aid. The baby's symptom expression image shown in Figure 5(a) shows the baby's pale face, purple lips and painful expression, and the correct first aid measure should be to take the Hamlic method. The baby's symptom expression image shown in Fig. 5(b) shows the baby's breathing is shallow and weak, and even the breathing stops. The correct first aid measure should be to take the Hamlic method. The baby's symptom expression image shown in Fig. 5(c) shows the expression image of the baby coughing violently and breathing wheezingly, and the correct first aid measure should be the Hamlic method. The baby's symptom expression image shown in Figure 5(d) shows the baby's unconscious and breathless expression image, and the correct first aid measure should be to take cardiopulmonary resuscitation. The baby's symptom expression image shown in Figure 5(e) shows the baby's expression image of unconsciousness and tongue protruding. The correct first aid measure should be to take cardiopulmonary resuscitation. The adult's symptom expression image shown in Fig. 6 (a) shows the expression image of the adult's pale face, purple lips and painful expression. The correct first aid measure should be to take the Hamlic method. The adult's symptom expression image shown in Figure 6(b) shows the expression image of the adult's breathing is shallow and weak, and even the breathing stops. The correct first aid measure should be to take the Hamlic method. The adult's symptom expression image shown in Figure 6(c) shows the expression image of an adult coughing violently and breathing wheezingly. The correct first aid measure should be the Hamlic method. The image of the symptomatic expression of an adult shown in Figure 6(d) shows an unconscious, non-breathing expression image of an adult, and the correct first aid measure should be to take cardiopulmonary resuscitation. The symptom image of an adult shown in Figure 6(e) shows that the adult is unconscious and the tongue is drawn forward. The correct first aid measure should be cardiopulmonary resuscitation.

Further, the first aid training system 1 using augmented reality according to a preferred embodiment of the present invention further includes an identification tag 24 . The identification label 24 is attached to the model casing 20 . At least one processor 38 executes the first aid training application program 342 to capture the identification image related to the identification tag 24 through the image capture module 30, and interprets the identification image into trigger information.

In a specific embodiment, the identification label 24 may be a pattern label, a one-dimensional barcode label or a two-dimensional barcode label (for example, a Quick Response Code (Quick Response Code)) and the like. In the examples shown in FIGS. 1 and 2 , the identification label 24 is a pattern label, but the present invention is not limited thereto.

In another embodiment, the trigger information may be sent by the instructor operating another data processing system. The trigger information can also be generated by the user operating the portable data processing device 3 in response to random selection.

In a specific embodiment, the plurality of sensors 21 may include at least one touch sensor 21a, at least one pressure sensor 21b, and at least one gesture sensor 21c. In practical applications, the attitude sensor 21c may include an accelerometer or a gyroscope. The present invention uses a variety of sensing methods, and the sensed sensing signals include actions such as turning over, moving, and applying pressure to the model casing 20 by the user. The sensing signals even cover the sequence, strength, and frequency of each action.

Further, the first aid training system 1 utilizing augmented reality according to a preferred embodiment of the present invention further includes at least one temperature regulating element 25 . At least one temperature regulating element 25 is respectively disposed on the model casing 20 and electrically connected to the controller 23 . At least one processor 38 sends selected symptom information 346 via the second wireless signal transmission module 36 . The controller 23 receives the selected symptom information 346 through the first wireless signal transmission module 22 , and selectively controls the individual temperature generated by each temperature regulating element 25 of the at least one temperature regulating element 25 according to the selected symptom information 346 . In practical applications, at least one temperature regulating element 25 can be disposed at least on the forehead of the model casing 20 . Thereby, the interactive human body model 2 according to the present invention can simulate fever or chills at a specific part of the model shell 20 (for example, the forehead part) according to the emergency symptoms.

In one embodiment, at least one temperature regulating element 25 includes a thermoelectric cooling element.

Further, the first aid training system 1 utilizing augmented reality according to a preferred embodiment of the present invention further includes at least one activation element 26 . At least one actuating element 26 is respectively disposed on the model casing 20 and electrically connected to the controller 23 . At least one processor 38 sends selected symptom information 346 via the second wireless signal transmission module 36 . The controller 23 receives the selected symptom information 346 through the first wireless signal transmission module 22 , and selectively controls the individual movement generated by each of the at least one actuating element 26 according to the selected symptom information 346 . In practical applications, at least one actuating element 26 can be disposed at least on the wrist or neck of the model casing 20 . Thereby, the interactive human body model 2 according to the present invention can simulate a pulse at a specific part of the model casing 20 (for example, the wrist part) according to the emergency symptoms.

Further, please refer to FIG. 7 , the first aid training system 1 using augmented reality according to a preferred embodiment of the present invention further includes a pump 27 and a pipeline 28 . The face 202 of the model housing 20 has two nostrils 204 . The pump 27 is disposed in the model casing 20 and electrically connected to the controller 23 . The pipeline 28 is connected between the pump 27 and the two nostrils 204 . At least one processor 38 sends selected symptom information 346 via the second wireless signal transmission module 36 . The controller 23 receives the selected symptom information 346 through the first wireless signal transmission module 22 , and selectively controls the pump 27 to inhale or deliver air through the pipeline 28 and the two nostrils 204 according to the selected symptom information 346 . Thereby, the interactive mannequin 2 according to the present invention can simulate the breathing situation at the two nostrils 204 of the model shell 20 according to the emergency symptoms.

In a specific embodiment, the first wireless signal transmission module 22 transmits the sensing signal or receives the selected symptom information 346 through a wireless communication protocol. The wireless communication protocol can be Wi-Fi protocol, WiMAX protocol, IEEE 802.11-based protocols (IEEE 802.11-based protocols), 3G network protocol, 4G network protocol, 5G network protocol, HSPA network protocol, LTE network protocol, Bluetooth protocol, or other commercial wireless communication protocols. The second wireless signal transmission module 36 also uses the wireless communication protocol that the first wireless signal transmission module 22 follows to receive sensing signals or transmit selected symptom information 346 .

In a specific embodiment, as shown in FIG. 3 , the interactive human body model of the first aid training system 1 using augmented reality according to a preferred embodiment of the present invention further includes a battery 29 . The battery 29 is set in the model casing 20 and is electrically connected to the controller 23 to supply a plurality of sensors 21, a first wireless signal transmission module 22, a controller 23, at least one temperature regulating element 25, and at least one consistent The power required by the moving element 26 and the pump 2 during operation. In practical applications, the battery 29 can be a dry battery, a rechargeable battery or a solar battery, etc.

In another embodiment, a variant of the interactive mannequin of the augmented reality first aid training system 1 according to the present invention further includes a power supply (not shown in the figure). The power supply is disposed in the housing 20 and can be electrically connected to an external power source. The power supply is electrically connected to the controller 23 to supply a plurality of sensors 21, the first wireless signal transmission module 22, the controller 23, at least one temperature regulating element 25, at least one actuating element 26 and the pump 2 Power required for operation.

Different from the prior art, the first aid training system 1 using augmented reality according to the preferred embodiment of the present invention is to execute the performance music application program by at least one processor 38 of the data processing device 3 to generate music information, and the data processing device The broadcast module 34 of 3 plays music information. Therefore, the first aid training system 1 utilizing augmented reality according to the preferred embodiment of the present invention can easily update the software, and even can update the software through cloud technology, so as to expand the utilization expansion according to the preferred embodiment of the present invention. The function of the first aid training system 1 of augmented reality.

From the above detailed description of the present invention, it can be clearly understood that the first aid training system utilizing augmented reality according to the present invention utilizes the augmented reality effect and the interactive human body model to present the facial expressions of the person to be rescued according to the emergency symptoms It can also record and quantify the operation of the trainer, and then give the trainer real-time evaluation information on the operation.

Through the above detailed description of the preferred embodiments, it is hoped that the characteristics and spirit of the present invention can be described more clearly, and the aspect of the present invention is not limited by the preferred embodiments disclosed above. On the contrary, the purpose is to cover various changes and equivalent arrangements within the scope of the patent application for the present invention. Therefore, the aspect of the scope of the patent application for the present invention should be interpreted in the broadest way based on the above description, so as to cover all possible changes and equivalent arrangements.

1: First aid training system using augmented reality 2: Interactive mannequin 20:Model shell 202: face 204: nostril 21: Sensor 21a: Touch sensor 21b: Pressure sensor 21c: Attitude sensor 22: The first wireless signal transmission module 23: Controller 24: Identification label 25: Temperature control element 26: Actuation element 27: pump 28: pipeline 27: Press the switch 28: The first wireless signal transmission module 29: battery 3: Portable data processing device 30: Image capture module 32: Display 34: Data storage module 342:First Aid Training App 344:First Aid Training App 346: Selected Symptom Information 36: Second wireless signal transmission module 38: Processor 39: Broadcast module I1: Original image I2: facial image I3: Selected Symptom Expression Image I4: Current image

Fig. 1 is an appearance view of a first aid training system utilizing augmented reality according to a preferred embodiment of the present invention. Fig. 2 is another appearance view of the first aid training system utilizing augmented reality according to a preferred embodiment of the present invention. FIG. 3 is a functional block diagram of a first aid training system using augmented reality according to a preferred embodiment of the present invention. FIG. 4 is a frame diagram of using the augmented reality first aid training system to execute the first aid training application to present augmented reality effects according to a preferred embodiment of the present invention. Fig. 5 is an example of some images of symptoms and facial expressions of babies needing first aid. Fig. 6 is an example of facial expressions of symptoms of some adults needing first aid. Fig. 7 is a partial cross-sectional view of a model shell, which is an essential element of the first aid training system using augmented reality according to a preferred embodiment of the present invention.

1: First aid training system using augmented reality

2: Interactive mannequin

20:Model shell

202: face

24: Identification label

3: Portable data processing device

30: Image capture module

32: Display

I3: Selected Symptom Expression Image

I4: Current image

Claims (9)

A first aid training system using augmented reality, comprising: an interactive human body model, including: a model shell with a face; a plurality of sensors are respectively arranged on the model shell; a first A wireless signal transmission module is arranged in the model casing; and a controller is arranged in the model casing and electrically connected to the plurality of sensors and the first wireless signal transmission module; a portable A data processing device, including: an image capture module; a display; a data storage module, which stores a first aid training application program and a plurality of predetermined symptom information; a second wireless signal transmission module; at least one processor , are respectively electrically connected to the image capture module, the display, the data storage module, and the second wireless signal transmission module; and an identification label is attached to the model housing, wherein the at least one processing The device executes the first aid training application program to capture a recognition image about the recognition label through the image capture module, and interpret the recognition image into a trigger information, the recognition label is selected from a pattern label, a one-dimensional barcode One of the group consisting of a label and a two-dimensional barcode label, wherein a user operates the portable data processing device to execute the first aid training application program through the at least one processor, and captures the first aid through the image The module captures an original image of the model shell, the at least one processor executes the first aid training application program and receives the trigger information and selects a selected symptom information from the plurality of predetermined symptom information according to the trigger information, the At least one processor executes the first aid training application program and generates a selected symptom expression image according to the selected symptom information, and synthesizes the selected symptom expression image with the original image into a current image, and displays the current image on the display; The selected symptom information is not displayed on the display; wherein when the user operates the interactive mannequin and selectively operates the plurality of sensors, the controller receives a sensor sent by the plurality of sensors and send the sensing signal through the first wireless signal transmission module, the at least one processor receives the sensing signal through the second wireless signal transmission module, and according to the sensing signal and the selected symptom information Generate training evaluation information. The first aid training system utilizing augmented reality as described in Claim 1, wherein the original image includes a facial image, and the at least one processor executes the first aid training application program and superimposes the selected symptom expression image on the original image The facial image is used to synthesize the current image. The first aid training system using augmented reality as claimed in claim 1, wherein the plurality of sensors include at least one touch sensor, at least one pressure sensor and at least one gesture sensor. According to claim 3, the first aid training system using augmented reality, wherein the posture sensor includes an accelerometer or a gyroscope. The first aid training system using augmented reality as described in Claim 1, It further includes at least one temperature regulating element, which is respectively arranged on the model casing and electrically connected to the controller, wherein the at least one processor sends the selected symptom information through the second wireless signal transmission module, and the controller transmits the selected symptom information through the second wireless signal transmission module. The first wireless signal transmission module receives the selected symptom information, and selectively controls an individual temperature generated by each temperature regulating element according to the selected symptom information. The first aid training system utilizing augmented reality as described in Claim 5, wherein the at least one temperature regulating element comprises a thermoelectric cooling element. The first aid training system using augmented reality as described in claim 1, further comprising at least one actuating element, which is respectively arranged on the model casing and electrically connected to the controller, wherein the at least one processor is connected to the controller through the first Two wireless signal transmission modules send the selected symptom information, the controller receives the selected symptom information through the first wireless signal transmission module, and selectively controls an individual generated by each actuating element according to the selected symptom information exercise. The first aid training system utilizing augmented reality as described in Claim 1, further comprising a pump and a pipeline, wherein the face has two nostrils, the pump is arranged in the model housing and electrically connected to The controller, the pipeline is connected between the pump and the two nostrils, the at least one processor transmits the selected symptom information through the second wireless signal transmission module, and the controller transmits the selected symptom information through the first wireless signal The transmission module receives the selected symptom information, and selectively controls the pump to inhale or deliver air through the pipeline and the two nostrils according to the selected symptom information. The first aid training system using augmented reality as described in Claim 1, wherein the first wireless signal transmission module transmits the sensing signal with a wireless communication protocol, and the wireless communication protocol is selected from Wi-Fi protocol, One of the group consisting of WiMAX protocol, IEEE 802.11 series protocol, 3G network protocol, 4G network protocol, 5G network protocol, HSPA network protocol, LTE network protocol and Bluetooth protocol.

Images