METHOD AND SYSTEM FOR TREATMENT OF A PATIENT BY A HEALTH CAR VEHICLE

专利摘要:
The invention essentially relates to a method of managing a patient by a health vehicle, implemented by a system comprising said health vehicle and a remote server, said health vehicle comprising a device for indicating the situation of a patient. urgency, the method comprising the following steps: obtaining (S400) data relating to the health of the patient by the health vehicle, transmitting (S410) said data to the remote server for analysis of said data, and when the result of the analysis implies that the patient is to be transported to a health facility, transporting the patient (S430) through said health vehicle to the health facility (130), and • when the result of the analysis implies that the patient must be transported to a health facility urgently, started (S420) emergency indication device of said health vehicle.
公开号:FR3047593A1
申请号:FR1651016
申请日:2016-02-09
公开日:2017-08-11
发明作者:Franck Baudino
申请人:Franck Baudino；
IPC主号:

专利说明:

Background of the invention
The present invention relates to the field of health vehicles.
In known manner, a patient moves to a doctor's office or other health facility for consultation, follow-up and / or care.
However, the various constraints related to this displacement, such as distance, especially in medical deserts, may cause the patient to reduce the frequency of his visits, or even to give up this movement. The patient's follow-up by the doctor is then irregular, which can have a negative effect on the patient's health.
A doctor or other health professional can also move to the patient's home, especially when the patient is unable to move.
However, such movements are time consuming for the doctor and can be difficult to organize, especially if the doctor finds that the patient requires additional care that can not be provided on site.
There is therefore a need for a solution to manage a patient while limiting the movements of the doctor and the patient.
OBJECT AND SUMMARY OF THE INVENTION For this purpose, the present invention relates to a method for the management of a patient by a health vehicle, implemented by a system comprising the health vehicle and a remote server, the vehicle of system comprising an emergency situation indicating device, the method comprising the following steps: obtaining data relating to the health of the patient by the health vehicle, transmitting the data to the remote server for analysis of the given, and • when the result of the analysis implies that the patient must be transported to a health facility, transport the patient by the health vehicle to the health facility, and • when the result of the The analysis implies that the patient must be transported to a health facility urgently, and that the health vehicle emergency indicator system be activated.
Thus, the doctor's and the patient's movements are limited, and the patient is transported to a health facility only when necessary.
In a particular embodiment, the step of obtaining a patient health data includes a substep of establishing communication between the patient and a health professional, by means of a communication interface of the health vehicle.
In a particular embodiment, the step of obtaining a data relating to the health of the patient comprises a substep of measuring the data.
In a particular embodiment, a health professional remotely starts taking the measurement of the data.
In a particular embodiment, the step of obtaining a data relating to the health of the patient comprises a sub-step of obtaining data relating to an environmental condition of the health vehicle.
In a particular embodiment, the step of obtaining a data relating to the health of the patient comprises a substep of triggering an emergency alert, the data corresponding to the emergency alert.
In a particular embodiment, the step of transporting the patient comprises a substep of starting a device for assisting the driving of the vehicle or a device for automatic driving of the vehicle.
In a particular embodiment, the method further comprises a step of transmitting a request for sending the health vehicle to an address to the remote server.
In a particular embodiment, the method further comprises the following steps: determining a remote medical center, and transmitting the request to the remote medical center.
In a particular embodiment, the method further comprises the following steps: • selection of the health vehicle, and • movement of the health vehicle to the address indicated in the request. The invention also relates to a system for the management of a patient by a health vehicle, comprising the health vehicle and a remote server, the health vehicle comprising: • an emergency indication device, • means for obtaining data relating to the health of the patient, • a communication interface adapted to transmit the data to the remote server for analysis of the data, so that when the result of the analysis implies that the patient must transported to a health facility, the system is adapted to transport the patient by the health vehicle to the health facility, and when the result of the analysis implies that the patient must be transported to a health facility urgently, the system is adapted to start the health vehicle emergency indication device.
BRIEF DESCRIPTION OF THE DRAWINGS Other features and advantages of the present invention will emerge from the description given below, with reference to the accompanying drawings which illustrate an embodiment having no limiting character. In the figures: - Figure 1 shows, schematically, a system for the management of a patient by a health vehicle, according to an exemplary embodiment of the invention; - Figure 2 shows schematically a health vehicle of a patient care system by a health vehicle, according to an exemplary embodiment of the invention; - Figure 3 shows schematically a health vehicle of a patient care system by a health vehicle, according to an exemplary embodiment of the invention; FIG. 4 represents, in the form of a flowchart, the main steps of a method of taking care of a patient by a health vehicle, according to an exemplary embodiment of the invention; FIG. 5 represents, in the form of a flowchart, the main steps of a method of taking care of a patient by a health vehicle, according to an exemplary embodiment of the invention; FIG. 6 represents, in the form of a flowchart, sub-steps of a step of obtaining a data relating to the health of a patient, of a method of taking care of a patient by a health vehicle, according to an exemplary embodiment of the invention; FIG. 7 represents, in the form of a flowchart, sub-steps of a step of obtaining a datum relating to the health of a patient, of a method of taking care of a patient by a health vehicle, according to an exemplary embodiment of the invention; FIG. 8 schematically represents a health vehicle of a patient care system by a health vehicle, according to an exemplary embodiment of the invention, carrying a patient to a patient. health institution.
Detailed description of several embodiments
Figure 1 schematically shows a system 100 for the management of a patient by a health vehicle 110 according to an exemplary embodiment of the invention. The system 100 includes the health vehicle 110 and a remote server 120.
The health vehicle 110 includes an emergency situation indicating device 212, means 214 for obtaining data relating to the health of the patient, and a communication interface 216 adapted to transmit the data to the remote server 120 for analysis of the data (see Figure 2).
When the result of the analysis implies that the patient must be transported to a health facility 130, the system 100 is adapted to transport the patient by means of the health vehicle 110 to the health facility 130.
When the result of the analysis implies that the patient has to be transported to a health facility 130 urgently, the system is adapted to turn on the emergency indication device 212 of the health vehicle 110. .
"Health facility" means a medical practice, a hospital, a clinic and any establishment where medical consultation, medical monitoring and / or medical care may be performed.
In one example, the system 100 includes a plurality of health vehicles 110.
In one example, the health vehicle 110 is a motor vehicle such as a car or a light utility vehicle.
As shown in FIG. 3, the health vehicle 110 further comprises a processor 300, an operating system 302, and may comprise a read-only memory 304 ("ROM" type), a rewritable non-volatile memory 306 (of type "EEPROM" or "Flash NAND" for example), a volatile memory rewritable 308 (type "RAM"), a screen 310, a camera 312, a microphone 314, a speaker 316, one or more environmental sensors 317, and / or means for identifying the patient 319.
By "environmental sensor" is meant a sensor configured to measure a data relating to an environmental condition of the health vehicle 110, such as noise level, brightness, temperature, etc. Each environmental sensor 317 may be for example a thermometer, a hygrometer, a microphone, a photoelectric cell, etc.
The patient identification means 319 may for example be a health insurance card reader. The screen 310, the camera 312, the microphone 314, and / or the speaker 316 associated with the communication interface 216 may allow the patient to communicate with a remote health professional, for example by videoconferencing.
The emergency indication device 212 makes it possible to indicate to the other vehicles and pedestrians encountered by the health vehicle 110 that the health vehicle 110 has priority with regard to the rules of the highway code. The emergency situation indication device 212 may comprise a beacon, a loudspeaker adapted to emit a "siren" type sound, and / or an emergency signal transmission module adapted to emit a signal. of urgency relating to the health of the patient.
The means for obtaining 214 data relating to the health of the patient may comprise one or more medical instruments, such as a stethoscope, a dermatoscope, an otoscope, a retinoscope, an auditory test instrument, a visual test instrument. etc.
The means 214 for obtaining data relating to the health of the patient may also comprise one or more medical sensors, such as a blood pressure monitor, a scale, a thermometer, a pulse oximeter, an electrocardiograph, a glucometer, a height gauge etc.
The means for obtaining 214 data relating to the health of the patient may also include an emergency button or other emergency reporting device.
Thus, by "patient health data" is meant any data, measured by a medical instrument or a medical sensor, that may characterize the patient's state of health, as well as any data produced by a reporting device. an emergency, indicating an urgency relating to the health of the patient.
In addition, the health vehicle 110 may comprise a vehicle driving assistance device 318 and / or an automatic vehicle driving device 320. The health vehicle 110 may also include a signal processing module. emergency emitted by a module for transmitting an emergency signal.
The system further comprises a telecommunications network 140, such as an Internet network or a telephone network. The communication interface 216 is thus adapted to transmit the patient health data to the remote server 120 via the network 140.
In addition, the system 100 may include at least one patient terminal 150 and may include at least one health professional terminal 160.
The patient terminal 150 presents the conventional architecture of a computer, and notably comprises a processor, an operating system, a read-only memory, a rewritable non-volatile memory, a rewritable volatile memory, and a communication interface adapted to communicate. via the telecommunications network 140.
Similarly, the health professional terminal 160 presents the conventional architecture of a computer, and comprises in particular a processor, an operating system, a read only memory, a rewritable non-volatile memory, a rewritable volatile memory, and a communication interface adapted to communicate via the telecommunications network 140. The health professional terminal 160 may further comprise analysis means, a screen, a camera, a microphone, a loudspeaker, and / or means identification of the health professional.
The means of identification of the health professional may be for example a health professional card reader.
The health professional terminal 160 may be part of a remote medical center 165. By "remote medical center" is meant a health facility in which at least one health professional works. By "health professional" is meant for example a doctor, a nurse, etc.
Thus, the system 100 may include one or more remote medical centers 165, each remote medical center may include one or more health professional terminals 160. In one example, the health facility 130 is a remote medical center 165.
The system 100 may further comprise at least one common vehicle 170 comprising a communication interface adapted to communicate via the telecommunications network 140 and a module for processing an emergency signal transmitted by a transmission module of a signal emergency of a health vehicle 110, and may include a device for assisting the driving of the vehicle and / or an automatic driving device of the vehicle.
"Common vehicle" means a vehicle that does not include means for obtaining data relating to the health of the patient.
FIG. 4 represents a method of taking care of a patient by a health vehicle 110, according to an exemplary embodiment of the invention. The method is implemented by a system 100 comprising the health vehicle 110 and a remote server 120, for example the system 100 of FIG. 1. The health vehicle 110 includes an emergency situation indicating device 212.
The method comprises a step S400 of obtaining data relating to the health of the patient by the health vehicle 110 and a step S410 for transmitting the data to the remote server 120 for analyzing the data.
When the result of the analysis implies that the patient is to be transported to a health facility 130, the method includes a step S430 transporting the patient by the health vehicle 110 to the health facility 130.
When the result of the analysis implies that the patient must be transported to a health facility 130 urgently, the method includes a step S420 of starting the emergency indication device 212 of the vehicle of health 110.
Figure 5 shows a method of patient management by a health vehicle 110, according to an exemplary embodiment of the invention. The method is implemented by a system 100 comprising the health vehicle 110 and a remote server 120, for example the system 100 of Figure 1. The health vehicle 110 includes an emergency indication device 212.
In a step S500, a request to send the health vehicle 110 to an address is transmitted to the remote server 120.
The request is for example sent by a patient terminal 150, used by the patient, and is transmitted to the remote server 120 via a telecommunications network 140. Step S500 may include a sub-step of connecting the patient terminal 150 to a website and a sub-step of inserting data by the patient, for example by filling a form. The inserted data include, for example, the address, i.e., the indication of the geographical location to which the health vehicle 110 is to be sent, for example the patient's residential address. Step S500 may further comprise a substep of creating the request, which request may include at least some of the data inserted by the patient, and a substep of transmitting the request. The sub-steps of creation and transmission of the request are for example triggered by a mouse click on a button displayed on the website.
Alternatively, the S500 transmission step is performed by a health professional terminal 160 used by a health professional. In a variant, the transmission step S500 is performed by a terminal of a measurement taking device, after detection by the measuring device of a need to send a health vehicle 110.
In an optional step S502, a remote medical center 165 is determined. More specifically, the remote server 150 determines a remote medical center 165 from a list of remote medical centers 165 comprising at least one remote medical center 165.
In one example, the remote medical center 165 is determined according to the distance between the remote medical center 165 and the sending address of the health vehicle 110, and / or depending on the availability of the remote medical center 165, by example depending on the opening hours of the remote medical center 165.
In an optional step S504, the request is transmitted to the remote medical center determined in step S502. More precisely, the request is transmitted by the remote server 120 to a terminal of the remote medical center 165. In a variant, the remote server 120 is a terminal of a predetermined medical center 165 and the steps S502 and S504 are not performed.
In a step S506, a terminal of a health professional 160 is determined from a list of terminals comprising at least one terminal of a health professional 160. The terminal 160 is for example determined according to the availability of the professional health using this terminal 160.
In a step S508, the request is transmitted to the terminal 160 determined in step S406. The request may be transmitted by the remote server 120 or the terminal of the remote medical center when steps S504 and S506 are performed.
In a step S510, a health vehicle 110 is selected from a list comprising at least one health vehicle 110. This step S510 can be performed by the external server 120. The step S510 is performed automatically after receiving the request, or after validation of the request by the health professional.
In one example, the health vehicle 110 is selected based on data such as a request from the patient, a decision of the health professional, a geolocation of each health vehicle 110 from the list, a map comprising data on the area of evolution of each health vehicle 110, such as street names, directions of movement, speed limits, etc., data concerning each health vehicle, such as health vehicle equipment , the health vehicle configuration, and the type of patient installation inside the health vehicle, the health status of each health vehicle, the operating status of the medical instruments of each health vehicle, the availability of each health vehicle and the traffic status in real time.
Said data is received from each health vehicle 110 on the list and / or one or more external sources of information.
Thus, the distribution of health vehicles 110 on the list comprising at least one health vehicle 110 is optimized, and the waiting time of the health vehicle by the patient is reduced.
In a step S512, the health vehicle 110 selected in step S410 is moved to the address indicated in the request. The health vehicle 110 may be driven by a driver, possibly assisted by a driver assistance device 318 of the vehicle, or move without a driver, by means of an automatic vehicle driving device 320.
Once the health vehicle 110 has arrived at the address indicated in the request, the patient enters the health vehicle 110 and installs on a seat of the health vehicle 110. The patient can thus be supported in the vehicle 110.
The patient is identified by means of identification of the patient of the health vehicle 110, for example by reading a health insurance card.
In a step S400, at least one piece of data relating to the health of the patient is obtained by the health vehicle 110, for example a datum or several data.
As shown in Fig. 6, step S400 may include a substep S602 in which communication between the patient and a health professional is established by means of a communication interface 216 of the health vehicle 110.
The health care professional is preferably the health professional using the health professional terminal 160 determined in step S506. The health professional may have been previously identified by means of identification of the health professional terminal health professional.
The communication is established by means of the communication interface 216 of the health vehicle 110 and a communication interface of the terminal 160. The patient and the health professional may furthermore use a screen, a camera, a microphone and / or a speaker of the health vehicle 110 and / or the terminal 160 to communicate, for example by videoconference.
Thus, obtaining the patient health data is done under the remote supervision of the health professional. Step S400 may further comprise a substep S604 of taking measurement of said datum. This sub-step S604 is performed by means 214 for obtaining data relating to the health of the patient of the health vehicle 110.
The obtaining means 214 comprise for example one or more medical instruments, and / or one or more medical sensors.
In order to obtain patient health data from a medical device, the health professional remotely initiates measurement by the medical instrument. The health professional thus controls the measurement by the medical instrument.
Patient's heartbeat, patient's skin data, patient's ear and ear canal data, patient's eye data, patient's hearing ability, and / or the patient's visual capabilities may in particular be measured by a medical instrument during substep S604.
In order to obtain patient health data from a medical sensor, the health professional starts remotely or the patient starts the measurement by the medical sensor.
Patient tension, patient weight, patient temperature, patient's pulse, patient's heart rate, oxygen level carried by the patient's blood, an electrocardiogram of the patient, patient's blood glucose and / or the size of the patient can in particular be measured by a medical sensor during substep S604.
When the patient's health data is obtained by a medical sensor, the step S602 of establishing a communication between the health professional and the patient is not mandatory and may not be performed. The substep S604 is then performed directly, without remote supervision of the health professional.
In addition, the step S400 may comprise a substep S606 for obtaining at least one datum relating to an environmental condition, for example a datum or several data.
The data relating to an environmental condition is measured by means of an environmental sensor 317. The temperature inside the health vehicle 110, the level of ambient noise, and / or the ambient luminosity may in particular be obtained by an environmental sensor. 317 in substep S606.
Alternatively, as shown in FIG. 7, step S400 includes a substep S700 triggering an emergency alert, the patient health data corresponding to said emergency alert. The alert can be triggered by pressing an emergency button, or using another means of reporting an emergency. Step S400 may also include in this variant the substep S602 in which communication between the patient and a health professional is established by means of a communication interface 216 of the health vehicle 110.
In a step S410, the patient health data is transmitted to the remote server 120 for analyzing the health data of the patient. The health professional determined in step S506 can then consult the data in order to analyze it. Alternatively, the data is analyzed automatically by means of analysis, for example present on the terminal of the health professional 160.
The environmental condition data can also be transmitted at step S410. The environmental condition data thus allows the health professional or the means of analysis to more accurately interpret the patient's health information.
The result of the health professional's analysis or means of analysis may not involve transporting the patient to a health facility, 130 for example, because the analysis indicates that the patient is in good health. The result of the analysis is then transmitted (step S512) to the health vehicle 110, the health vehicle 110 communicates to the patient said result and indicates to the patient that he can leave the health vehicle 110. The health vehicle 110 can then leave the address where it is.
The result of the health professional's analysis or means of analysis may not involve transporting the patient to a health facility 130 because the analysis indicates that the patient does not need a additional consultation. The result of the analysis is then transmitted (step S512) to the health vehicle 110, and an order may further be transmitted to the health vehicle 110.
The health vehicle 110 communicates to the patient said result and the prescription, for example by printing the result and the prescription, and indicates to the patient that he can leave the health vehicle 110. The health vehicle 110 can then leave the address to which it is.
The result of the analysis of the health professional or the means of analysis may further imply that the patient must be transported to a health facility 130, for example for additional consultation, for care, or for patient's operation.
When the result of the analysis implies that the patient is to be transported to a health facility 130, the method may include a step S513 for determining the health facility 130 and a step S514 of transmitting the result to the health facility. 110 and the health facility 130 determined in step S513.
In one example, the remote server 150 or the health vehicle 110 determines the health facility 130 from a list of health facilities comprising at least one health facility 130.
In one example, the health facility 130 is determined according to the distance between the health facility 130 and the health vehicle 110, the traffic status in real time and / or depending on the availability of the health facility. health facility 130, for example according to the opening hours of the health facility 130 and the availability of the health professional or professionals of the health facility 130. The health facility 130 is then notified of the arrival of the health vehicle 110, for example by making an appointment.
In addition, when the result of the analysis implies that the patient must be transported to a health facility 130 urgently, for example because it must be treated or operated immediately, the situation indicating device 212 emergency of the health vehicle 110 is started in a step S420.
The emergency indication device 212 makes it possible to indicate to the other vehicles and pedestrians encountered by the health vehicle 110 that the health vehicle 110 has priority with regard to the rules of the highway code. Thus, the vehicles near the health vehicle 110 can facilitate the passage of the health vehicle 110.
In addition, when the result of the analysis implies that the patient is to be transported to a health facility 130, the method includes a step S430 transporting the patient by the health vehicle 110 to the health facility 130.
In one example, the step S430 includes a substep of starting a vehicle assisting device 318 or an automatic vehicle driving device 320.
The activation of an automatic driving device of the vehicle 320 allows the patient to be automatically brought to the health facility 130, without a driver intervening directly on the main control system of the health vehicle 110, c ie, steering, engine speed, brake, etc.
The automatic driving device of the vehicle 320 thus takes into account the health vehicle 110 and the environment of the health vehicle 110, that is to say the types, technology and behaviors of the vehicles moving around the vehicle of the vehicle. health 110.
In one example, the emergency indication device 212 includes an emergency signal transmission module adapted to emit an emergency signal, and at least one vehicle in the vicinity of the health vehicle 110 is a common vehicle 170 as described with reference to Figure 1, comprising an emergency signal processing module. The health vehicle 110 can then interact with the common vehicle 170 in real time, via the telecommunication network 140, in order to optimize the path of the health vehicle 110.
The emergency signal may include information on the health vehicle 110, such as the position of the health vehicle 110, the speed of the health vehicle 110, the size of the health vehicle 110, the trajectory of the health vehicle 110 , the nature of the health vehicle 110, and / or the priority level of the health vehicle 110.
The priority level makes it possible, when two health vehicles 110 are close to one another, to determine which health vehicle 110 has priority over the other.
After receiving the emergency signal by the common vehicle 170, the common vehicle emergency signal processing module 170 analyzes the emergency signal and possibly obtains the information on the health vehicle 110.
The common vehicle 170 can then indicate to the driver of the common vehicle 170 that a health vehicle 110 is nearby and transmit to the driver the information on the health vehicle 110.
In the case where the common vehicle 170 comprises a device for assisting the driving of the vehicle, the vehicle driving assistance device can, taking into account the urgency signal and therefore the information on the health vehicle. 110, advise the driver on the actions to be performed to facilitate the passage of the health vehicle 110 and thus to optimize the path of the health vehicle 110.
In the case where the common vehicle 170 comprises an automatic driving device of the vehicle, the automatic driving device of the vehicle can, taking into account the emergency signal and therefore the information on the health vehicle 110, automatically perform maneuvers driving the common vehicle 170 to facilitate the passage of the health vehicle 110 and thus optimize the path of the health vehicle 110.
The automatic driving device of the vehicle or the device for assisting the driving of the vehicle may, in addition to the emergency signal and therefore information on the health vehicle 110, take into account the position of the nearby vehicle or vehicles. the health vehicle 110, the dimensions of the nearby vehicle (s) other than the health vehicle 110, the speed of the nearby vehicle (s) other than the health vehicle 110, the path of the nearby vehicle (s) other than the health vehicle 110, the mapping of the traffic lanes nearby, the characteristics of the traffic lanes in the vicinity, these data having previously been detected and determined by the common vehicle 170.
Figure 8 schematically shows a health vehicle 110 of a system 100 according to an exemplary embodiment of the invention, transporting a patient to a health facility 130. The emergency indication device 212 of the health vehicle 110 is running, said indication device 212 comprising a transmission module of an emergency signal adapted to emit an emergency signal.
The health vehicle 110 travels on a first lane 800, follows a first common vehicle 170.1 of the system 100 flowing on the first lane 800 and is about to cross a second common vehicle 170.2 of the system 100 flowing on the first lane 800 traffic.
A second traffic lane 802 and a third traffic lane 804 intersect the first lane 800 at the level of the health vehicle 110. On the second lane 802 there is a third common vehicle 170.3 of the system 100 and on the third lane. Circulation 804 runs a fourth common vehicle 170.4 of the system 100, so that the third common vehicle 170.3 and the fourth common vehicle 170.4 are about to cross the health vehicle 110.
Each common vehicle 170.1, 170.2, 170.3 and 170.4 includes an emergency signal processing module and an automatic vehicle driving device.
The emergency signal processing module of each common vehicle 170.1, 170.2, 170.3 and 170.4 thus receives the emergency signal and the analysis. Then, the automatic control device of each common vehicle 170.1, 170.2, 170.3 and 170.4 automatically performs driving maneuvers of the respective common vehicle 170.1, 170.2, 170.3 and 170.4 to facilitate the passage of the health vehicle 110.
In this example, the automatic control device of the first common vehicle 170.1 directs the first common vehicle 170.1 to leave enough space for the passage of the health vehicle 110, the automatic control device of the second common vehicle 170.2 directs the second common vehicle 170.2 in order to leave sufficient space for the passage of the health vehicle 110, the automatic control device of the third common vehicle 170.3 stops the third common vehicle 170.3, and the automatic control device of the fourth common vehicle 170.4 stops the fourth common vehicle 170.4 .

权利要求:
Claims (11)
[1" id="c-fr-0001]
A method of managing a patient by a health vehicle (110), implemented by a system (100) comprising said health vehicle (110) and a remote server (120), said health vehicle ( 110) comprising an emergency indication device (212), the method comprising the following steps: • obtaining (S400) a data relating to the health of the patient by the health vehicle (110), by means of means for obtaining (214) data relating to the health of the patient, the health vehicle (110), • transmission (S410), via a communication interface (216) of the health vehicle (110), of said given to the remote server (120) for analysis of said data, and • when the result of the analysis implies that the patient is to be transported to a health facility (130), transporting the patient (S430) by said patient's vehicle. health (110) to the health facility (130), and • when the result of the analysis i Explains that the patient must be transported to a health facility (130) urgently, started (S420) emergency indication device (212) of said health vehicle (110).
[2" id="c-fr-0002]
The method of claim 1, wherein the step of obtaining (S400) a patient health data comprises a substep of establishing (S602) a communication between the patient and a professional of health, by means of a communication interface (216) of said health vehicle (110).
[3" id="c-fr-0003]
The method of claim 1 or 2, wherein the step of obtaining (S400) a patient health data comprises a substep of taking measurement (S604) of said data.
[4" id="c-fr-0004]
The method of claim 3, wherein a health professional remotely initiates taking measurement (S604) of said data.
[5" id="c-fr-0005]
The method of any one of claims 1 to 4, wherein the step of obtaining (S400) a patient health data item comprises a substep (S606) for obtaining a data item. relating to an environmental condition of the health vehicle (110).
[6" id="c-fr-0006]
6. The method according to claim 1 or 2, the step of obtaining (S400) a data relating to the health of the patient comprises a sub-step (S700) for triggering an emergency alert, said corresponding data item. to said emergency alert.
[7" id="c-fr-0007]
The method of any one of claims 1 to 6, wherein the step of transporting (S430) the patient includes a substep of turning on a vehicle assist device or a device automatic driving of the vehicle.
[8" id="c-fr-0008]
The method of any one of claims 1 to 7, further comprising a step of transmitting (S500) a request to send the health vehicle (100) to an address to the remote server (120).
[9" id="c-fr-0009]
The method of claim 8, further comprising the steps of: determining (5502) a remote medical center (165), and transmitting (S504) the request to the remote medical center (165).
[10" id="c-fr-0010]
The method of claim 8 or 9, further comprising the steps of: selecting (5510) said health vehicle (110), and moving (S512) said health vehicle (110) to the indicated address in the query.
[11" id="c-fr-0011]
11. System (100) for the management of a patient by a health vehicle (110), comprising said health vehicle (110) and a remote server (120), the health vehicle (110) comprising: • a emergency situation indicating device (212), • means for obtaining patient health data (214), • communication interface (216) adapted to transmit said data to the remote server ( 120) for analyzing said data, so that when the result of the analysis implies that the patient is to be transported to a health facility (130), the system is adapted to transport the patient by said health vehicle ( 110) to the health facility (130), and when the result of the analysis implies that the patient must be transported to a health facility (130) urgently, the system is adapted to implement activates the emergency indication device (212) d udit health vehicle (110).

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EP3848916A1|2021-07-14|Device for detecting hazardous behaviour of at least one person, associated detection method and detection network

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JP6975357B1|2021-12-01|Recording device, recording method, and program

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JP6690767B1|2020-04-28|Data structure of dialogue scenario, dialogue system, server device, client device, and computer program

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FR3046344A1|2017-07-07|DEVICE FOR OBTAINING AT LEAST ONE PHYSIOLOGICAL PARAMETER

同族专利:

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公开号 | 公开日

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FR3047593B1|2018-03-02|

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WO2017137700A1|2017-08-17|

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US20170228499A1|2017-08-10|

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CN108885770A|2018-11-23|

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EP3414730A1|2018-12-19|

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法律状态:
2016-12-15| PLFP| Fee payment|Year of fee payment: 2 |

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2017-08-11| PLSC| Publication of the preliminary search report|Effective date: 20170811 |

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2017-12-06| PLFP| Fee payment|Year of fee payment: 3 |

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2018-10-19| TP| Transmission of property|Owner name: H4D, FR Effective date: 20180911 |

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2020-02-27| PLFP| Fee payment|Year of fee payment: 5 |

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2021-02-11| PLFP| Fee payment|Year of fee payment: 6 |

优先权:

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申请号 | 申请日 | 专利标题

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FR1651016|2016-02-09|

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FR1651016A|FR3047593B1|2016-02-09|2016-02-09|METHOD AND SYSTEM FOR TREATMENT OF A PATIENT BY A HEALTH CAR VEHICLE|FR1651016A| FR3047593B1|2016-02-09|2016-02-09|METHOD AND SYSTEM FOR TREATMENT OF A PATIENT BY A HEALTH CAR VEHICLE|

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US15/056,351| US20170228499A1|2016-02-09|2016-02-29|Method and a system for taking charge of a patient by a health vehicle|

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EP17707647.8A| EP3414730A1|2016-02-09|2017-02-08|Method and system for handling a patient by a health vehicle|

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CN201780010682.6A| CN108885770A|2016-02-09|2017-02-08|It is responsible for the method and system of patient by health car|

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PCT/FR2017/050286| WO2017137700A1|2016-02-09|2017-02-08|Method and system for handling a patient by a health vehicle|