CN113140268A - Passenger flight health management method and system based on AI intelligent technology - Google Patents

Abstract

The invention provides a passenger flight health management method and system based on AI intelligent technology, comprising: creating a database in advance at a cloud end; creating or updating a passenger profile; synchronizing passenger information to a terminal device corresponding to the passenger; the terminal equipment monitors the blood pressure, the heart rate and the body temperature of passengers in real time through the sensors. The invention can realize real-time monitoring of the physical health of the passengers and provide a solution, thereby solving a series of health problems caused by time difference, low air pressure, airflow disturbance, temperature-humidity ratio and the like of the passengers in long-distance flight.

Description

Passenger flight health management method and system based on AI intelligent technology

Technical Field

The invention relates to a passenger flight health management method and system based on an AI intelligent technology.

Background

With the progress of science and technology, the AI intelligence technology is widely used in various fields, and the like, especially in an airport, which is a scene with intensive passenger flow. At present, many airports and airlines are dedicated to developing intelligent technologies, and it is hoped to utilize these new technologies to improve the operation efficiency and service of the airports and airlines, save human resources, and improve the passenger experience. For example, some airports and airlines utilize self-service check-in, self-service baggage consignment, intelligent service robot inquiry, automatic security check, and the like.

However, in the market, the application of the intelligent technology is beneficial to airport and navigation management, is a common service for the public, and lacks of personalized health management service for passengers during personal flight. A series of physical problems generated by the influence of time difference, low air pressure, air flow disturbance and temperature-humidity ratio when passengers fly need to be monitored and timely processed by a set of health management method and system.

Disclosure of Invention

The invention aims to solve the technical problem of providing a passenger flight health management method and system based on an AI intelligent technology to overcome the defects in the prior art, which can realize real-time monitoring of the body health of passengers and provide a solution, thereby solving a series of health problems caused by time difference, low air pressure, air flow disturbance and temperature-humidity ratio in long-distance flight of passengers.

The invention provides a passenger flight health management method based on an AI intelligent technology, the execution of the method comprises the following contents:

creating a passenger personal profile: the health information of the passengers is input, wherein the health information comprises the major disease history, the medicine taking condition, the flight information, the allergic medicines and the like of the passengers, so that the health management can be performed more individually, and the flight management system is convenient for the aircrew to take high-efficiency and quick emergency measures according to the personal files of the passengers when an emergency occurs;

according to the file content of the passenger, if the passenger takes the medicine, the passenger is reminded of taking the medicine at regular time and the passenger is reminded of matters needing attention in the flight process;

monitoring the blood pressure condition of passengers in real time: when the blood pressure of the passenger deviates from the normal value, the system sends out an alarm to the passenger. If the passenger has cardiovascular diseases and the blood pressure is continuously increased, the health management system reminds and informs the passenger that the relevant measures to be taken comprise corresponding medicines to be taken, and meanwhile, the system automatically informs the flight crew to handle emergency situations;

monitoring the heart rate of the passenger in real time, and if the patient is a patient with arrhythmia, reminding the passenger to reduce activity, keep calm, make deep breath and inform the passenger of emergency medicines which need to be taken immediately when symptoms such as palpitation, chest distress and dyspnea occur;

the body temperature of the passenger is monitored in real time, the passenger is reminded of items needing attention or corresponding measures to be taken when the body temperature is higher or lower, such as adding clothes and the like, and the flight crew is informed when the body temperature is too low or too high;

on the premise of ensuring privacy and data safety, the health management scheme of each passenger and the detailed process of emergency medical aid are clearly and accurately recorded so as to obtain a large amount of user data in an airport scene to enrich a database and achieve the aim of accurate medical treatment.

The health management method and the health management system can provide safe and healthy travel demands for vast passengers based on terminal equipment such as smart phones and intelligent wearable equipment and by combining AI intelligent technology.

The invention provides a passenger flight health management system based on AI intelligent technology, the system includes:

the device is used for transmitting data to the cloud and calling related data; and

a device for monitoring the blood pressure of passengers in real time; and

means for monitoring a passenger's heart rate in real time; and

a device for monitoring the body temperature of the passenger in real time; and

the display screen is used for displaying the collected health data of the user, including blood pressure, heart rate and body temperature; and

and the equipment is used for supplying power to the terminal equipment.

Compared with the prior art, the invention has the following advantages:

(1) the method and the system for passenger flight health management based on the AI intelligent technology combine the AI technology with the sensor of the terminal equipment, intelligently monitor the health data of passengers in real time and provide a reasonable solution when the data is abnormal according to the personal health information of the passengers, thereby solving a series of health problems caused by time difference, low air pressure, air flow disturbance and temperature-humidity ratio in long-distance flight;

(2) the invention fully utilizes the sensor and cloud computing to count and analyze the change of the health data of the passengers, can realize real-time analysis of the health data of the passengers, compares the data pre-stored in the system, and feeds back the data to the terminal equipment in real time, ensures the passengers to master the self health condition in long-distance flight in real time, can count the general health condition of the passengers, fills the system database, and creates good conditions for the subsequent health management work of the passengers.

Drawings

The technical scheme of the invention is further explained by combining the drawings and the embodiment as follows:

the invention relates to a passenger flight health management method and system based on AI intelligent technology.

Detailed description of the preferred embodiments

The specific embodiments described herein are merely illustrative of the invention and are not to be construed as limiting the invention.

It is to be understood that the described embodiments are merely a few embodiments of the invention, and not all embodiments. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments in the present application without any inventive step are within the scope of the present invention.

As shown in the figure, the invention provides a passenger flight health management method and system based on AI intelligent technology, the method and system comprises the following steps:

s1, creating a database in advance at the cloud: health indexes monitored by the terminal equipment are as follows: the range of the blood pressure, the heart rate and the body temperature comprises a normal range, a transition range between the extreme value of the normal range and a dangerous value. For various abnormal conditions of one index, presetting a corresponding solution in a database;

s2, creating or updating passenger personal profiles: the personal health information of the passenger is input, and comprises the major disease history, the medicine taking condition, the flight information, the allergic medicine and the like of the passenger. Searching in the existing database according to the identification number (identity card number/passport number) of the passenger, and updating historical data on the basis of the previous time if the cloud data already stores the information of the passenger; if not, the passenger information is created and saved;

s3, the passenger information is synchronized to the terminal device corresponding to the passenger. According to the contents of the passenger file, if the passenger takes the medicine, the passenger is reminded of taking the medicine at regular time and noticing the passenger. For example, according to the information of the medicine taken by the passenger, the passenger is reminded of the food to be avoided, and the passenger is waited for when the air pressure at high altitude is disturbed;

and S4, the terminal equipment monitors the blood pressure, heart rate and body temperature of the passenger in real time through the sensors, updates the data in real time and displays the data on a display screen of the terminal equipment. Meanwhile, the data ranges stored in the cloud database are compared, and whether the relevant index values are in the normal range or not is judged. If the numerical value of one index is not in the normal range and does not reach the danger value, the passenger is reminded and the measures to be taken are informed; if the numerical value of some index has reached or exceeded the danger value, inform the passenger that the emergency measures that should be taken immediately include first aid action, the medicine that needs to be taken, simultaneously the system automatic notice crew member to transfer the personal health information of this passenger of cloud storage, in order to take corresponding first aid measure.

Further, based on the long-distance flight scene affected by time difference, low air pressure, air flow disturbance and temperature-humidity ratio, the dangerous value of the blood pressure preset at the cloud end is smaller than the dangerous value on the ground in the scheme. For example, the normal blood pressure of a human body is not more than 140 high pressure and not more than 90 low pressure, and if the normal value is exceeded, danger may be caused. In a normal case, the danger value of the high pressure is 180, and the danger value of the low pressure is 110. Considering that the blood pressure is increased due to the high altitude and the pressure drop, the oxygen is thin and oxygen deficiency is easy to occur, the high pressure risk value can be set to 175, and the mortgage risk value can be set to 105. Especially for passengers with heart disease and hypertension, the dangerous values of high pressure and low pressure can be reduced continuously, so that the treatment can be timely carried out to avoid causing serious consequences.

The embodiment of the invention provides a passenger flight health management method and system based on an AI (artificial intelligence) technology, which can be applied to electronic devices such as but not limited to smart watches, bracelets, wireless earphones and the like.

The method and system for managing flight health of passengers based on the AI intelligence technology in the present embodiment are described by taking an example of application to a smart watch.

This embodiment relates to a smart watch, include: the display module comprises a main body equipment core assembly, a display module part, a watchband, a watch band buckle and a silica gel binding ring. This watchband of intelligent wrist-watch is the silica gel texture, can bring the user experience who has the affinity for the user, and the watchband lock mode of wrist-watch formula has guaranteed that wrist-watch is difficult for droing wearing the in-process, and only the watchband just can be opened when artificial dismantlement, is applicable to the application scene that the condition is complicated like the travel facility.

In the implementation mode taking the intelligent watch as an example, the main part is dial plate core assembly, and the main part includes the display screen, the interface that charges, infrared body temperature sensor, heart rate sensor. The edge part of the main body is wrapped by aluminum alloy, and the left edge of the surface is provided with an on-off key which can open or close the display screen. The interface that charges, infrared body temperature sensor and heart rate sensor set up at the back of wrist-watch, link to each other with positive display screen. The display screen is for the design of bent screen, and human wrist of laminating more can improve the sensor accuracy and promote the user and wear the impression. The infrared body temperature sensor measures body temperature. The heart rate sensor is an optical heart rate sensor comprising a light emitter, a photodiode and an Analog Front End (AFE), an accelerometer, and uses photoplethysmography (PPG) to measure heart rate and other biometric indicators. And then analyzing data such as heart rate, blood oxygen content, body temperature and the like through an algorithm, and searching and providing a solution in a cloud database if the index is abnormal. The light emitter is usually composed of at least two Light Emitting Diodes (LEDs), emits green light, and an optical barrier is provided between the light emitter and the photodiode and the Analog Front End (AFE) to reduce interference.

In this embodiment, the watchband is the silica gel material, has skin-friendly nature, and easily hugs closely user's wrist, is favorable to improving the accuracy of sensor discernment. The watchband is divided into two parts: one part of the tail part is connected with a watchband buckle, and the other part of the tail part is provided with a square small hole for the watchband buckle to pass through in the middle of the watchband every 8 millimeters from the position of connecting the main body part to one third of the whole watchband to the other end. The two parts of the watchband are provided with the uniform raised wavy veins on one side close to the wrist when being worn, so as to achieve the effects of ventilation and sweat conduction.

In this embodiment, the watchband buckle is the aluminum alloy material, and difficult wearing and tearing and light, the user wears the wrist for a long time and also can not feel very loaded, is applicable to long-distance flight.

In this embodiment, the watchband can be dismantled, can change the watchband alone under the condition of not changing main part to effectively practice thrift the cost.

In summary, the method and system for managing flight health of passengers based on the AI intelligent technology combine the AI technology with the sensor of the terminal device, intelligently monitor the health data of the passengers in real time, provide a reasonable solution when the data is abnormal according to the personal health information of the passengers, and ensure the safety of the passengers in long-distance flight. The invention fully utilizes the sensor and cloud computing to count and analyze the change of the health data of the passengers, can realize real-time analysis of the health data of the passengers, compares the data pre-stored in the system, and feeds back the data to the terminal equipment in real time, ensures the passengers to master the self health condition in long-distance flight, can count the health condition of the passengers as a whole, fills a system database, creates good conditions for the subsequent health management work of the passengers, and finally solves a series of health problems caused by time difference, low air pressure, air flow disturbance and temperature-humidity ratio in long-distance flight.

The above description is only for the purpose of illustrating the technical solutions of the present invention and not for the purpose of limiting the same, and other modifications or equivalent substitutions made by those skilled in the art to the technical solutions of the present invention should be covered by the claims of the present invention without departing from the spirit and scope of the technical solutions of the present invention.

Claims (6)

1. A passenger flight health management method and system based on AI intelligent technology is characterized by comprising the following contents:

the front-end program generates a front-end equipment data index and then sends the front-end equipment data index to the cloud system end;

the data of the off-line data storage device is directly sent to the cloud system end;

at a cloud system end, generating an offline storage data index by offline data storage equipment data, directly generating or storing the cloud system end data under the current index, and collecting the front-end equipment data index, the offline storage and the cloud system data index to form a total index;

creating a passenger personal profile: when a user inputs personal health information through the front end, sending a query instruction to the cloud system end, retrieving a matched result from the total index, and transmitting storage information corresponding to the index result to the front end equipment on line;

according to the file content of the passenger, if the passenger takes the medicine, the passenger is reminded of taking the medicine at regular time and noticing the passenger;

monitoring the blood pressure condition of passengers in real time: when the blood pressure of the passenger deviates from a normal value, the passenger is warned, if the passenger has cardiovascular diseases and the blood pressure is continuously increased, the health management system reminds and informs the passenger that the relevant measures to be taken comprise corresponding medicines to be taken, and meanwhile, the system automatically informs the crew members to process emergency situations;

monitoring the heart rate of the passenger in real time, and if the patient is a patient with arrhythmia, reminding the passenger to reduce activity, keep calm, make deep breath and inform the passenger of emergency medicines to be taken immediately when symptoms such as palpitation, chest distress and dyspnea occur;

on the premise of guaranteeing privacy and data safety, the health management scheme of each passenger and the detailed process of emergency medical aid are clearly and accurately recorded, a large amount of user data in an airport scene are obtained to enrich a database, and the purpose of accurate medical treatment is achieved.

2. The AI intelligence technology-based passenger flight health management method and system of claim 1, wherein the application scenario is an airport.

3. The AI intelligence technology based passenger flight health management method and system of claim 1, wherein the AI intelligence technology based passenger flight health management method and system is designed to solve a series of health problems caused by time difference, low air pressure, air flow disturbance, temperature and humidity ratio, etc. during long distance flight.

4. The AI intelligence technology-based passenger flight health management method and system of claim 1, wherein the front-end device is an electronic device, the front-end program is a mobile phone APP (mobile phone software), and the front-end device data index is a storage file name.

5. The AI intelligence technology-based passenger flight health management method and system of claim 1, wherein the personal health information of the passenger includes a passenger's major disease history, medication administration, flight information, allergies, etc., so that the health management is more personalized and the crew can take efficient, quick and accurate first aid measures according to the passenger's personal profile in case of an emergency.

6. A smart watch, comprising:

the main part, including the display screen, the interface that charges, infrared body temperature sensor and heart rate sensor. The heart rate sensor includes a light emitter, a photodiode, and an Analog Front End (AFE), an accelerometer, and uses photoplethysmography (PPG) to measure heart rate and other biometric indicators.

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