CN114523823B - Intelligent vehicle-mounted oxygen generation system and method based on big data - Google Patents

Abstract

The invention discloses an intelligent vehicle-mounted oxygen generation system and method based on big data, and relates to the technical field of vehicle-mounted oxygen generators. The system comprises a control server, a vehicle-mounted oxygen generator, an environment monitoring module, a heart rate monitoring module, a path planning module and a man-machine control panel, wherein the vehicle-mounted oxygen generator, the environment monitoring module, the heart rate monitoring module, the path planning module and the man-machine control panel are connected with the control server; and the control server controls the vehicle-mounted oxygen generator, the path planning module and the man-machine control panel to work according to the heart rate data detected by the heart rate monitoring module and the oxygen concentration data detected by the oxygen sensor of the environment monitoring module. Based on above-mentioned on-vehicle system oxygen of intelligence can be according to rhythm of the heart data and oxygen concentration data of monitoring, control on-vehicle oxygenerator work guarantees the interior oxygen concentration of car to confirm nearest rest place through the route planning module, alleviate the situation of interior personnel's oxygen deficiency or altitude stress, guarantee interior personnel's health and work efficiency.

Description

Intelligent vehicle-mounted oxygen generation system and method based on big data

Technical Field

The invention relates to the technical field of vehicle-mounted oxygen generators, in particular to an intelligent vehicle-mounted oxygen generation system and method based on big data.

Background

The vehicle-mounted oxygen generator is an important device for supplying oxygen in a vehicle under the condition of driving the vehicle in oxygen-deficient areas such as plateaus and the like. In a high altitude area, the oxygen concentration in the vehicle is monitored in real time and intelligently controlled, and the altitude reaction of people in the vehicle can be effectively relieved when the vehicle runs in the high altitude area. Especially for self-driving touring passengers and long-distance bus drivers in high altitude areas, the oxygen provided by the intelligent vehicle-mounted oxygen generation system ensures the health of people and improves the working efficiency to a great extent.

Disclosure of Invention

The invention aims to solve the problems of the background technology and provides an intelligent vehicle-mounted oxygen generation system and method based on big data.

The purpose of the invention can be realized by the following technical scheme:

the first aspect of the embodiment of the invention firstly provides an intelligent vehicle-mounted oxygen generation system based on big data, which comprises a control server, a vehicle-mounted oxygen generator, an environment monitoring module, a heart rate monitoring module, a path planning module and a man-machine control panel, wherein the vehicle-mounted oxygen generator, the environment monitoring module, the heart rate monitoring module, the path planning module and the man-machine control panel are connected with the control server; the environment monitoring module comprises an oxygen sensor and is used for detecting oxygen concentration data of the environment in the vehicle according to a preset period and sending the oxygen concentration data to the control server; the heart rate monitoring module is used for detecting heart rate data of people in the vehicle according to a preset period and sending the heart rate data to the control server; the control server controls the vehicle-mounted oxygen generator, the path planning module and the man-machine control panel to work according to the heart rate data and the oxygen concentration data.

Optionally, the vehicle-mounted oxygen generator is further connected with an oxygen bottle for storing oxygen.

Optionally, the intelligent vehicle-mounted oxygen generation system further comprises an alarm module, and the alarm module comprises a buzzer, a vibrator, an led flashing light and a wireless communication device.

Optionally, the environment monitoring module further comprises an air pressure sensor.

Optionally, the intelligent vehicle-mounted oxygen generation system further comprises a vehicle window control module for controlling the opening and closing of a vehicle window.

The second aspect of the embodiment of the invention also provides an intelligent vehicle-mounted oxygen generation method based on big data, which is applied to a control server and comprises the following steps:

acquiring oxygen concentration data acquired by an environment monitoring module and heart rate data acquired by a heart rate monitoring module;

controlling the working mode of the vehicle-mounted oxygen generator according to the oxygen concentration data and the heart rate data;

when the working mode of the vehicle-mounted oxygen generator is an oxygen generation mode, controlling a path planning module to acquire vehicle position information, determining a rest place nearest to the current vehicle position, and planning a target route to the rest place; the oxygen generation mode is that the vehicle-mounted oxygen generator is started and delivers oxygen to the interior of the vehicle;

and displaying the oxygen concentration data, the heart rate data, the working mode of the vehicle-mounted oxygen generator and the target route through a man-machine control panel.

Optionally, controlling the operating mode of the vehicle-mounted oxygen generator according to the oxygen concentration data and the heart rate data includes:

if the oxygen concentration data is lower than a first preset threshold and/or the heart rate data is higher than a second preset threshold, controlling the vehicle-mounted oxygen generator to start the oxygen generation mode;

if the oxygen concentration data is lower than a third preset threshold and/or the heart rate data is higher than a fourth preset threshold, controlling the vehicle-mounted oxygen generator to start the oxygen generation mode, and starting an auxiliary mode to release oxygen stored in the vehicle-mounted oxygen generator in advance; the third preset threshold is smaller than the first preset threshold, and the fourth preset threshold is larger than the second preset threshold.

Optionally, the method further comprises:

if the oxygen concentration data is lower than a third preset threshold and/or the heart rate data is higher than a fourth preset threshold, controlling an alarm module to give an alarm according to a preset period;

and if the alarm is not closed within the preset time, controlling the alarm module to send an alarm message containing the current position information to a preset telephone number.

Optionally, the method further comprises:

acquiring air pressure data of the current vehicle position acquired by an environment monitoring module;

and if the air pressure data is smaller than a fifth preset threshold value and the vehicle-mounted oxygen generator does not start the oxygen generation mode, controlling the vehicle-mounted oxygen generator to start the oxygen storage mode, generating oxygen and storing the oxygen in an oxygen bottle.

Optionally, the method further comprises:

and when the working mode of the vehicle-mounted oxygen generator is an oxygen generation mode, controlling the window control module to close the window of the vehicle.

The intelligent vehicle-mounted oxygen generation system based on the big data comprises a control server, a vehicle-mounted oxygen generator, an environment monitoring module, a heart rate monitoring module, a path planning module and a man-machine control panel, wherein the vehicle-mounted oxygen generator, the environment monitoring module, the heart rate monitoring module, the path planning module and the man-machine control panel are connected with the control server; the environment monitoring module comprises an oxygen sensor and is used for detecting oxygen concentration data of the environment in the vehicle according to a preset period and sending the oxygen concentration data to the control server; the heart rate monitoring module is used for detecting heart rate data of people in the vehicle according to a preset period and sending the heart rate data to the control server; and the control server controls the vehicle-mounted oxygen generator, the path planning module and the man-machine control panel to work according to the heart rate data and the oxygen concentration data. Based on above-mentioned on-vehicle system oxygen of intelligence can be according to rhythm of the heart data and oxygen concentration data of monitoring, control on-vehicle oxygenerator work guarantees the interior oxygen concentration of car to confirm nearest rest place through the route planning module, alleviate the situation of interior personnel's oxygen deficiency or altitude stress, guarantee interior personnel's health and work efficiency.

Drawings

The invention is further described below with reference to the accompanying drawings.

Fig. 1 is a block diagram of an intelligent vehicle-mounted oxygen generation system based on big data according to an embodiment of the invention.

FIG. 2 is a flow chart of an intelligent vehicle-mounted oxygen generation method based on big data according to an embodiment of the invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The embodiment of the invention provides an intelligent vehicle-mounted oxygen generation system based on big data. Referring to fig. 1, fig. 1 is a block diagram of an intelligent vehicle-mounted oxygen generation system based on big data according to an embodiment of the present invention. The system comprises a control server 101, a vehicle-mounted oxygen generator 102 connected with the control server 101, an environment monitoring module 103, a heart rate monitoring module 104, a path planning module 105, a man-machine control panel 106, an alarm module 107 and a vehicle window control module 108; an oxygen cylinder 109 connected to the on-board oxygen generator 102.

The environment monitoring module 103 includes an oxygen sensor 1031 and an air pressure sensor 1032, the oxygen sensor 1031 is configured to detect oxygen concentration data of an environment in the vehicle according to a preset period, and send the oxygen concentration data to the control server 101; the air pressure sensor 1032 is configured to monitor air pressure data of a current position of the vehicle, and send the air pressure data to the control server 101.

The alarm module 107 includes a buzzer 1071, a vibrator 1072, a led strobe light 1073, and a wireless communication device 1074.

The heart rate monitoring module 104 is configured to detect heart rate data of people in the vehicle according to a preset period and send the heart rate data to the control server 101;

and the control server 101 controls the vehicle-mounted oxygen generator 102, the path planning module 105, the man-machine control panel 106, the alarm module 107 and the window control module 108 to work according to the heart rate data and the oxygen concentration data.

According to the intelligent vehicle-mounted oxygen generation system based on the big data, provided by the embodiment of the invention, the vehicle-mounted oxygen generator can be controlled to work according to the monitored heart rate data and the monitored oxygen concentration data so as to ensure the oxygen concentration in the vehicle, the nearest rest place is determined through the path planning module, the condition of oxygen deficiency or altitude reaction of people in the vehicle is relieved, and the health and the working efficiency of the people in the vehicle are ensured.

The embodiment of the invention also provides an intelligent vehicle-mounted oxygen generation method based on the big data. Referring to fig. 2, fig. 2 is a flowchart of an intelligent vehicle-mounted oxygen generation method based on big data according to an embodiment of the present invention, where the method is applied to the control server 101, and may include the following steps:

s201, acquiring oxygen concentration data acquired by an environment monitoring module and heart rate data acquired by a heart rate monitoring module.

And S202, controlling the working mode of the vehicle-mounted oxygen generator according to the oxygen concentration data and the heart rate data.

S203, when the working mode of the vehicle-mounted oxygen generator is the oxygen generation mode, the control path planning module acquires the vehicle position information, determines a rest place nearest to the current vehicle position, and plans a target route going to the rest place.

And S204, displaying the oxygen concentration data, the heart rate data, the working mode of the vehicle-mounted oxygen generator and the target route through a man-machine control panel.

The oxygen generation mode is that the vehicle-mounted oxygen generator is started and delivers oxygen to the vehicle.

According to the intelligent vehicle-mounted oxygen generation method based on the big data, provided by the embodiment of the invention, the vehicle-mounted oxygen generator can be controlled to work according to the monitored heart rate data and the monitored oxygen concentration data so as to ensure the oxygen concentration in the vehicle, the nearest rest place is determined through the path planning module, the condition of oxygen deficiency or altitude reaction of people in the vehicle is relieved, and the health and the working efficiency of the people in the vehicle are ensured.

In an implementation, when oxygen content in the air is too low, the human heart rate can be accelerated, so that the state of personnel in the vehicle can be monitored through heart rate data on the one hand, and on the other hand, the oxygen content in the vehicle can be reflected. A heart rate monitoring bracelet may be used as a heart rate monitoring module, or a heart rate monitoring sensor may be installed in the back of each seat of the vehicle as a heart rate monitoring module. The heart rate monitoring module can send heart rate data to the control server according to a preset period, and the heart rate state of people in the vehicle can be mastered in real time.

In one implementation mode, when the working mode of the vehicle-mounted oxygen generator is the oxygen generation mode, the fact that people in the vehicle are likely to have uncomfortable symptoms is indicated, a target route can be provided through the path planning module, and the nearest rest place is marked, so that a driver can drive the vehicle to rest. The rest place may be a service area closest to the current position of the vehicle, or the rest place may be a town closest to the current position of the vehicle, or the rest place may be a gas station closest to the current position of the vehicle.

In one implementation mode, a person in the vehicle can automatically control the switch of the vehicle-mounted oxygen generator through the man-machine control panel.

In one embodiment, step S202 includes:

if the oxygen concentration data is lower than a first preset threshold and/or the heart rate data is higher than a second preset threshold, controlling the vehicle-mounted oxygen generator to start an oxygen generation mode;

if the oxygen concentration data is lower than a third preset threshold and/or the heart rate data is higher than a fourth preset threshold, controlling the vehicle-mounted oxygen generator to start an oxygen generation mode, and starting an auxiliary mode to release oxygen stored in the vehicle-mounted oxygen generator in advance; the third preset threshold is smaller than the first preset threshold, and the fourth preset threshold is larger than the second preset threshold.

In an implementation manner, the first preset threshold, the second preset threshold, the third preset threshold, and the fourth preset threshold may be set according to an actual situation, and are not limited herein.

In one implementation mode, the control server can control the working mode of the vehicle-mounted oxygen generator according to the oxygen concentration data, or the control server can control the working mode of the vehicle-mounted oxygen generator according to the heart rate data, or the control server can control the working mode of the vehicle-mounted oxygen generator according to the oxygen concentration data and the heart rate data.

In one implementation, if the oxygen concentration data is lower than a first preset threshold and/or the heart rate data is higher than a second preset threshold, it indicates that the oxygen content in the air is low and that the vehicle occupant may have discomfort. The oxygen content in the air in the vehicle is improved by opening the oxygen generation mode, the condition of oxygen deficiency or altitude reaction of people in the vehicle can be relieved, and the health and the working efficiency of the people in the vehicle are ensured. If the oxygen concentration data is lower than the third preset threshold and/or the heart rate data is higher than the fourth preset threshold, it is indicated that the oxygen content in the air is extremely low, and the safety of people in the vehicle may be damaged. By opening the auxiliary mode, oxygen pre-stored in the vehicle-mounted oxygen generator is released to quickly improve the oxygen content in the air in the vehicle, the oxygen generation mode is opened to continuously improve the oxygen content in the air in the vehicle, the oxygen content in the air in the vehicle reaches the normal content directly, and the heart rate of people in the vehicle is normal.

In one implementation, the control server may determine the number of people currently in the vehicle from the received heart rate data. And then can confirm the gear of the system oxygen mode of opening at present according to current personnel's quantity, for example, when only one man-hour in the current car, the gear of the system oxygen mode of opening at present can transfer the system oxygen of low speed, when 2-3 man-hours in the current car, the gear of the system oxygen mode of opening at present can transfer the system oxygen of medium speed, when being greater than 3 man-hours in the current car, the gear of the system oxygen mode of opening at present can transfer fast system oxygen.

In one embodiment, the method further comprises:

if the oxygen concentration data is lower than a third preset threshold and/or the heart rate data is higher than a fourth preset threshold, controlling an alarm module to give an alarm according to a preset period;

and if the alarm is turned on and is not turned off after the preset time, controlling the alarm module to send an alarm message containing the current position information to a preset telephone number.

In one implementation, the alarm module may include a buzzer, a vibrator, an led flashing light and a wireless communication device, and if the oxygen concentration data is lower than a third preset threshold and/or the heart rate data is higher than a fourth preset threshold, which indicates that there is a safety risk due to too low content in the air in the vehicle, the alarm module may send an alarm to the vehicle occupant through the buzzer, the vibrator and the led flashing light, for example, the alarm may be sent once in 10 minutes. If the alarm is turned on for more than the preset time and is not turned off, the dangerous situation of people in the vehicle is indicated, the wireless communication device can send an alarm message containing the current position to the preset telephone number, so that the people in the vehicle can be rescued conveniently.

In one embodiment, the method further comprises:

acquiring air pressure data of the current vehicle position acquired by an environment monitoring module;

and if the air pressure data is smaller than a fifth preset threshold value and the vehicle-mounted oxygen generator does not start the oxygen generation mode, controlling the vehicle-mounted oxygen generator to start the oxygen storage mode, and generating oxygen and storing the oxygen in the oxygen bottle.

In one implementation mode, when the air pressure of the current position of the vehicle is monitored to be too low, the situation that the vehicle is possibly located in a high altitude area currently is indicated, and in order to avoid the situation that the oxygen content in the air of the vehicle is too low and harms the safety of people in the vehicle, the oxygen storage mode can be started, oxygen is generated in advance and stored in an oxygen bottle. When the oxygen content in the air of the vehicle is too low, the oxygen stored in advance can be released, and the oxygen content in the air in the vehicle is rapidly improved.

In one implementation, the control server may obtain a current amount of energy remaining in the vehicle, such as an amount of fuel, an amount of gas, and an amount of electricity. And when the air pressure data is smaller than a fifth preset threshold value and the current residual energy quantity of the vehicle is higher than the preset threshold value, the oxygen storage mode is started, otherwise, the oxygen storage mode is not started.

In one embodiment, the method further comprises:

when the working mode of the vehicle-mounted oxygen generator is the oxygen generation mode, the vehicle window control module is controlled to close the vehicle window of the vehicle.

In one implementation mode, when the vehicle-mounted oxygen generator starts the oxygen generation mode, the control server can control the vehicle window control module to close the vehicle window so as to improve the oxygen content in the air in the vehicle.

While one embodiment of the present invention has been described in detail, the description is only a preferred embodiment of the present invention and should not be taken as limiting the scope of the invention. All equivalent changes and modifications made within the scope of the present invention shall fall within the scope of the present invention.

Claims (2)

1. An intelligent vehicle-mounted oxygen generation system based on big data is characterized by comprising a control server, a vehicle-mounted oxygen generator, an environment monitoring module, a heart rate monitoring module, a path planning module and a man-machine control panel, wherein the vehicle-mounted oxygen generator, the environment monitoring module, the heart rate monitoring module, the path planning module and the man-machine control panel are connected with the control server; the environment monitoring module comprises an oxygen sensor and is used for detecting oxygen concentration data of the environment in the vehicle according to a preset period and sending the oxygen concentration data to the control server; the heart rate monitoring module is used for detecting heart rate data of people in the vehicle according to a preset period and sending the heart rate data to the control server; the control server controls the vehicle-mounted oxygen generator, the path planning module and the man-machine control panel to work according to the heart rate data and the oxygen concentration data;

the vehicle-mounted oxygen generator is also connected with an oxygen bottle for storing oxygen;

the intelligent vehicle-mounted oxygen generation system also comprises an alarm module, wherein the alarm module comprises a buzzer, a vibrator, an LED strobe light and a wireless communication device; the environment monitoring module also comprises an air pressure sensor;

the intelligent vehicle-mounted oxygen generation system also comprises a vehicle window control module used for controlling the opening and closing of the vehicle window;

the intelligent vehicle-mounted oxygen generation method based on the intelligent vehicle-mounted oxygen generation system is applied to a control server, and comprises the following steps:

acquiring oxygen concentration data acquired by an environment monitoring module and heart rate data acquired by a heart rate monitoring module;

controlling the working mode of the vehicle-mounted oxygen generator according to the oxygen concentration data and the heart rate data;

when the working mode of the vehicle-mounted oxygen generator is the oxygen generation mode, the control path planning module acquires vehicle position information, determines a rest place nearest to the current vehicle position, and plans a target route going to the rest place; the oxygen generation mode is that the vehicle-mounted oxygen generator is started and delivers oxygen to the interior of the vehicle;

displaying the oxygen concentration data, the heart rate data, the working mode of the vehicle-mounted oxygen generator and the target route through a man-machine control panel;

controlling the working mode of the vehicle-mounted oxygen generator according to the oxygen concentration data and the heart rate data, and the method comprises the following steps:

if the oxygen concentration data is lower than a first preset threshold and/or the heart rate data is higher than a second preset threshold, controlling the vehicle-mounted oxygen generator to start the oxygen generation mode;

if the oxygen concentration data is lower than a third preset threshold and/or the heart rate data is higher than a fourth preset threshold, controlling the vehicle-mounted oxygen generator to start the oxygen generation mode, and starting an auxiliary mode to release oxygen stored in the vehicle-mounted oxygen generator in advance; the third preset threshold is smaller than the first preset threshold, and the fourth preset threshold is larger than the second preset threshold;

if the oxygen concentration data is lower than a third preset threshold and/or the heart rate data is higher than a fourth preset threshold, controlling an alarm module to give an alarm according to a preset period;

if the alarm is not closed within the preset time, controlling the alarm module to send an alarm message containing the current position information to a preset telephone number;

acquiring air pressure data of the current vehicle position acquired by an environment monitoring module;

and if the air pressure data is smaller than a fifth preset threshold value and the vehicle-mounted oxygen generator does not start the oxygen generation mode, controlling the vehicle-mounted oxygen generator to start the oxygen storage mode, generating oxygen and storing the oxygen in an oxygen bottle.

2. The intelligent vehicle-mounted oxygen generation system based on big data as claimed in claim 1, wherein the vehicle window control module is further configured to close a vehicle window when the operating mode of the vehicle-mounted oxygen generator is an oxygen generation mode.

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