CN112277797A

CN112277797A - Life detection alarm method, device, equipment and medium in automobile

Info

Publication number: CN112277797A
Application number: CN202011143988.9A
Authority: CN
Inventors: 陈少吉; 魏琳娜; 甘浩; 付鹏鹏; 梁兆俊
Original assignee: GAC NIO New Energy Automobile Technology Co Ltd
Current assignee: Hycan Automobile Technology Co Ltd
Priority date: 2020-10-23
Filing date: 2020-10-23
Publication date: 2021-01-29
Anticipated expiration: 2040-10-23
Also published as: CN112277797B

Abstract

The application provides a life detection alarm method and device in an automobile, computer equipment and a storage medium. The method comprises the following steps: the method comprises the steps of monitoring vital sign information sent by life detection equipment arranged in an automobile, generating a camera shooting instruction, controlling a vehicle terminal to start a vehicle-mounted camera, obtaining image information of a living body in the automobile and at least one life type of the living body, and executing a corresponding alarm strategy according to the life type. According to the scheme, the automobile is triggered to start the camera through the vital sign information acquired by the vital detection equipment, the camera does not need to be started all the time to shoot, and resources in the automobile are saved; and corresponding alarm strategies are executed according to different life types of the life bodies in the vehicle, so that the accuracy of life detection alarm is improved, and the safety of the life bodies is further improved.

Description

Life detection alarm method, device, equipment and medium in automobile

Technical Field

The present application relates to the field of automotive technologies, and in particular, to a method and an apparatus for detecting and alarming a life in an automobile, a computer device, and a storage medium.

Background

Along with the development of automobile technology, the function of automobile is more and more abundant, and comfortable environment and spacious space in the automobile facilitate for the user to carry children or animal trip, and the user can leave the car, forget children or animal in the car, and after the automobile stalled, equipment such as on-vehicle air conditioner, ventilation were closed, lead to in the car living environment worsen, influence children or animal's life safety.

In the prior art, whether a forgotten child or animal is on a seat of an automobile is detected by arranging a pressure sensor, so that the identification accuracy is low.

Disclosure of Invention

Therefore, it is necessary to provide a method, an apparatus, a computer device and a storage medium for detecting and alarming a life in an automobile, aiming at the technical problem in the prior art that the identification accuracy of a forgotten child or animal in the automobile is low.

A life detection alarm method in an automobile is applied to an automobile-connected cloud server, and comprises the following steps:

monitoring vital sign information sent by life detection equipment arranged in an automobile; the life detection equipment starts life detection under the condition that the automobile is powered off and doors and windows are closed;

if the vital sign information is monitored, generating a camera shooting instruction and sending the camera shooting instruction to a vehicle terminal of the automobile; the camera shooting instruction is used for indicating the vehicle terminal to start a vehicle-mounted camera so as to acquire image information of life bodies in the automobile, and the vehicle terminal is also used for identifying the life type of at least one life body contained in the image information and sending the life type to a vehicle-connected cloud server;

and executing a corresponding alarm strategy according to the life type sent by the vehicle terminal.

In one embodiment, after monitoring the vital sign information, the method further includes:

acquiring the electric quantity of the automobile power battery;

if the electric quantity of the automobile power battery is larger than a preset threshold value, controlling the automobile to be powered on so as to respond to the camera shooting instruction;

and if the electric quantity of the automobile power battery is less than or equal to the preset threshold value, sending prompt information to the mobile terminal.

In one embodiment, the executing a corresponding alarm strategy according to the life type sent by the vehicle terminal includes:

if the life type is detected to be children or animals, determining that the alarm strategy is a first alarm strategy; the first alarm strategy is used for controlling the vehicle terminal and/or a mobile terminal associated with the vehicle terminal to execute a response for eliminating the danger of children or animals in the automobile when being executed;

and executing the first alarm strategy.

In one embodiment, the executing the first alarm policy includes:

acquiring vital sign parameters of the at least one living body from the life detection device;

if the vital sign parameters are detected to be matched with preset safety standards, generating a first control instruction according to the first alarm strategy;

if the vital sign parameters are detected not to be matched with preset safety standards, generating a second control instruction according to the first alarm strategy;

sending at least one of the first control instruction and the second control instruction to the vehicle terminal;

the first control instruction is used for instructing the vehicle terminal to control the real-time image information of the at least one living body shot by the vehicle-mounted camera, and sending the real-time image information to the associated mobile terminal through the vehicle-connected cloud server;

the second control instruction is used for instructing the vehicle terminal to start air conditioners and/or ventilation equipment in the automobile.

In one embodiment, after the sending at least one of the first control instruction and the second control instruction to the vehicle terminal, the method further includes:

acquiring in-vehicle equipment parameters of the automobile from the vehicle terminal;

if the parameter of the equipment in the vehicle is detected not to be changed within the preset time, generating a third control instruction;

sending the third control instruction to the vehicle terminal; and the third control instruction is used for instructing the vehicle terminal to open the window of the automobile.

if the life type is detected to be an adult, acquiring the vital sign parameters of the at least one life body from the life detection equipment;

if the vital sign parameters are detected to be matched with preset safety standards, determining that the alarm strategy is a second alarm strategy;

generating a fourth control instruction according to the second alarm strategy, and sending the fourth control instruction to the vehicle terminal; and the fourth control instruction is used for instructing the vehicle terminal to control the power-off of the automobile.

A life detection alarm method in an automobile is characterized by being applied to a vehicle terminal, and the method comprises the following steps:

acquiring a camera shooting instruction sent by a vehicle-connected cloud server; the camera shooting instruction is generated by the vehicle-connected cloud server according to life characteristic information sent by life detection equipment arranged in an automobile; the life detection equipment starts life detection under the condition that the automobile is powered off and doors and windows are closed;

starting a vehicle-mounted camera according to the camera shooting instruction to acquire image information of the life body in the automobile;

identifying the life type of at least one life body contained in the image information, and sending the life type to a vehicle-connected cloud server; the vehicle-connected cloud server is further used for determining a corresponding alarm strategy according to the life type;

and acquiring the alarm strategy from the vehicle-connected cloud end, and executing the alarm strategy.

In one embodiment, the obtaining the alarm policy from the vehicle-associated cloud, and executing the alarm policy further includes:

receiving at least one of the first control instruction and the second control instruction sent by the vehicle-connected cloud server; the first control instruction is generated according to the first alarm strategy when the vehicle-connected cloud server detects that the life type is a child or an animal and detects that the vital sign parameters of the child or the animal are matched with a preset safety standard; the second control instruction is generated according to the first alarm strategy when the vehicle-connected cloud server detects that the life type is a child or an animal and the vital sign parameters of the child or the animal are not matched with a preset safety standard; the vital sign parameters are acquired by the vehicle-connected cloud server from the life detection equipment in the automobile;

if the received first control instruction is received, controlling the real-time image information of the at least one living body shot by the vehicle-mounted camera, and sending the real-time image information to the associated mobile terminal through the vehicle-connected cloud server;

and if the received second control instruction is the second control instruction, starting air conditioners and/or ventilation equipment in the automobile.

In one embodiment, after receiving at least one of the first control instruction and the second control instruction sent by the vehicular cloud server, the method further includes:

sending the in-vehicle equipment parameters of the automobile to the in-vehicle cloud server;

receiving the third control instruction sent by the vehicle-connected cloud server, and opening the window of the automobile; the third control instruction is generated when the vehicle-connected cloud server detects that the parameters of the in-vehicle equipment do not change within a preset time.

receiving a fourth control instruction sent by the vehicle-connected cloud server, and controlling the power-off of the vehicle; the fourth control instruction is generated when the vehicle-connected cloud server detects that the life type is an adult and the vital sign parameters of the adult are matched with a preset safety standard; the vital sign parameters are acquired by the vehicle-connected cloud server from the life detection equipment in the automobile.

The utility model provides a life detection alarm device in car is applied to car and allies oneself with high in the clouds server, the device includes:

the life information monitoring module is used for monitoring life characteristic information sent by life detection equipment arranged in the automobile; the life detection equipment starts life detection under the condition that the automobile is powered off and doors and windows are closed;

the camera shooting instruction generating module is used for generating a camera shooting instruction and sending the camera shooting instruction to the vehicle terminal of the automobile if the vital sign information is monitored; the camera shooting instruction is used for indicating the vehicle terminal to start a vehicle-mounted camera so as to acquire image information of life bodies in the automobile, and the vehicle terminal is also used for identifying the life type of at least one life body contained in the image information and sending the life type to a vehicle-connected cloud server;

and the alarm strategy execution module is used for executing a corresponding alarm strategy according to the life type sent by the vehicle terminal.

A life detection alarm device in an automobile, applied to a vehicle terminal, the device comprising:

the camera shooting instruction acquisition module is used for acquiring a camera shooting instruction sent by the vehicle-connected cloud server; the camera shooting instruction is generated by the vehicle-connected cloud server according to life characteristic information sent by life detection equipment arranged in an automobile; the life detection equipment starts life detection under the condition that the automobile is powered off and doors and windows are closed;

the image information acquisition module is used for starting the vehicle-mounted camera according to the camera shooting instruction to acquire the image information of the life body in the automobile;

the life type identification module is used for identifying the life type of at least one life body contained in the image information and sending the life type to the vehicle-connected cloud server; the vehicle-connected cloud server is further used for determining a corresponding alarm strategy according to the life type;

and the alarm strategy acquisition module acquires the alarm strategy from the vehicle-connected cloud and executes the alarm strategy.

A computer device comprising a memory storing a computer program and a processor implementing the steps of the method for life detection alarm in a car according to any of the above embodiments when the processor executes the computer program.

A computer-readable storage medium, on which a computer program is stored which, when being executed by a processor, carries out the steps of the method for life detection alarm in a vehicle according to any of the preceding embodiments.

According to the life detection alarm method and device in the automobile, the computer equipment and the storage medium, the vehicle-connected cloud server monitors the life characteristic information sent by the life detection equipment arranged in the automobile to generate a camera shooting instruction, controls the vehicle terminal to start the vehicle-mounted camera to obtain the image information of the life body in the automobile and the life type of at least one life body, and executes the corresponding alarm strategy according to the life type. According to the scheme, the automobile is triggered to start the camera through the vital sign information acquired by the vital detection equipment, the camera does not need to be started all the time to shoot, and resources in the automobile are saved; and corresponding alarm strategies are executed according to different life types of the life bodies in the vehicle, so that the accuracy of life detection alarm is improved, and the safety of the life bodies is further improved.

Drawings

FIG. 1 is a diagram of an exemplary embodiment of a life detection alarm method in an automobile;

FIG. 2 is a schematic flow diagram of a method for life detection alerting in an automobile according to one embodiment;

FIG. 3 is a diagram of a mobile terminal for life detection alarm in an automobile, according to one embodiment;

FIG. 4 is a schematic flow chart of a life detection alarm method in an automobile according to another embodiment;

FIG. 5 is a schematic flow chart of a life detection alarm method in an automobile according to another embodiment;

FIG. 6 is a block diagram showing the construction of a life detection alarm device in an automobile according to an embodiment;

FIG. 7 is a block diagram showing a life detection alarm device in an automobile according to another embodiment;

FIG. 8 is a diagram illustrating an internal structure of a computer device according to an embodiment.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

It should be noted that the terms "first \ second \ third \ fourth" related to the embodiments of the present invention are merely used for distinguishing similar objects, and do not represent a specific ordering for the objects, and it should be understood that "first \ second \ third \ fourth" may exchange a specific order or sequence order if allowed. It should be understood that the terms first, second, third and fourth, etc. used herein are interchangeable under appropriate circumstances such that the embodiments of the invention described herein are capable of operation in other sequences than those illustrated or otherwise described herein.

The life detection alarm method in the automobile can be applied to the application environment shown in fig. 1. The vehicle-connected cloud server is communicated with the vehicle terminal, the mobile terminal and the life detection device through a network. The life detection equipment can detect the life characteristic information in the automobile and sends the life characteristic information to the automobile-connected cloud server. The vehicle-connected cloud server can generate a camera shooting instruction according to the vital sign information and send the camera shooting instruction to the vehicle terminal, acquire the vital type in the automobile from the vehicle terminal, and determine and execute a corresponding alarm strategy according to the vital type. The mobile terminal can be but not limited to various personal computers, notebook computers, smart phones, tablet computers and portable wearable devices, the vehicle terminal can be a client arranged on an automobile, the vehicle-associated cloud server can be realized by an independent server or a server cluster consisting of a plurality of servers, and the life detection device can be but not limited to radar equipment, sensors and the like.

In one embodiment, as shown in fig. 2, a method for detecting and alarming life in an automobile is provided, which is described by taking the method as an example applied to the vehicle-associated cloud server in fig. 1, and includes the following steps:

step S201, monitoring vital sign information sent by a life detection device arranged in an automobile.

The vehicle-connected cloud server can be in communication connection with the life detection device and monitors starting information and sending information of the life detection device. The life detection device may initiate life detection when the vehicle is powered down and the doors and windows are closed. The door and window closing can comprise closing all doors, windows, skylights and back doors of the automobile. The life detection device may be a radar or smart sensor and the vital signs information may be obtained by initiating detection. The vital sign information may include, but is not limited to, weight, body temperature, sound, respiration, heartbeat, etc. of the living body, which may confirm the existence of the living body.

In specific implementation, under the condition that the automobile is powered off and doors and windows are closed, the life detection device starts to detect possible remaining life bodies in the automobile so as to obtain life characteristic information in the automobile. The vehicle-connected cloud server can acquire and send the vital sign information sent by the vital detection equipment.

And step S202, if the vital sign information is monitored, generating a camera shooting instruction and sending the camera shooting instruction to a vehicle terminal of the automobile.

The camera shooting instruction can be used for instructing the vehicle terminal to start the vehicle-mounted camera so as to acquire image information of the life body in the automobile, and the vehicle terminal can also be used for identifying the life type of at least one life body contained in the image information and sending the life type to the vehicle-connected cloud server. The life type of the at least one living being may include, but is not limited to, adults, animals, and children. The vehicle terminal can preset a corresponding image recognition algorithm, recognize the life type of the life body in the vehicle according to the image information, and also recognize the life type of the life body through a recognition module of the camera.

In specific implementation, the vehicle-connected cloud server can send a camera shooting instruction to the vehicle terminal according to the monitored vital sign information. The vehicle terminal can start the camera to shoot the life body in the vehicle according to the camera shooting instruction, identifies the life type of the life body according to the image information, and sends the life type to the vehicle-connected cloud server.

And step S203, executing a corresponding alarm strategy according to the life type sent by the vehicle terminal.

Wherein, different life types leave over the risk degree that faces at the car different, and car allies oneself with cloud end server can set up corresponding alarm strategy in advance according to life type to improve the efficiency and the effect that the risk dealt with. For example, children and animals left behind in a car are significantly more life threatening than adults, and therefore a higher level of alarm strategy should be employed. The alarm strategy may include, but is not limited to, issuing an early warning message to a user's mobile terminal, issuing an emergency contact instruction to a management terminal, issuing an instruction to start an air conditioner, a window, etc. to a vehicle terminal, and controlling the vehicle to power down.

In specific implementation, the vehicle-associated cloud server can obtain a preset alarm strategy corresponding to the life type according to the life type of at least one life body, and execute the alarm strategy.

In the method for alarming for detecting the life in the automobile, the vehicle-connected cloud server generates a camera shooting instruction by monitoring the life characteristic information sent by the life detection equipment arranged in the automobile, controls the vehicle terminal to start the vehicle-mounted camera, obtains the image information of the life in the automobile and the life type of at least one life, and executes a corresponding alarm strategy according to the life type. According to the scheme, the automobile is triggered to start the camera through the vital sign information acquired by the vital detection equipment, the camera does not need to be started all the time to shoot, and resources in the automobile are saved; and corresponding alarm strategies are executed according to different life types of the life bodies in the vehicle, so that the accuracy of life detection alarm is improved, and the safety of the life bodies is further improved.

In an embodiment, after the step S202 determines that the vital sign information is monitored, the method further includes:

acquiring the electric quantity of an automobile power battery; if the electric quantity of the automobile power battery is larger than a preset threshold value, controlling the automobile to be powered on so as to respond to a camera shooting instruction; and if the electric quantity of the automobile power battery is less than or equal to a preset threshold value, executing a corresponding alarm strategy.

In this embodiment, the car allies oneself with cloud end server can long-rangely start the car to the equipment in the control car. Starting a device in a vehicle by a vehicle terminal consumes power of a power battery, and therefore, it is required to ensure that the remaining power of the power battery meets the requirement, wherein the preset threshold may be the minimum power required for maintaining the vehicle terminal to perform a corresponding task, for example, 15% of the full load power of the battery. The vehicle-connected cloud server can acquire the electric quantity of the power battery of the automobile from the information uploaded by the vehicle terminal, and if the electric quantity is larger than a preset threshold value, the automobile is controlled to be powered on so as to start the camera equipment.

In some embodiments, if the electric quantity of the power battery of the vehicle is less than or equal to the preset threshold value, the electric quantity of the power battery is not enough to start the camera and respond to the control instruction, and the vehicle-associated cloud server can perform reminding, including but not limited to sending a prompt message to the mobile terminal of the user, sending an emergency contact instruction to the management terminal, and sending an instruction to start an air conditioner, a window and the like to the vehicle terminal.

According to the scheme of the embodiment, when the electric quantity of the automobile power battery is larger than the preset threshold value, the automobile cloud server remotely controls the automobile to be powered on so as to start the camera for further judgment, if the electric quantity of the automobile power battery is smaller than or equal to the preset threshold value, the corresponding alarm strategy is executed, and the life detection alarm efficiency is improved.

In one embodiment, the step of executing the corresponding alarm strategy according to the life type transmitted by the vehicle terminal, which is determined in step S203, includes:

if the life type is detected to be children or animals, determining that the alarm strategy is a first alarm strategy; and executing the first alarm strategy.

In this embodiment, the first alarm strategy may be implemented to control the vehicle terminal and/or a mobile terminal associated with the vehicle terminal to execute a response to eliminate a child or animal hazard in the vehicle. At least one life type of the life body can be children or animals, belongs to an alarm object of life detection alarm, and needs to give an alarm and take corresponding rescue measures. The vehicle-associated cloud server may determine that the alarm policy is a first alarm policy. The first alarm strategy may include, but is not limited to, issuing an early warning message to a user's mobile terminal, issuing an emergency contact instruction to a management terminal, and issuing an instruction to start an air conditioner, a window, etc. to a vehicle terminal.

In some embodiments, the vehicle-mounted camera or the vehicle terminal may identify according to the acquired image information according to a pre-configured image identification module, and determine that the living body left in the vehicle is a human or an animal. Further, the age of the human can be identified by an age identification algorithm, and the human is determined to be an adult or a child according to a preset age threshold of the adult and the child. The vehicle terminal can also send the image to the vehicle-connected cloud server to identify the life type of the life body.

In some embodiments, the in-vehicle camera may be configured to face the rear seats to acquire and identify life carryover in the rear seats.

In some embodiments, when the life detection device acquires the vital sign information but the vehicle-mounted camera does not shoot or cannot identify a living body, the vehicle-associated cloud server may execute a first alarm policy, including but not limited to sending an early warning message to a mobile terminal of a user, sending an emergency contact instruction to a management terminal, and sending an instruction to start an air conditioner, a window, and the like to a vehicle terminal.

According to the scheme of the embodiment, if the vehicle-connected cloud server detects that the life type is children or animals, the first strategy is executed, the vehicle terminal and the terminal are controlled to execute relevant response operation, and the efficiency of life detection alarming is improved.

In one embodiment, the step of executing the first alarm policy may comprise:

acquiring vital sign parameters of at least one living body from a life detection device; if the detected vital sign parameters are matched with preset safety standards, generating a first control instruction according to a first alarm strategy; if the vital sign parameters are detected not to be matched with the preset safety standard, generating a second control instruction according to the first alarm strategy; and sending at least one of the first control instruction and the second control instruction to the vehicle terminal.

In this embodiment, the first control instruction may be used to instruct the vehicle terminal to control real-time image information of at least one living body captured by the vehicle-mounted camera, and send the real-time image information to the associated mobile terminal through the vehicle-connected cloud server; the second control instruction may be for instructing the vehicle terminal to activate an air conditioner and/or a ventilation device in the car. The vehicle-connected cloud server can determine different control instructions corresponding to the first alarm strategy according to the vital sign parameters of the living body, and sends the control instructions to the vehicle terminal and the associated mobile terminal, so that the vehicle terminal executes corresponding control tasks to rescue the child or the animal. The vital sign parameters may include, but are not limited to, respiration, temperature, heartbeat, etc. of a living body. The preset safety standard can be reference data corresponding to vital sign parameters, normal breathing frequency, normal body temperature range, normal heartbeat frequency and the like of a life body in the vehicle.

In one embodiment, under the condition that the type of life in the car is a child or an animal, if the car-associated cloud server detects that the vital sign parameters of the child or the animal are matched with the corresponding preset safety standards, it indicates that the vital signs of the child or the animal are normal and in a relatively safe state when the child or the animal is left, and the first control instruction can be generated according to a first alarm strategy. The first control instruction can be used for instructing the vehicle terminal to control real-time image information of the child or the animal shot by the vehicle-mounted camera, and sending the real-time image information to the vehicle-connected cloud server. The vehicle-connected cloud server can send the real-time image information to the mobile terminal of the user, remind the user that children or animals are left in the vehicle and need to take rescue measures in time, and inform the current situation of the children or the animals through the real-time image information. The display interface of the mobile terminal can be as shown in fig. 3.

In one embodiment, in the case that the in-car life type is a child or an animal, if the in-car cloud server detects that the vital sign parameters of the child or the animal do not match the corresponding preset safety standards, for example, the body temperature of the child or the animal exceeds a normal body temperature range, it is characterized that the child or the animal is in a high risk state. The vehicle-connected cloud server can generate a second control instruction according to the first alarm strategy, and the second control instruction can be used for indicating the vehicle terminal to start an air conditioner and/or a ventilation device in the automobile. In some cases, the second control instruction may also include the content of the first control instruction, i.e., that is, the real-time image information is to be acquired and the notification information and the image information are transmitted to the associated mobile terminal.

In one embodiment, during execution of the first alarm strategy, if a user opens a vehicle door, the alarm state is released, equipment such as an air conditioner and the like which is started stops running, and the vehicle-connected cloud server controls the vehicle to remotely power off. The vehicle-associated cloud server can send the information that the alarm is relieved to the mobile terminal of the user.

In one embodiment, when the life type in the car is children or animals, the car-associated cloud server does not open the door of the car or does not respond to the first control instruction through the mobile terminal within a preset time after the first control instruction is sent, and the car-associated cloud server can also obtain an emergency contact call of the user and send the emergency contact call to the management terminal to prompt a manager to implement manual notification and also can make an alarm call such as 110.

According to the scheme of the embodiment, under the condition that the life type in the car is children or animals, the car-associated cloud server can control the car terminal and the associated mobile terminal to execute response according to the vital sign parameters and different first control instructions and second control instructions of risk conditions, and flexibility and effectiveness of life detection alarm are improved.

In one embodiment, after at least one of the first control instruction and the second control instruction is sent to the vehicle terminal, the method includes:

acquiring in-vehicle equipment parameters of an automobile from a vehicle terminal; if the situation that the parameters of the equipment in the vehicle do not change within the preset time length is detected, generating a third control instruction; sending a third control instruction to the vehicle terminal; and the third control instruction is used for instructing the vehicle terminal to open the window of the automobile.

In this embodiment, the in-vehicle device parameters may include, but are not limited to, a door opening state change, a status of the mobile terminal for remotely controlling the vehicle terminal, and the like. The preset change of the in-vehicle device can be a signal of opening a vehicle door, remote control and the like, and represents that a user, a rescuer or a living body in the vehicle has taken a corresponding action, for example, the vehicle door is changed from a closed state to an open state, or an instruction for knowing a risk is triggered through a mobile terminal. The vehicle-connected cloud server can also send a control instruction to the management terminal, so that the management terminal executes corresponding rescue actions.

In one embodiment, when the life type of the vehicle is a child or an animal, the vehicle-associated cloud server may set a waiting time period after sending the first control instruction or the second control instruction, wait for a user or other personnel to rescue, and if it is detected that the parameter of the vehicle-mounted device does not change within the preset time period, for example, the time period exceeds 20 minutes, the user still does not arrive at the vehicle door or does not respond to the first control instruction through the mobile terminal, so as to represent that the child or the animal is in a high-risk state, and the vehicle-associated cloud server may generate the third control instruction according to the first alarm policy.

The vehicle terminal responds to a third control instruction to start the equipment in the automobile, and the equipment can comprise at least one control item, such as controlling the air conditioner to be started, adjusting the air conditioner to be in an automatic mode and an external circulation mode, and starting the equipment for a preset time length. If any control item fails to be opened, the vehicle terminal can restore each control item to the last value, and sends a popup window with the highest priority to the mobile terminal to prompt that the relevant control item cannot be started due to electrical faults, so that the vehicle is reminded to confirm the state and contact with customer service.

The vehicle-connected cloud server can set the time length of each turn-on of the air conditioner to be preset time length, for example, half an hour, after the preset time length is exceeded, the air conditioner and ventilation equipment in the vehicle are turned off, and the execution of the third control instruction is finished. The vehicle-connected cloud server can acquire the parameters of the devices in the vehicle from the vehicle terminal and the parameters of the vital signs from the life detection device, judge whether the danger of the children or the animals is relieved, and if the parameters of the vital signs and the parameters of the devices in the vehicle are not preset within a preset time period and still accord with the generation condition of the third control instruction, the third control instruction is generated again, and the air conditioner and/or the ventilation device in the vehicle is triggered and started. If the electric quantity of the vehicle power battery is smaller than or equal to the preset threshold value, the vehicle terminal can provide current vehicle state information, rescue information and pacifying information for the in-vehicle living body through a terminal display screen or voice equipment, and controls the window to be opened by a preset amplitude, for example, 10%.

In one embodiment, according to the life type sent by the vehicle terminal, executing a corresponding alarm strategy, comprising:

if the detected life type is adult, acquiring at least one vital sign parameter of a life body from the life detection equipment; if the detected vital sign parameters are matched with the preset safety standard, determining the alarm strategy as a second alarm strategy; generating a fourth control instruction according to the second alarm strategy, and sending the fourth control instruction to the vehicle terminal; and the fourth control instruction is used for indicating the vehicle terminal to control the power-off of the automobile.

In this embodiment, the fourth control instruction may be used to instruct the vehicle terminal to control the power-off of the vehicle. In the case where the type of life in the vehicle is an adult, the judgment risk is low, and the case is generally that the person stays in the vehicle actively, for example, the person has a temporary rest in the vehicle. The vehicle-connected cloud server can determine that the alarm strategy is the second alarm strategy, can take no corresponding measures, and sends a fourth control instruction to the vehicle terminal to control the power-off of the vehicle.

The vehicle-connected cloud server can also determine whether the adult accords with a preset safety standard according to the acquired vital sign parameters, if so, the automobile is controlled to be powered off, and if not, a first control instruction or a second control instruction can be generated to give an alarm in time, so that the flexibility of life detection alarm is improved.

According to the scheme of the embodiment, under the condition that the life type in the automobile is an adult, the judgment risk is low, the fourth control instruction can be generated, the automobile is controlled to be powered off remotely, and the flexibility of life detection alarm is improved.

In one implementation, the user can preset and make the car enter the life detection mode, and under the life detection mode, after the car allies oneself with the high in the clouds server and receives the signal that the car went off the electricity and door and window was closed, if do not monitor the signal of life detection equipment in the predetermined duration, can trigger the life detection and report to the police, control the door and window and open predetermined range, for example 10%.

In one embodiment, as shown in fig. 4, there is provided a life detection alarm method in a car, applied to a vehicle terminal, including:

step S401, acquiring a camera shooting instruction sent by a vehicle-connected cloud server;

the camera shooting instruction can be generated by the vehicle-connected cloud server according to vital sign information sent by the vital detection equipment arranged in the automobile; the life detection equipment can start life detection under the condition that the automobile is powered off and doors and windows are closed;

in specific implementation, the vehicle-connected cloud server can acquire the vital sign information from the life detection equipment, generate a camera shooting instruction and send the camera shooting instruction to the vehicle terminal. The vehicle terminal may acquire the camera instruction.

Step S402, starting a vehicle-mounted camera according to a camera shooting instruction to acquire image information of a living body in an automobile;

in specific implementation, the vehicle terminal can start the vehicle-mounted camera according to the camera shooting instruction to shoot image information of the living body in the automobile.

Step S403, identifying a life type of at least one living body included in the image information, and sending the life type to the cloud server of the vehicle-associated cloud.

The vehicle terminal can identify the life type of the life body according to the image identification module or the image identification module of the vehicle-mounted camera. The vehicle-connected cloud server can determine a preset corresponding alarm strategy according to the life type. For example, children and animals left behind in a car are significantly more life threatening than adults, and therefore a higher level of alarm strategy should be employed.

And S404, acquiring an alarm strategy from the vehicle-connected cloud and executing the alarm strategy.

The warning strategy may include, but is not limited to, sending a warning message to a mobile terminal of a user, sending an instruction to start an air conditioner, a window, and the like to a vehicle terminal, and controlling the vehicle to power off. The vehicle terminal can execute the command according to the control command corresponding to the alarm strategy so as to rescue the life in the vehicle.

According to the scheme of the embodiment, after the automobile is powered off and doors and windows are closed, the acquired cloud server of the automobile connection starts the vehicle-mounted camera in response to the camera shooting instruction generated according to the vital sign information in the automobile, the image information of the vital body in the automobile and the vital type of at least one vital body are acquired and sent to the cloud server of the automobile connection, so that the cloud server of the automobile connection determines a corresponding alarm strategy according to the vital type, and the alarm strategy is executed by the vehicle terminal. According to the scheme, the vehicle terminal responds to the command of the vehicle-connected cloud server to start the camera, the camera does not need to be started all the time to shoot, and resources in a vehicle are saved; and corresponding alarm strategies are executed according to different life types of the life bodies in the vehicle, so that the accuracy of life detection alarm is improved, and the safety of the life bodies is further improved.

In one implementation, the step of obtaining the alarm policy from the vehicle-associated cloud determined in step S404 and executing the alarm policy further includes:

and receiving at least one of a first control instruction and a second control instruction sent by the vehicle-associated cloud server.

In this embodiment, the first control instruction may be generated according to a first alarm policy when the vehicle-associated cloud server detects that the life type is a child or an animal and detects that the vital sign parameters of the child or the animal are matched with the preset safety standard. The second control instruction can be generated according to the first alarm strategy when the vehicle-connected cloud server detects that the life type is children or animals and the vital sign parameters of the children or the animals are not matched with the preset safety standard; the vital sign parameters can be acquired by the vehicle-connected cloud server from the life detection equipment in the automobile.

The life detection device can be used for obtaining at least one vital sign parameter of a life body and sending the vital sign parameter to the vehicle-connected cloud server, so that the vehicle-connected cloud server generates a corresponding control instruction after processing.

The vehicle terminal can control the vehicle-mounted camera to shoot real-time image information according to the received first control instruction, and the real-time image information is sent to the associated mobile terminal through the vehicle-connected cloud server. The vehicle terminal can start the air conditioner and the ventilation equipment in the automobile according to the received second control instruction. The specific operation executed by the vehicle terminal according to the first control instruction and the second control instruction is the same as the above description, and is not repeated.

According to the scheme of the embodiment, under the condition that the life type in the car is children or animals, the car-associated cloud server can generate the first control instruction and the second control instruction according to the vital sign parameters and different risk conditions, the vehicle terminal can acquire the first control instruction and the second control instruction and execute corresponding operations, and flexibility and effectiveness of life detection alarming are improved.

sending the in-vehicle equipment parameters of the automobile to an in-vehicle cloud server; and receiving a third control instruction sent by the vehicle-connected cloud server, and opening the window of the vehicle.

In this embodiment, the vehicle terminal can acquire the in-vehicle device parameter and send for the car federation cloud server. The third control instruction may be generated when the vehicle-connected cloud server detects that the parameter of the in-vehicle device is not changed within the preset time, which indicates that the first control instruction or the second control instruction is not effective, and a living body in the vehicle has a greater risk. The vehicle terminal can control the window to be opened by a preset amplitude, for example, 10% according to the third control instruction, so that the flexibility and the accuracy of the life detection alarm are improved.

In one embodiment, acquiring an alarm policy from the vehicle-associated cloud, and executing the alarm policy further includes:

and receiving a fourth control instruction sent by the vehicle-connected cloud server, and controlling the power-off of the vehicle.

In this embodiment, the fourth control instruction may be generated when the vehicle-associated cloud server detects that the life type is an adult, and the vital sign parameter of the adult is matched with the preset security standard, so as to determine that the risk is low. The vital sign parameters can be acquired from a life detection device in the automobile by the automobile-connected cloud server. And the vehicle terminal can control the automobile to power off according to the fourth control instruction so as to save resources.

According to the scheme of the embodiment, the vehicle terminal executes the fourth control instruction to control the power-off of the automobile under the condition that the life type of the vehicle terminal is adult and the vital sign parameters are matched with the preset safety standard, so that the flexibility of life detection alarm is improved.

In one embodiment, as shown in fig. 5, there is provided a life detection alarm method in an automobile, the method comprising:

501: under the condition that the automobile is powered off and doors and windows are closed, the life detection equipment starts detection to acquire life characteristic information in the automobile;

502: the vehicle-connected cloud server monitors the existence of the vital sign information, generates a camera shooting instruction and sends the camera shooting instruction to a vehicle terminal of the automobile;

503: the vehicle terminal starts the vehicle-mounted camera, obtains image information of the life body in the automobile, identifies the life type of the life body in the image information and sends the life type to the vehicle-connected cloud server;

504: the vehicle-connected cloud server executes a corresponding alarm strategy according to the life type;

5041: if the life type is detected to be children or animals, determining that the alarm strategy is a first alarm strategy; acquiring vital sign parameters of at least one living body from a life detection device;

5041 a: if the detected vital sign parameters are matched with the preset safety standard, generating a first control instruction according to a first alarm strategy, and sending the first control instruction to the vehicle terminal; the vehicle terminal controls the real-time image information of at least one living body shot by the vehicle-mounted camera according to the instruction, and sends the real-time image information to the associated mobile terminal through the vehicle-connected cloud server;

5041 b: if the vital sign parameters are detected not to be matched with the preset safety standard, generating a second control instruction according to the first alarm strategy; sending the data to a vehicle terminal; the vehicle terminal starts air conditioners and/or ventilation equipment in the automobile according to the instruction;

5041 c: after at least one of the first control instruction and the second control instruction is sent to the vehicle terminal, obtaining an in-vehicle equipment parameter of the automobile from the vehicle terminal, if the in-vehicle equipment parameter is detected not to be changed within a preset time length, generating a third control instruction, and sending the third control instruction to the vehicle terminal; the vehicle terminal opens the vehicle window of the vehicle according to the instruction;

5042: if the detected life type is adult, determining that the alarm strategy is a second alarm strategy; acquiring vital sign parameters of at least one living body from a life detection device;

5042 a: if the vital sign parameters are detected not to be matched with preset safety standards, generating a first control instruction or a second control instruction;

5042 a: and if the detected vital sign parameters are matched with the preset safety standard, generating a fourth control instruction, sending the fourth control instruction to the vehicle terminal, and controlling the power-off of the automobile by the vehicle terminal according to the instruction.

According to the scheme of the embodiment, after the automobile is powered off and doors and windows are closed, the life detection equipment starts detection to obtain life characteristic information in the automobile, the automobile-connected cloud server controls the automobile terminal to start the vehicle-mounted camera according to the monitored life characteristic information, image information in the automobile is shot, life type information identified by an image is obtained through the automobile terminal, a first alarm strategy and a second alarm strategy are determined according to the life type, the automobile-connected cloud server can combine life sign parameters of a life body according to different alarm strategies, the difference of risk degrees is judged, a first control instruction to a fourth control instruction are provided, the accuracy and flexibility of life detection alarm are improved, and the safety of the life body left in the automobile is further improved.

In one embodiment, the automobile can be configured as a whole automobile network, and the automobile state is synchronized to the automobile-connected cloud server and the mobile terminal of the user in real time. For example, the vehicle terminal or the temperature sensing device arranged in the vehicle can obtain the temperature in the vehicle, and upload the temperature result to the cloud server of the vehicle and the mobile terminal of the user through the network. The vehicle-connected cloud server can remotely control the air conditioner, including opening and closing the air conditioner, the wind speed and the wind direction. The air conditioner realizes an automatic mode and automatically adjusts the temperature in the vehicle; the seat can also be remotely controlled through a network, and the seat has the functions of opening and closing ventilation and heating, so that good body feeling is realized for the vehicle owner.

It should be understood that although the various steps in the flow charts of fig. 2-5 are shown in order as indicated by the arrows, the steps are not necessarily performed in order as indicated by the arrows. The steps are not performed in the exact order shown and described, and may be performed in other orders, unless explicitly stated otherwise. Moreover, at least some of the steps in fig. 2-5 may include multiple steps or multiple stages, which are not necessarily performed at the same time, but may be performed at different times, which are not necessarily performed in sequence, but may be performed in turn or alternately with other steps or at least some of the other steps.

In one embodiment, as shown in fig. 6, there is provided a life detection alarm device in an automobile, applied to an in-vehicle cloud server, the device 600 includes:

the life information monitoring module 601 is used for monitoring life characteristic information sent by life detection equipment arranged in an automobile; the life detection equipment starts life detection under the condition that the automobile is powered off and doors and windows are closed;

the camera shooting instruction generating module 602 is configured to generate a camera shooting instruction and send the camera shooting instruction to a vehicle terminal of the automobile if the vital sign information is monitored; the camera shooting instruction is used for indicating the vehicle terminal to start the vehicle-mounted camera so as to acquire image information of life bodies in the automobile, and the vehicle terminal is also used for identifying the life type of at least one life body contained in the image information and sending the life type to the vehicle-connected cloud server;

and the alarm strategy executing module 603 is configured to execute a corresponding alarm strategy according to the life type sent by the vehicle terminal.

In one embodiment, the image capturing instruction generating module 602 further includes: the electric quantity judging unit is used for acquiring the electric quantity of the automobile power battery; if the electric quantity of the automobile power battery is larger than a preset threshold value, controlling the automobile to be powered on so as to respond to a camera shooting instruction; and if the electric quantity of the automobile power battery is less than or equal to a preset threshold value, sending prompt information to the mobile terminal.

In one embodiment, the alarm policy enforcement module 603 further includes: the first alarm strategy unit is used for determining that the alarm strategy is a first alarm strategy if the life type is detected to be children or animals; the first alarm strategy is executed and used for controlling the vehicle terminal and/or the mobile terminal associated with the vehicle terminal to execute a response for eliminating the danger of children or animals in the automobile; a first alarm strategy is executed.

In one embodiment, the first alarm policy unit is further configured to: acquiring vital sign parameters of at least one living body from a life detection device; if the detected vital sign parameters are matched with preset safety standards, generating a first control instruction according to a first alarm strategy; if the vital sign parameters are detected not to be matched with the preset safety standard, generating a second control instruction according to the first alarm strategy; sending at least one of the first control instruction and the second control instruction to the vehicle terminal; the first control instruction is used for instructing the vehicle terminal to control real-time image information of at least one living body shot by the vehicle-mounted camera, and sending the real-time image information to the associated mobile terminal through the vehicle-connected cloud server; the second control instruction is used for instructing the vehicle terminal to start air conditioners and/or ventilation equipment in the automobile.

In one embodiment, the first alarm policy unit is further configured to: acquiring in-vehicle equipment parameters of an automobile from a vehicle terminal; if the situation that the parameters of the equipment in the vehicle do not change within the preset time length is detected, generating a third control instruction; sending a third control instruction to the vehicle terminal; and the third control instruction is used for instructing the vehicle terminal to open the window of the automobile.

In one embodiment, the alarm policy enforcement module 603 further includes: the second alarm strategy unit is used for acquiring at least one vital sign parameter of a vital body from the life detection equipment if the detected life type is adult; if the detected vital sign parameters are matched with the preset safety standard, determining the alarm strategy as a second alarm strategy; generating a fourth control instruction according to the second alarm strategy, and sending the fourth control instruction to the vehicle terminal; and the fourth control instruction is used for indicating the vehicle terminal to control the power-off of the automobile.

In one embodiment, as shown in fig. 7, there is provided a life detection alarm device in a car, applied to a vehicle terminal, the device 700 including:

the camera shooting instruction obtaining module 701 is used for obtaining a camera shooting instruction sent by the vehicle-connected cloud server; the camera shooting instruction is generated by the vehicle-connected cloud server according to the vital sign information sent by the vital detection equipment arranged in the automobile; the life detection equipment starts life detection under the condition that the automobile is powered off and doors and windows are closed;

an image information obtaining module 702, configured to start a vehicle-mounted camera according to a shooting instruction, and obtain image information of a living body in an automobile;

the life type identification module 703 is configured to identify a life type of at least one life body included in the image information, and send the life type to the cloud server of the vehicle connection; the vehicle-connected cloud server is also used for determining a corresponding alarm strategy according to the life type;

the alarm policy obtaining module 704 obtains an alarm policy from the vehicle-associated cloud, and executes the alarm policy.

In one embodiment, the alarm policy obtaining module 704 includes: the first control unit receives at least one of a first control instruction and a second control instruction sent by the vehicle-connected cloud server; the first control instruction is generated according to a first alarm strategy when the vehicle-connected cloud server detects that the life type is children or animals, and detects that the vital sign parameters of the children or the animals are matched with a preset safety standard; the second control instruction is generated according to the first alarm strategy when the vehicle-connected cloud server detects that the life type is children or animals and the vital sign parameters of the children or the animals are not matched with the preset safety standard; the vital sign parameters are acquired by a vehicle-connected cloud server from life detection equipment in the automobile; if the received first control instruction is received, controlling the real-time image information of at least one living body shot by the vehicle-mounted camera, and sending the real-time image information to the associated mobile terminal through the vehicle-connected cloud server; and if the received control command is a second control command, starting air conditioners and/or ventilation equipment in the automobile.

In one embodiment, the first control unit is further configured to: sending the in-vehicle equipment parameters of the automobile to an in-vehicle cloud server; receiving a third control instruction sent by the vehicle-connected cloud server, and opening a vehicle window of the vehicle; and a third control instruction is generated when the vehicle-connected cloud server detects that the parameters of the in-vehicle equipment are not changed within the preset time.

In one embodiment, the alarm policy obtaining module 704 includes: the second control unit receives a fourth control instruction sent by the vehicle-connected cloud server and controls the power-off of the vehicle; the fourth control instruction is generated when the vehicle-connected cloud server detects that the life type is an adult and the vital sign parameters of the adult are matched with the preset safety standard; the vital sign parameters are acquired by the vehicle-connected cloud server from the life detection equipment in the automobile.

For the specific definition of the life detection alarm device in the vehicle, reference may be made to the above definition of the life detection alarm method in the vehicle, and details are not described here. All or part of the modules in the life detection alarm device in the automobile can be realized by software, hardware and a combination thereof. The modules can be embedded in a hardware form or independent from a processor in the computer device, and can also be stored in a memory in the computer device in a software form, so that the processor can call and execute operations corresponding to the modules.

The life detection alarm method in the automobile can be applied to computer equipment, the computer equipment can be a server, and the internal structure diagram can be shown in fig. 8. The computer device includes a processor, a memory, and a network interface connected by a system bus. Wherein the processor of the computer device is configured to provide computing and control capabilities. The memory of the computer device comprises a nonvolatile storage medium and an internal memory. The non-volatile storage medium stores an operating system, a computer program, and a database. The internal memory provides an environment for the operation of an operating system and computer programs in the non-volatile storage medium. The database of the computer equipment is used for storing data such as alarm strategies, vital sign information and the like. The network interface of the computer device is used for communicating with an external terminal through a network connection. The computer program is executed by a processor to implement a method of life detection alarm in a vehicle.

Those skilled in the art will appreciate that the architecture shown in fig. 8 is merely a block diagram of some of the structures associated with the disclosed aspects and is not intended to limit the computing devices to which the disclosed aspects apply, as particular computing devices may include more or less components than those shown, or may combine certain components, or have a different arrangement of components.

In one embodiment, a computer device is provided, comprising a memory and a processor, the memory having stored therein a computer program, the processor implementing the steps of the above-described method embodiments when executing the computer program.

In an embodiment, a computer-readable storage medium is provided, on which a computer program is stored which, when being executed by a processor, carries out the steps of the above-mentioned method embodiments.

It will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above can be implemented by hardware instructions of a computer program, which can be stored in a non-volatile computer-readable storage medium, and when executed, can include the processes of the embodiments of the methods described above. Any reference to memory, storage, database or other medium used in the embodiments provided herein can include at least one of non-volatile and volatile memory. Non-volatile Memory may include Read-Only Memory (ROM), magnetic tape, floppy disk, flash Memory, optical storage, or the like. Volatile Memory can include Random Access Memory (RAM) or external cache Memory. By way of illustration and not limitation, RAM can take many forms, such as Static Random Access Memory (SRAM) or Dynamic Random Access Memory (DRAM), among others.

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims

1. A life detection alarm method in an automobile is applied to an automobile-connected cloud server, and comprises the following steps:

2. The method of claim 1, wherein after monitoring the vital sign information, further comprising:

acquiring the electric quantity of the automobile power battery;

3. The method according to claim 1, wherein the executing of the corresponding alarm strategy according to the life type sent by the vehicle terminal comprises:

and executing the first alarm strategy.

4. The method of claim 3, wherein the executing the first alarm policy comprises:

5. The method of claim 4, wherein after sending at least one of the first control command and the second control command to the vehicle terminal, the method further comprises:

6. The method according to claim 1, wherein the executing of the corresponding alarm strategy according to the life type sent by the vehicle terminal comprises:

7. A life detection alarm method in an automobile is characterized by being applied to a vehicle terminal, and the method comprises the following steps:

8. The method of claim 7, wherein the obtaining the alert policy from the vehicular cloud, and implementing the alert policy, further comprises:

9. The method of claim 8, wherein after receiving at least one of the first control command and the second control command sent by the vehicular cloud server, the method further comprises:

10. The method of claim 7, wherein the obtaining the alert policy from the vehicular cloud, and implementing the alert policy, further comprises:

11. The utility model provides a life detection alarm device in car which characterized in that is applied to car antithetical couplet high in the clouds server, the device includes:

12. A life detection alarm device in a car, for use in a vehicle terminal, the device comprising:

13. A computer device comprising a memory and a processor, the memory storing a computer program, characterized in that the processor realizes the steps of the method of any one of claims 1 to 10 when executing the computer program.

14. A computer-readable storage medium, on which a computer program is stored, which, when being executed by a processor, carries out the steps of the method of any one of claims 1 to 10.