CN106683335A - Alarm method and equipment - Google Patents

Abstract

The embodiment of the invention discloses an alarm method and equipment. The method is applied to wearable equipment. The method comprises a step of detecting the real-time physiological feature value of a wearer, a step of comparing the real-time physiological feature value and a preset physiological feature value, a step of generating alarm information if the comparison is successful, and a step of sending the alarm information to a target terminal.

Description

Alarm method and equipment

Technical Field

The invention relates to an intelligent terminal technology, in particular to an alarm method and equipment.

Background

At present, in order to prevent children from getting lost, the purpose such as personal safety when guaranteeing children to go out has appeared the wearable equipment of a large variety in the intelligent terminal market. Taking a child watch as an example, the main functions of these wearable devices are to utilize a Global Positioning System (GPS) to perform real-time monitoring, two-way call, SOS emergency call, GPS-based security zone setting, remote sound listening, and watch drop prevention on the location of a child wearing the watch, so as to ensure the personal safety of the child when the child goes out.

At present, the function of preventing the watch from falling off is mainly realized by using a light sensor on the surface of the watch contacting with the skin, when the watch is taken down from the arm of a child, the light sensor can detect that light generates strong change, and at the moment, the child watch can start alarm information to inform a guardian of the child that the watch has fallen off from the child; however, when the light sensor is used at night, the light sensor cannot detect strong changes of light, the anti-falling function of the watch can be disabled or the effect is greatly reduced, and if the watch falls off from the arm of a child, an alarm message cannot be sent to a guardian of the child to notify, so that great threat is caused to the child.

Disclosure of Invention

In order to solve the above technical problems, embodiments of the present invention are expected to provide an alarm method and an alarm device, which can detect whether a wearer is in danger in various external environments, and alarm when the wearer is in danger, thereby ensuring personal safety of the wearer.

The technical scheme of the invention is realized as follows:

in a first aspect, an embodiment of the present invention provides an alarm method, which is applied to a wearable device, and the alarm method includes:

detecting a real-time physiological characteristic value of the wearer;

comparing the detected real-time physiological characteristic value with a preset physiological characteristic value;

when the comparison is successful, generating alarm information;

and sending the alarm information to a target terminal.

In the foregoing solution, the generating the alarm information includes:

receiving the detected real-time physiological characteristic value, and generating the alarm information by using the received real-time physiological characteristic value;

or,

and acquiring the current environment information of the wearable device, and generating the alarm information from the environment information.

In the foregoing solution, the generating the alarm information includes:

receiving the detected real-time physiological characteristic value, and simultaneously acquiring the current environment information of the wearable device;

and generating the alarm information by using the environmental information and the real-time physiological characteristic value.

In the above solution, the environment information where the wearable device is currently located includes:

image information of the environment where the wearable device is currently located;

and/or the presence of a gas in the gas,

location information of the current environment.

In the above scheme, the real-time physiological characteristic value includes: real-time heart rate values.

In the above scheme, the preset physiological characteristic value includes a standard physiological characteristic value or an abnormal physiological characteristic value.

In the above scheme, the comparing the detected real-time physiological characteristic value with a preset physiological characteristic value includes:

when the real-time physiological characteristic value does not meet the preset standard physiological characteristic value condition, the comparison is successful;

or,

and when the real-time physiological characteristic value meets the preset abnormal physiological characteristic value condition, the comparison is successful.

In a second aspect, an embodiment of the present invention provides a wearable device, including: the physiological characteristic detection module, the comparison module, the alarm information generation module and the communication module; wherein,

the physiological characteristic detection module is used for detecting a real-time physiological characteristic value of a wearer;

the comparison module is used for comparing the detected real-time physiological characteristic value with a preset physiological characteristic value;

the warning information generating module is used for generating warning information when the comparison is successful;

and the communication module is used for sending the alarm information to a target terminal.

In the above solution, the alarm information generating module includes:

the receiving submodule is used for receiving the detected real-time physiological characteristic value;

the generating submodule is used for generating the alarm information from the received real-time physiological characteristic value;

or,

the environment detection sub-module is used for acquiring the current environment information of the wearable device;

and the generating submodule is used for generating the alarm information from the environment information.

In the above solution, the alarm information generating module includes: the system comprises a receiving submodule, an environment information detection submodule and a generating submodule;

the receiving submodule is used for receiving the detected real-time physiological characteristic value;

the environment information detection submodule is used for acquiring the current environment information of the wearable device;

and the generating submodule is used for generating the alarm information by using the environment information and the real-time physiological characteristic value.

In the above solution, the environment information where the wearable device is currently located includes:

image information of the environment where the wearable device is currently located;

and/or the presence of a gas in the gas,

location information of the current environment.

In the above scheme, the real-time physiological characteristic value includes: a real-time heart rate value of the wearer.

In the above scheme, the preset physiological characteristic value includes a standard physiological characteristic value or an abnormal physiological characteristic value.

In the foregoing scheme, the comparison module is specifically configured to:

the real-time physiological characteristic value does not meet the preset standard physiological characteristic value condition, and the comparison is successful;

or,

and the real-time physiological characteristic value meets the preset abnormal physiological characteristic value condition, and the comparison is successful.

The embodiment of the invention provides an alarm method and equipment, which can detect whether a wearer is in danger or not in various external environments by detecting the physiological characteristics of the wearer and give an alarm when the wearer is in danger, thereby ensuring the personal safety of the wearer.

Drawings

Fig. 1 is a schematic flow chart of an alarm method according to an embodiment of the present invention;

fig. 2 is a schematic flowchart of an alarm method according to an embodiment of the present invention;

fig. 3 is a schematic detailed flowchart of another alarm method according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a wearable device according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of another wearable device provided in the embodiment of the present invention;

fig. 6 is a schematic structural diagram of another wearable device provided in the embodiment of the present invention;

fig. 7 is a schematic structural diagram of another wearable device according to an embodiment of the present invention.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

The basic idea of the embodiment of the invention is as follows: the wearable equipment on the market at present adopts the external environment to the position of the wearer to detect, and the physiological characteristics of the wearer are changed into the physiological characteristics, so that the wearable equipment can fall off from the arm of the wearer to detect under different environments, and the personal safety of the wearer is guaranteed.

Example one

Based on the basic idea of the embodiment of the present invention, referring to fig. 1, an alarm method provided by the embodiment of the present invention is shown, and the method may be applied to a wearable device, and the method may include:

s101: detecting a real-time physiological characteristic value of the wearer;

s102: comparing the detected real-time physiological characteristic value with a preset physiological characteristic value;

s103: when the comparison is successful, generating alarm information;

s104: and sending the alarm information to the target terminal.

It should be noted that, when the comparison result of the step S102 of comparing the detected real-time physiological characteristic value with the preset physiological characteristic value is unsuccessful, the step S101 may be returned to continue detecting the real-time physiological characteristic value of the wearer.

For step S101, the wearable device detects a real-time physiological characteristic value of the wearer, which may specifically include: the wearable device detects a real-time heart rate value of the wearer through a heart rate sensor. It is to be understood that, in order to clearly illustrate the technical solution of the embodiment of the present invention, in the following embodiments, the technical solution is specifically illustrated by taking a real-time heart rate value as an example, and a person skilled in the art may apply the technical solution of the embodiment of the present invention to other real-time physiological characteristic values detected by other kinds of physiological characteristic sensors according to the specific illustration.

For step S102, comparing the detected real-time physiological characteristic value with a preset physiological characteristic value may include at least:

when the real-time physiological characteristic value does not meet the preset standard physiological characteristic value condition, the comparison is successful;

or when the real-time physiological characteristic value meets the preset abnormal physiological characteristic value condition, the comparison is successful.

It should be noted that the target terminal may be a preset cell phone of a guardian of the wearer, and the guardian may determine whether the wearer is in a dangerous condition through the received alarm information. The preset physiological characteristic value can be regarded as a preliminary judgment basis for judging whether the wearer is at risk or not through the real-time physiological characteristic value, and specifically comprises a standard physiological characteristic value or an abnormal physiological characteristic value, so that when the real-time physiological characteristic value accords with the preset physiological characteristic value, the wearer is preliminarily determined to be at risk; when the physiological characteristic value does not meet the preset physiological characteristic value, the wearer is not at risk currently.

The term "danger" herein may include both an environment where the wearer is in danger and an abnormality in the health status of the wearer; accordingly, the alarm information described in this embodiment is used to alert the target terminal to notify the wearer of a dangerous environment or to notify the wearer of an abnormal health status.

According to the above "danger" may include that the wearer is in a dangerous environment, preferably, when the real-time physiological characteristic value is zero, the real-time physiological characteristic value satisfies a preset abnormal physiological characteristic value, which may be considered that the wearable device described in this embodiment falls off from the arm of the wearer, and at this time, it may be preliminarily determined that the wearer is in a dangerous environment;

when the real-time physiological characteristic value does not satisfy the preset standard physiological characteristic value condition or the real-time physiological characteristic value satisfies the preset abnormal physiological characteristic value condition, it may be considered that the wearer of the wearable device in this embodiment has changed, and at this time, it may also be preliminarily determined that the original wearer is in a dangerous environment; for example, according to medical statistics, the heartbeat criteria of children in different age groups are: neonates are 120-; infants under 1 year old 110-; children 2-3 years old 100-; 80-100 times per minute for children of 4-7 years old; children of 8-14 years old 70-90 times per minute; whereas the normal adult standard of heart rate is 60-80 beats per minute. When the original wearer of the wearable device in the embodiment is a child between 4 and 7 years old, the corresponding heartbeat number standard is 80 to 100 times per minute; then, when the real-time physiological characteristic value does not meet the condition of 80-100 times per minute, the real-time physiological characteristic value does not meet the condition of the standard physiological characteristic value preset by the child aged 4-7 years; similarly, when the real-time physiological characteristic value meets 60-80 times per minute, the real-time physiological characteristic value meets the condition of the abnormal physiological characteristic value; above two kinds of circumstances all can tentatively judge that the wearer of wearable equipment has changed, also can tentatively judge this moment that former wearer is in the hazardous environment.

It can be understood that, those skilled in the art may also set the preset abnormal condition according to the common dangerous environment, and details thereof are not described herein.

Illustratively, when the alarm information is used to alert the target terminal to notify that the wearer is in a dangerous environment, for step S103, the wearable device generates the alarm information, which specifically includes:

the wearable equipment acquires the current environment information and generates the alarm information according to the environment information;

or,

the wearable device receives the detected real-time physiological characteristic value and simultaneously acquires the current environment information of the wearable device; and then generating the alarm information by using the environment information and the real-time physiological characteristic value.

Further, the current environment information of the wearable device specifically includes:

image information of the environment where the wearable device is currently located;

and/or position information of the environment where the wearable device is currently located.

Specifically, the image of the current environment can be acquired through a camera in the wearable device, the position of the current environment can be acquired through a GPS positioning device in the wearable device, and the related information of the current environment can be acquired through other methods such as a sound acquisition device; the embodiments of the present invention are not described in detail.

Illustratively, when the alarm information is used to alert the target terminal that the health status of the wearer is abnormal, for step S103, the wearable device generates the alarm information, which specifically includes: and the wearable equipment receives the detected real-time physiological characteristic value and generates the alarm information according to the received real-time physiological characteristic value. Specifically, still taking the example that the real-time physiological characteristic value is the real-time heart rate value of the wearer as an example, for a child wearer between 4 and 7 years old, when the detected real-time heart rate value exceeds the heartbeat number standard by 80 to 100 times per minute, it is indicated that the heart rate of the wearer is abnormal at this time, and the wearable device may send the abnormal real-time heart rate value to a preset target terminal, for example, a mobile phone of a guardian of the wearer, so as to prompt the abnormal heart rate of the wearer.

The embodiment provides an alarm method applied to wearable equipment, which can detect whether a wearer is in danger or not by detecting the physiological characteristics of the wearer per se under various external environments, and can give an alarm when the wearer is in danger, so that the personal safety of the wearer is ensured.

Example two

Based on the foregoing embodiment, referring to fig. 2, a specific working method flow of a wearable device provided by an embodiment of the present invention is shown, in this embodiment, taking an example that a wearer is a child between 4 and 7 years old, and a real-time physiological characteristic value detected by the wearable device is a real-time heart rate value of the wearer, the method may include:

s201: the wearable device detects a real-time heart rate value of the wearer in real time;

s202: the wearable device compares the real-time heart rate value to a standard number of children's heartbeats between 4-7 years of age; when the real-time heart rate value is between 4-7 years of age of the standard heart beat number of children, go to S201: the wearable device continues to detect the real-time heart rate value of the wearer; when the real-time heart rate value is zero or the real-time heart rate value is 60-80 adult standard heart beats per minute, the method goes to S203: the wearable equipment acquires image information and position information of the current environment through a camera and a GPS positioning device;

specifically, when the real-time heart rate value is zero, it may be considered that the wearable device described in this embodiment falls off from the arm of the wearer, and at this time, it may be preliminarily determined that the wearer is in a dangerous environment.

When the real-time heart rate value is 60-80 adult standard heart beats per minute, the wearer of the wearable device may be considered to change from a child between 4-7 years old to an adult, and thus, the wearer may be preliminarily determined to be in a dangerous environment.

S204: the wearable device sends the image information and the position information of the current environment to a pre-stored guardian mobile phone of the wearer, so that the guardian can judge whether the wearer is in a dangerous state currently according to the received image information and the position information.

According to the working method of the wearable device, the physiological characteristics of the wearer are detected, the wearable device can be detected to fall off from the arm of the child under various external environments, and an alarm is given, so that the personal safety of the child is guaranteed.

EXAMPLE III

Based on the above two embodiments, referring to fig. 3, a specific working method flow of another wearable device provided by the embodiment of the present invention is shown, which can monitor the body of the wearer, in this embodiment, it is still exemplified that the wearer is a child between 4 and 7 years old, and the real-time physiological characteristic value detected by the wearable device is a real-time heart rate value of the wearer, and the method may include:

s301: the wearable device detects a real-time heart rate value of the wearer;

s302: the wearable device compares the real-time heart rate value to a standard number of children's heartbeats between 4-7 years of age; when the real-time heart rate value is between 4-7 years of age of the standard heart beat number of children, then go to 601: the wearable device continues to detect the real-time heart rate value of the wearer; when the real-time heart rate value is greater than the standard heart beat number of children between 4 and 7 years old, go to S303: and the wearable equipment sends the physiological characteristic value to the preset target terminal.

Specifically, still taking the example that the real-time physiological characteristic value is the real-time heart rate value of the wearer as an example, for a child wearer between 4 and 7 years old, when the detected real-time heart rate value exceeds the heartbeat number standard by 80 to 100 times per minute, it is indicated that the heart rate of the wearer is abnormal at this time, and the wearable device may send the abnormal real-time heart rate value to a preset target terminal, for example, a mobile phone of a guardian of the wearer, so as to prompt the abnormal heart rate of the wearer.

Example four

Based on the same technical concept of the foregoing embodiment, referring to fig. 4, which shows a structure of a wearable device 40 provided by an embodiment of the present invention, the wearable device 40 may include: a physiological characteristic detection module 401, a comparison module 402, an alarm information generation module 403 and a communication module 404; wherein,

the physiological characteristic detection module 401 is configured to detect a real-time physiological characteristic value of a wearer;

the comparison module 402 is configured to compare the detected real-time physiological characteristic value with a preset physiological characteristic value;

the warning information generating module 403 is configured to generate warning information when the comparison is successful;

the communication module 404 is configured to send the alarm information to the target terminal.

It should be noted that the preset target terminal may be a mobile phone of a guardian of the wearer, and the guardian may determine whether the wearer is in a dangerous condition through the received alarm information. The preset physiological characteristic value can be regarded as a preliminary judgment basis for judging whether the wearer is at risk or not through the real-time physiological characteristic value, and specifically comprises a standard physiological characteristic value or an abnormal physiological characteristic value, so that when the real-time physiological characteristic value accords with the preset physiological characteristic value, the wearer is preliminarily determined to be at risk; when the physiological characteristic value does not meet the preset physiological characteristic value, the wearer is not at risk currently.

The term "danger" herein may include both an environment where the wearer is in danger and an abnormality in the health status of the wearer; accordingly, the alarm information described in this embodiment is used to alarm the target terminal to notify the wearer of a dangerous environment or notify the wearer of abnormal health status, and it should be understood that the two examples in this embodiment of the present invention are only illustrative of the technical solutions, and are not specific limitations of the technical solutions of the present invention.

Illustratively, referring to fig. 5, the warning information generating module 403 may include:

the receiving submodule 4031A is used for receiving the detected real-time physiological characteristic value;

the generating submodule 4032A is used for generating the alarm information from the received real-time physiological characteristic value;

or,

referring to fig. 6, the warning information generating module 403 may include:

the environment detection submodule 4031B is configured to acquire environment information where the wearable device 40 is currently located;

the generating submodule 4032B is used for generating the environmental information into the alarm information;

or,

referring to fig. 7, the warning information generating module 403 may include: the receiving sub-module 4031C, the environment information detection sub-module 4032C and the generating sub-module 4033C;

the receiving submodule 4031C is configured to receive the detected real-time physiological characteristic value;

the environment information detection sub-module 4032C is configured to acquire environment information where the wearable device 40 is currently located;

the generating submodule 4033C is configured to generate the alarm information from the environment information and the real-time physiological characteristic value.

In the above solution, the environment information where the wearable device 40 is currently located includes:

image information of the environment in which the wearable device 40 is currently located;

and/or the presence of a gas in the gas,

location information of the current environment.

In the above scheme, the real-time physiological characteristic value includes: a real-time heart rate value of the wearer.

In the above scheme, the preset physiological characteristic value includes a standard physiological characteristic value or an abnormal physiological characteristic value.

Further, the comparing module 402 is specifically configured to:

the real-time physiological characteristic value does not meet the preset standard physiological characteristic value condition, and the comparison is successful;

or,

and the real-time physiological characteristic value meets the preset abnormal physiological characteristic value condition, and the comparison is successful.

The wearable device 40 provided by the embodiment detects physiological characteristics of a wearer, realizes that the wearable device can fall off from the arm of the wearing child under various external environments, and gives an alarm, so that the personal safety of the child is ensured.

As will be appreciated by one skilled in the art, embodiments of the present invention may be provided as a method, system, or computer program product. Accordingly, the present invention may take the form of a hardware embodiment, a software embodiment, or an embodiment combining software and hardware aspects. Furthermore, the present invention may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, optical storage, and the like) having computer-usable program code embodied therein.

The present invention is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems), and computer program products according to embodiments of the invention. It will be understood that each flow and/or block of the flow diagrams and/or block diagrams, and combinations of flows and/or blocks in the flow diagrams and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention.

Claims (14)

1. An alarm method is applied to wearable equipment and is characterized in that the alarm method comprises the following steps:

detecting a real-time physiological characteristic value of the wearer;

comparing the detected real-time physiological characteristic value with a preset physiological characteristic value;

when the comparison is successful, generating alarm information;

and sending the alarm information to a target terminal.

2. The method of claim 1, wherein the generating the alert information comprises:

receiving the detected real-time physiological characteristic value, and generating the alarm information by using the received real-time physiological characteristic value;

or,

and acquiring the current environment information of the wearable device, and generating the alarm information from the environment information.

3. The method of claim 1, wherein the generating the alert information comprises:

receiving the detected real-time physiological characteristic value, and simultaneously acquiring the current environment information of the wearable device;

and generating the alarm information by using the environmental information and the real-time physiological characteristic value.

4. The method of claim 2 or 3, wherein the current environment information of the wearable device comprises:

image information of the environment where the wearable device is currently located;

and/or the presence of a gas in the gas,

location information of the current environment.

5. The method according to any one of claims 1-3, wherein the real-time physiological characteristic values include: real-time heart rate values.

6. The method according to any one of claims 1-3, wherein the preset physiological characteristic value comprises a standard physiological characteristic value or an abnormal physiological characteristic value.

7. The method of claim 6, wherein comparing the detected real-time physiological characteristic value with a preset physiological characteristic value comprises:

when the real-time physiological characteristic value does not meet the preset standard physiological characteristic value condition, the comparison is successful;

or,

and when the real-time physiological characteristic value meets the preset abnormal physiological characteristic value condition, the comparison is successful.

8. A wearable device, comprising: the physiological characteristic detection module, the comparison module, the alarm information generation module and the communication module; wherein,

the physiological characteristic detection module is used for detecting a real-time physiological characteristic value of a wearer;

the comparison module is used for comparing the detected real-time physiological characteristic value with a preset physiological characteristic value;

the warning information generating module is used for generating warning information when the comparison is successful;

and the communication module is used for sending the alarm information to a target terminal.

9. The wearable device of claim 8, wherein the alert information generation module comprises:

the receiving submodule is used for receiving the detected real-time physiological characteristic value;

the generating submodule is used for generating the alarm information from the received real-time physiological characteristic value;

or,

the environment detection sub-module is used for acquiring the current environment information of the wearable device;

and the generating submodule is used for generating the alarm information from the environment information.

10. The wearable device of claim 8, wherein the alert information generation module comprises: the system comprises a receiving submodule, an environment information detection submodule and a generating submodule;

the receiving submodule is used for receiving the detected real-time physiological characteristic value;

the environment information detection submodule is used for acquiring the current environment information of the wearable device;

and the generating submodule is used for generating the alarm information by using the environment information and the real-time physiological characteristic value.

11. The wearable device according to claim 9 or 10, wherein the current environment information of the wearable device comprises:

image information of the environment where the wearable device is currently located;

and/or the presence of a gas in the gas,

location information of the current environment.

12. The wearable device according to any of claims 8-10, wherein the real-time physiological characteristic value comprises: a real-time heart rate value of the wearer.

13. The wearable device according to any of claims 8-10, wherein the preset physiological characteristic value comprises a standard physiological characteristic value or an abnormal physiological characteristic value.

14. The wearable device of claim 13, wherein the comparison module is specifically configured to:

the real-time physiological characteristic value does not meet the preset standard physiological characteristic value condition, and the comparison is successful;

or,

and the real-time physiological characteristic value meets the preset abnormal physiological characteristic value condition, and the comparison is successful.