CN106327786A - Monitoring method, device and electronic equipment - Google Patents

Abstract

The invention provides a monitoring method, a device and electronic equipment. The monitoring method is applied to a first piece of electronic equipment, and comprises steps: physiological parameter data of a first user wearing the first piece of electronic equipment are acquired; the physiological parameter data are compared with a preset range, wherein the preset range is a physiological parameter data fluctuation range; when the physiological parameter data are not in the preset range, a first piece of warning information is generated; and the first piece of warning information is sent to a second piece of electronic equipment. Through acquiring the physiological parameter of the wearer of the first piece of electronic equipment, when the physiological parameter changes a lot, warning is sent to the second piece of electronic equipment, the owner of the second piece of electronic equipment can know whether the wearer of the first piece of electronic equipment constantly wears the first piece of electronic equipment in real time, and a situation in which as the first piece of electronic equipment is lost, the owner of the second piece of electronic equipment can not know the dynamic state of the wearer of the first piece of electronic equipment can be avoided.

Description

Monitoring method and device and electronic equipment

Technical Field

The present invention relates to the field of electronic devices, and in particular, to a monitoring method and apparatus, and an electronic device.

Background

The current social problem that children are lost is very serious, and in order to prevent children from losing, all kinds of children's electron wrist-watches, electron bracelet are also very much, and the primary function can monitor children's position, just can early warning etc. if children exceed specified scope.

An existing 360-degree bracelet on the market has a Positioning function at any time, a professional-grade GPS (Global Positioning System) chip is arranged in the bracelet, and the bracelet has the Positioning function at any time. Parents need to install software on the smart phone, and can know the position of a child and search the action track of the child within a certain period of time by sending a command to the bracelet through the smart phone. Meanwhile, the bracelet has the function of early warning of the safe regions, the system can automatically identify the safe positions where children frequently go during wearing the bracelet, and once the positions of the children exceed the safe regions, the system can automatically send an alarm to the mobile phone of parents so as to prompt that the children are possibly facing danger.

However, the most important disadvantage of the conventional bracelets is that the electronic device cannot send out warning information in time when being taken off, and the electronic device is late to locate when finding the electronic device, so that the most valuable time is lost.

Disclosure of Invention

The technical problem to be solved by the invention is to provide a monitoring method, a monitoring device and electronic equipment, which are used for solving the problems that the existing wearable equipment cannot send out warning information in time when being taken off, and the direction of a wearer of the wearable equipment cannot be accurately positioned when the situation occurs.

In order to solve the foregoing technical problem, an embodiment of the present invention provides a monitoring method applied to a first electronic device, including:

acquiring physiological parameter data of a first user wearing the first electronic equipment;

comparing the physiological parameter data with a preset range, wherein the preset range is the fluctuation range of the physiological parameter data;

if the physiological parameter data is not in the preset range, generating first alarm information;

and sending the first alarm information to a second electronic device which is in communication connection with the first electronic device.

Further, the physiological parameter data is heart rate data, and the step of comparing the physiological parameter data with a preset range specifically comprises:

comparing the acquired heart rate data with a preset range of pre-stored heart rate data, and judging whether the heart rate data is in the preset range of the pre-stored heart rate data.

Further, after the step of generating the first alarm information if the physiological parameter data is not within the preset range, the monitoring method further includes:

and generating the alarm of the first electronic equipment according to the first alarm information.

Further, the monitoring method further comprises:

receiving a power on/off instruction sent by the second electronic equipment;

and according to the power-on and power-off instruction, the first electronic equipment is turned on or turned off.

Further, the monitoring method further comprises:

acquiring the position information of the first electronic equipment;

and sending the position information to the second electronic equipment, so that the second electronic equipment displays the position information.

Further, after the step of obtaining the location information of the first electronic device, the monitoring method further includes:

comparing the position information with preset position information;

if the position information is not in the preset position information, generating second alarm information;

and generating the alarm of the first electronic equipment according to the second alarm information.

The embodiment of the invention provides a monitoring device, which is applied to first electronic equipment and comprises:

the physiological parameter detection module is used for acquiring physiological parameter data of a first user wearing the first electronic equipment;

the first comparison module is used for comparing the physiological parameter data with a preset range, wherein the preset range is a fluctuation range of the physiological parameter data;

the first warning information generating module is used for generating first warning information if the physiological parameter data is not in the preset range;

and the first sending module is used for sending the first alarm information to second electronic equipment in communication connection with the first electronic equipment.

Further, the physiological parameter data is heart rate data, and the first comparison module specifically includes:

comparing the acquired heart rate data with a preset range of pre-stored heart rate data, and judging whether the heart rate data is in the preset range of the pre-stored heart rate data.

Further, the monitoring device further comprises:

and the first alarm module is used for generating an alarm of the first electronic equipment according to the first alarm information.

Further, the monitoring device further comprises:

the first receiving module is used for receiving a power-on and power-off instruction sent by the second electronic equipment;

and the execution module is used for turning on or turning off the first electronic equipment according to the power-on and power-off instruction.

Further, the monitoring device further comprises:

the position acquisition module is used for acquiring the position information of the first electronic equipment;

and the second sending module is used for sending the position information to the second electronic equipment so that the second electronic equipment displays the position information.

Further, the monitoring device further comprises:

the second comparison module is used for comparing the position information with preset position information;

the second warning information generating module is used for generating second warning information if the position information is not in the preset position information;

and the second alarm module is used for generating an alarm of the first electronic equipment according to the second alarm information.

The embodiment of the invention provides first electronic equipment which comprises the monitoring device.

The embodiment of the invention provides a monitoring method applied to second electronic equipment, which comprises the following steps:

receiving first alarm information sent by first electronic equipment, wherein the first electronic equipment is in communication connection with the second electronic equipment, and the first alarm information is generated when physiological parameter data acquired by the first electronic equipment is not in a preset range;

and according to the first alarm information, alarming to a second user of the second electronic equipment.

Further, the monitoring method further comprises:

acquiring a power-on and power-off operation executed aiming at the first electronic equipment;

generating a power-on and power-off instruction according to the power-on and power-off operation;

and sending the power on/off instruction to the first electronic equipment to enable the first electronic equipment to be turned on or turned off.

The embodiment of the invention provides a monitoring device, which is applied to second electronic equipment and comprises:

the second receiving module is used for receiving first alarm information sent by first electronic equipment, wherein the first electronic equipment is in communication connection with the second electronic equipment, and the first alarm information is generated when physiological parameter data acquired by the first electronic equipment is not in a preset range;

and the third warning module is used for warning the second user of the second electronic equipment according to the first warning information.

Further, the monitoring device further comprises:

the acquisition module is used for acquiring the startup and shutdown operation executed aiming at the first electronic equipment;

the instruction generating module is used for generating a power-on and power-off instruction according to the power-on and power-off operation;

and the third sending module is used for sending the power on/off instruction to the first electronic equipment so as to enable the first electronic equipment to be turned on or turned off.

The embodiment of the invention provides second electronic equipment comprising the monitoring device.

The invention has the beneficial effects that:

according to the scheme, the physiological parameters of the first electronic equipment wearer are acquired in real time, and when the physiological parameters are judged to have large changes, the warning information is sent to the second electronic equipment, so that the second electronic equipment owner can know whether the first electronic equipment wearer wears the first electronic equipment all the time in real time, and the situation that the second electronic equipment owner cannot accurately acquire the dynamic state of the first electronic equipment wearer due to the fact that the first electronic equipment is lost is avoided.

Drawings

Fig. 1 shows a general flowchart of a monitoring method applied to a first electronic device according to an embodiment of the present invention;

fig. 2 is a schematic block diagram of a monitoring apparatus applied to a first electronic device according to an embodiment of the present invention;

fig. 3 is a general flowchart of a monitoring method applied to a second electronic device according to an embodiment of the present invention;

fig. 4 is a schematic block diagram of a monitoring apparatus applied to a second electronic device according to an embodiment of the present invention;

fig. 5 is a schematic diagram illustrating a matching relationship between a child device and a parent device according to an embodiment of the present invention;

fig. 6 is a schematic flow chart illustrating a process of the parent device remotely controlling the child device to open and close according to an embodiment of the present invention;

fig. 7 shows a flow diagram of an automatic alarm after the child device leaves the child according to the embodiment of the invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in detail with reference to the accompanying drawings and specific embodiments.

The invention provides a monitoring method, which is applied to a first electronic device and aims at solving the problems that the existing wearable device cannot send out warning information in time when being taken off and the direction of a wearer of the wearable device cannot be accurately positioned when the existing wearable device is taken off, as shown in fig. 1, the monitoring method comprises the following steps:

step 111, acquiring physiological parameter data of a first user wearing the first electronic device;

step 112, comparing the physiological parameter data with a preset range, wherein the preset range is a fluctuation range of the physiological parameter data;

step 113, if the physiological parameter data is not in the preset range, generating first alarm information;

step 114, sending the first alarm information to a second electronic device in communication connection with the first electronic device.

According to the scheme, the physiological parameters of the first electronic equipment wearer are acquired in real time, and when the physiological parameters are judged to have large changes, the warning information is sent to the second electronic equipment, so that the second electronic equipment owner can know whether the first electronic equipment wearer wears the first electronic equipment all the time in real time, and the situation that the second electronic equipment owner cannot accurately acquire the dynamic state of the first electronic equipment wearer due to the fact that the first electronic equipment is lost is avoided.

The invention is mainly used for monitoring the dynamics of a monitored person in real time by a monitor, such as parents monitoring the state of children, avoiding the children from missing, and a detector monitors the state of persons with limited action, avoiding the persons from escaping and the like; the first electronic device is a wearable device worn by a child or a person with restricted mobility.

It should be noted that, in the above embodiment, the physiological parameter data may be body temperature data, blood pressure data, or heart rate data. When the wearable equipment is worn at the neck, the ankle and the ear, the body temperature data of the controlled person can be collected; when the wearable device is worn on the arm, the blood pressure data of the controlled person can be collected; when the wearable device is worn on the wrist, heart rate data of the controlled person may be collected.

In the present invention, the wearable device is worn on the wrist, and the acquired physiological parameter data is heart rate data, and the specific implementation manner of step 112 in the embodiment of the present invention is as follows:

comparing the acquired heart rate data with a preset range of pre-stored heart rate data, and judging whether the heart rate data is in the preset range of the pre-stored heart rate data.

It should be noted that, since the heart rate of the controlled person basically does not change much, the heart rate of the controlled person is measured in advance, and then a reasonable fluctuation range is added to the measured heart rate, so as to obtain a preset range of the heart rate data of the controlled person; for example: when the average heart rate of the controlled person is measured to be 75 beats per minute, the reasonable fluctuation range of the heart rate is 10, so that the preset range of the heart rate data of the controlled person can be 65-85 beats per minute, as long as the collected heart rate data is within the range, the wrist of the controlled person is considered to be provided with the wearable device, and when a large change of the heart rate is suddenly detected within a certain period of time, for example, the detected heart rate data is 0, the wearable device can be judged to be away from the controlled person.

When the heart rate data is detected not to be in the preset range, it cannot be determined that the wearable device is maliciously taken down by the controlled person, or the controlled person may take down the wearable device by himself, in this case, in another embodiment of the present invention, the monitoring method further includes:

and generating the alarm of the first electronic equipment according to the first alarm information.

It should be noted that the above-mentioned alarm may be generated by means of sound, light, vibration, or the like.

When the wearable equipment is taken down by the controlled person, the controlled person is reminded in real time to wear the wearable equipment in a correct mode, and the real-time monitoring of the direction of the controlled person is guaranteed.

It should be noted that, in order to avoid the problem that the wearable device is shut down maliciously, resulting in that the controlled person cannot be located, in another embodiment of the present invention, the monitoring method further includes:

receiving a power on/off instruction sent by the second electronic equipment;

and according to the power-on and power-off instruction, the first electronic equipment is turned on or turned off.

It should be noted that the shutdown operation of the wearable device can only be performed by other devices held by the monitor, and the wearable device itself cannot perform the shutdown operation, so that the wearable device is ensured not to be maliciously shutdown, and the other devices are ensured to be capable of locating the controlled person in real time.

It should be noted that the wearable device should have a function of real-time positioning, and therefore in another embodiment of the present invention, the monitoring method further includes:

acquiring the position information of the first electronic equipment;

and sending the position information to the second electronic equipment, so that the second electronic equipment displays the position information.

The embodiment ensures that the monitor grasps the direction information of the controlled person, so that the controlled person is monitored by the monitor in real time.

It should be noted that, some places where the monitored person should not step may be preset by the monitor, for example, places where parents think that children cannot be safe, or places where spy officers think that persons with restricted actions should not step, and when the monitored person enters these places, the monitored person should be timely reminded to get away as soon as possible, so in another embodiment of the present invention, after the step of obtaining the location information of the first electronic device, the monitoring method further includes:

comparing the position information with preset position information;

if the position information is not in the preset position information, generating second alarm information;

and generating the alarm of the first electronic equipment according to the second alarm information.

According to the scheme, when the controlled person leaves the preset range, the controlled person can be timely warned to inform the controlled person to be far away from the current area, and the monitoring effectiveness is guaranteed.

For the monitoring method, as shown in fig. 2, an embodiment of the present invention provides a monitoring apparatus applied to a first electronic device, including:

a physiological parameter detection module 110, configured to obtain physiological parameter data of a first user wearing the first electronic device;

the first comparison module 120 is configured to compare the physiological parameter data with a preset range, where the preset range is a fluctuation range of the physiological parameter data;

a first alarm information generating module 130, configured to generate first alarm information if the physiological parameter data is not within the preset range;

a first sending module 140, configured to send the first warning information to a second electronic device communicatively connected to the first electronic device.

Optionally, the physiological parameter data is heart rate data, and the first comparison module 120 specifically includes:

comparing the acquired heart rate data with a preset range of pre-stored heart rate data, and judging whether the heart rate data is in the preset range of the pre-stored heart rate data.

Specifically, the monitoring device further includes:

and the first alarm module is used for generating an alarm of the first electronic equipment according to the first alarm information.

Optionally, the monitoring device further comprises:

the first receiving module is used for receiving a power-on and power-off instruction sent by the second electronic equipment;

and the execution module is used for turning on or turning off the first electronic equipment according to the power-on and power-off instruction.

Further, the monitoring device further comprises:

the position acquisition module is used for acquiring the position information of the first electronic equipment;

and the second sending module is used for sending the position information to the second electronic equipment so that the second electronic equipment displays the position information.

Further, the monitoring device further comprises:

the second comparison module is used for comparing the position information with preset position information;

the second warning information generating module is used for generating second warning information if the position information is not in the preset position information;

and the second alarm module is used for generating an alarm of the first electronic equipment according to the second alarm information.

It should be noted that the embodiment of the monitoring device is a monitoring device corresponding to the monitoring method, and all implementation manners of the monitoring method are applicable to the monitoring device, and the same technical effects as the monitoring method can also be achieved.

The embodiment of the invention also provides first electronic equipment which comprises the monitoring device.

It should be noted that the first electronic device is an electronic device worn by the controlled person, and may be a wearable electronic device such as a smart band or a smart watch.

As shown in fig. 3, an embodiment of the present invention further provides a monitoring method corresponding to a monitoring method of a first electronic device, which is applied to a second electronic device, and includes:

step 211, receiving first alarm information sent by a first electronic device, wherein the first electronic device is in communication connection with a second electronic device, and the first alarm information is generated when physiological parameter data acquired by the first electronic device is not within a preset range;

and 212, according to the first alarm information, alarming to a second user of the second electronic equipment.

According to the scheme, when the controlled person is not normally worn or the wearable device is maliciously taken off, the report is timely sent to the monitor, so that the monitor can know whether the controlled person is in a monitoring state or not in real time, and the situation that the controlled person is separated from the sight of the monitor when the wearable device is maliciously taken off is avoided.

In order to avoid that the wearable device of the controlled person is shut down maliciously, so that the monitoring person loses monitoring of the controlled person, in another embodiment of the present invention, the monitoring method further includes:

acquiring a power-on and power-off operation executed aiming at the first electronic equipment;

generating a power-on and power-off instruction according to the power-on and power-off operation;

and sending the power on/off instruction to the first electronic equipment to enable the first electronic equipment to be turned on or turned off.

The wearable controlled device is controlled to be turned on or off by the device belonging to the monitored person, so that the monitored person can be ensured to be in a monitored state in real time.

Corresponding to the monitoring method, as shown in fig. 4, an embodiment of the present invention provides a monitoring apparatus applied to a second electronic device, including:

a second receiving module 210, configured to receive first alarm information sent by a first electronic device, where the first electronic device is in communication connection with the second electronic device, and the first alarm information is generated when physiological parameter data acquired by the first electronic device is not within a preset range;

and a third warning module 220, configured to perform warning to a second user of the second electronic device according to the first warning information.

Specifically, the monitoring device further includes:

the acquisition module is used for acquiring the startup and shutdown operation executed aiming at the first electronic equipment;

the instruction generating module is used for generating a power-on and power-off instruction according to the power-on and power-off operation;

and the third sending module is used for sending the power on/off instruction to the first electronic equipment so as to enable the first electronic equipment to be turned on or turned off.

It should be noted that the embodiment of the monitoring device is a monitoring device corresponding to the monitoring method, and all implementation manners of the monitoring method are applicable to the monitoring device, and the same technical effects as the monitoring method can also be achieved.

The embodiment of the invention provides second electronic equipment comprising the monitoring device.

It should be noted that the second electronic device is an electronic device held by a monitor, and may be an electronic device such as a smart band, a smart watch, a mobile phone, or a tablet computer.

According to the scheme of the invention, through the cooperation of the monitor and the equipment held by the controlled person, the controlled person is ensured to be in a monitored state in real time, and the condition that rescue or arrest is delayed due to malicious or intentional removal of the equipment of the controlled person is avoided.

The above-mentioned scheme of the present invention is exemplified as follows, by the parents preventing the children from losing:

as shown in fig. 5, a parent wears a child device (smart bracelet or watch) for his child, and the parent holds a parent device (mobile phone or smart bracelet) in communication connection with the child device, and it should be noted that one child device is only matched with one parent device to avoid interference of other devices; one parent device may control one or more child devices.

The child terminal device includes: the system comprises a heart rate detection module, a main control module, a GPS (global positioning system), a remote switch module, a communication module and a warning module; wherein,

the heart rate detection module is used for detecting the heart rate of the wearer and continuously feeding the heart rate back to the main control module;

the main control module is used for judging whether the heart rate data is abnormal or not, and once the heart rate data is changed greatly, the fact that the child-end equipment leaves the wearer can be judged, and warning information can be sent to the parent-end equipment; receiving GPS data and sending the GPS data to the mother-end equipment; when the wearer exceeds the position range or the sub-terminal equipment leaves the wearer, controlling a warning module of the sub-terminal equipment to warn;

the GPS positioning system can acquire GPS information of the position of the user;

the remote switch module is used for receiving a power-on or power-off instruction sent by the master equipment and executing power-on or power-off operation; it should be noted that the local terminal of the child device may perform a power-on operation, but cannot perform a power-off operation, and must be remotely powered off through the parent device; under the condition that the child end equipment is powered on, a low-power consumption chip can maintain running, cannot stop in the on and off states and is used for receiving on and off instructions of the parent end equipment;

the communication module is used for communication between the child-end equipment and the mother-end equipment, and one mother-end equipment can control 1 to a plurality of child-end equipment, but one child-end equipment only has one mother-end equipment;

and the warning module is used for the sub-terminal equipment to give out alarm sound and the like.

The female terminal device includes: the GPS positioning system comprises a communication unit, a main control unit, a GPS positioning information display unit and a warning unit; wherein,

the communication unit is used for pairing with the communication module of the child-side equipment, can realize strong association between the child-side equipment and the communication module by using technical means such as WIFI/Bluetooth and the like, and keeps connection as long as the child-side equipment and the parent-side equipment are powered;

the master control unit is used for receiving the warning information of the child terminal equipment and controlling the warning unit of the parent terminal equipment to warn a parent terminal equipment holder; the system is used for receiving GPS data of the sub-terminal equipment and can perform display control on the GPS data; the opening and closing of the sub-terminal equipment can be controlled remotely;

the GPS positioning information display unit is used for displaying the current location of the sub-terminal equipment in real time;

and the warning unit is used for giving out warning sound, vibration or other physical reminding operations.

As shown in fig. 6, the specific process of the master device remotely controlling the child device to open and close includes:

step 11, a parent remotely closes or opens the child device in the parent device, and the parent device transmits an operation instruction to the child device through the communication unit;

step 12, the sub-end equipment receives an operation instruction of opening or closing through the communication module;

and step 13, the remote switch module turns on or off the sub-terminal equipment.

As shown in fig. 7, the detailed flow of automatic alarm after the child device leaves the child is as follows:

step 21, a heart rate detection module of the child end equipment detects the heart rate of the child in real time and transmits heart rate data to a main control module;

step 22, the main control module judges whether the heart rate received in the preset time meets the requirement, and if the heart rate meets the requirement, the main control module continues to receive the heart rate data transmitted by the heart rate detection module for judgment; if not, go to step 23;

step 23, the master control module sends warning information to the master device;

step 24, after receiving the warning information, the main control unit of the mother-end equipment sends out a warning instruction;

and 25, giving early warning to parents by a warning unit of the female terminal equipment in modes of vibration, sound, light and the like.

In the above example, the parents can timely receive the warning information after the wearable device leaves the child, so that the parents can timely know the state information of the child, and the problem of inaccurate positioning of the child caused by the fact that the wearable device is lost or maliciously picked off is avoided; meanwhile, parents can close wearable equipment on the body of a child through handheld equipment, and the wearable equipment is prevented from being shut down maliciously, so that the child is in a dangerous situation and cannot be rescued in time.

The electronic equipment of the embodiment of the invention reduces the risk of losing children and ensures the safety of the children.

While the preferred embodiments of the present invention have been described, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined in the following claims.

Claims (18)

1. A monitoring method is applied to first electronic equipment and is characterized by comprising the following steps:

acquiring physiological parameter data of a first user wearing the first electronic equipment;

comparing the physiological parameter data with a preset range, wherein the preset range is the fluctuation range of the physiological parameter data;

if the physiological parameter data is not in the preset range, generating first alarm information;

and sending the first alarm information to a second electronic device which is in communication connection with the first electronic device.

2. The monitoring method according to claim 1, wherein the physiological parameter data is heart rate data, and the step of comparing the physiological parameter data with a preset range specifically comprises:

comparing the acquired heart rate data with a preset range of pre-stored heart rate data, and judging whether the heart rate data is in the preset range of the pre-stored heart rate data.

3. The monitoring method according to claim 1, wherein after the step of generating a first alarm message if the physiological parameter data is not within the preset range, the monitoring method further comprises:

and generating the alarm of the first electronic equipment according to the first alarm information.

4. A monitoring method according to any one of claims 1-3, characterized in that the monitoring method further comprises:

receiving a power on/off instruction sent by the second electronic equipment;

and according to the power-on and power-off instruction, the first electronic equipment is turned on or turned off.

5. The monitoring method of claim 1, further comprising:

acquiring the position information of the first electronic equipment;

and sending the position information to the second electronic equipment, so that the second electronic equipment displays the position information.

6. The monitoring method according to claim 5, wherein after the step of obtaining the location information of the first electronic device, the monitoring method further comprises:

comparing the position information with preset position information;

if the position information is not in the preset position information, generating second alarm information;

and generating the alarm of the first electronic equipment according to the second alarm information.

7. A monitoring device applied to a first electronic device, comprising:

the physiological parameter detection module is used for acquiring physiological parameter data of a first user wearing the first electronic equipment;

the first comparison module is used for comparing the physiological parameter data with a preset range, wherein the preset range is a fluctuation range of the physiological parameter data;

the first warning information generating module is used for generating first warning information if the physiological parameter data is not in the preset range;

and the first sending module is used for sending the first alarm information to second electronic equipment in communication connection with the first electronic equipment.

8. The monitoring device according to claim 7, wherein the physiological parameter data is heart rate data, and the first comparison module specifically comprises:

comparing the acquired heart rate data with a preset range of pre-stored heart rate data, and judging whether the heart rate data is in the preset range of the pre-stored heart rate data.

9. The monitoring device of claim 7, further comprising:

and the first alarm module is used for generating an alarm of the first electronic equipment according to the first alarm information.

10. The monitoring device of any one of claims 7-9, further comprising:

the first receiving module is used for receiving a power-on and power-off instruction sent by the second electronic equipment;

and the execution module is used for turning on or turning off the first electronic equipment according to the power-on and power-off instruction.

11. The monitoring device of claim 7, further comprising:

the position acquisition module is used for acquiring the position information of the first electronic equipment;

and the second sending module is used for sending the position information to the second electronic equipment so that the second electronic equipment displays the position information.

12. The monitoring device of claim 11, further comprising:

the second comparison module is used for comparing the position information with preset position information;

the second warning information generating module is used for generating second warning information if the position information is not in the preset position information;

and the second alarm module is used for generating an alarm of the first electronic equipment according to the second alarm information.

13. A first electronic device, characterized in that it comprises a monitoring apparatus according to any one of claims 7 to 12.

14. A monitoring method is applied to a second electronic device, and is characterized by comprising the following steps:

receiving first alarm information sent by first electronic equipment, wherein the first electronic equipment is in communication connection with the second electronic equipment, and the first alarm information is generated when physiological parameter data acquired by the first electronic equipment is not in a preset range;

and according to the first alarm information, alarming to a second user of the second electronic equipment.

15. The monitoring method of claim 14, further comprising:

acquiring a power-on and power-off operation executed aiming at the first electronic equipment;

generating a power-on and power-off instruction according to the power-on and power-off operation;

and sending the power on/off instruction to the first electronic equipment to enable the first electronic equipment to be turned on or turned off.

16. A monitoring device applied to a second electronic device, comprising:

the second receiving module is used for receiving first alarm information sent by first electronic equipment, wherein the first electronic equipment is in communication connection with the second electronic equipment, and the first alarm information is generated when physiological parameter data acquired by the first electronic equipment is not in a preset range;

and the third warning module is used for warning the second user of the second electronic equipment according to the first warning information.

17. The monitoring device of claim 16, further comprising:

the acquisition module is used for acquiring the startup and shutdown operation executed aiming at the first electronic equipment;

the instruction generating module is used for generating a power-on and power-off instruction according to the power-on and power-off operation;

and the third sending module is used for sending the power on/off instruction to the first electronic equipment so as to enable the first electronic equipment to be turned on or turned off.

18. A second electronic device, characterized in that it comprises a monitoring device according to claim 16 or 17.