CN114821994B - Health monitoring method and system based on wearable equipment and storage medium - Google Patents

Abstract

The invention discloses a health monitoring method, a system and a storage medium based on wearable equipment, relating to the technical field of health management and comprising the following steps: acquiring acquisition information, judging whether health data exceed preset data or not, if so, generating first calling information according to position information corresponding to the health data, judging whether feedback information is received within preset time or not, if not, generating second calling information, determining communication equipment according to a standard path and a matched moving path, and sending second calling information to the communication equipment. When the health data are monitored to exceed the preset data, the abnormal data are automatically prompted, and information is transmitted in a broadcasting mode in the whole process, so that the types of wearable equipment of medical personnel and patients do not need to be distinguished, and the management of distribution of the wearable equipment is reduced.

Description

Health monitoring method and system based on wearable equipment and storage medium

Technical Field

The invention relates to the field of health management, in particular to a health monitoring method and system based on wearable equipment and a storage medium

Background

In order to improve the treatment effect, hospitals generally dynamically adjust the rehabilitation plan according to the change of the patient's condition. Then body data of the patient needs to be acquired from time to time in order to know the patient's condition change. For hospitalized patients who can move normally, wearable detection devices are often used to acquire their body data. The medical personnel will also receive the patient's body data using a receiving device corresponding to the wearable sensing device.

However, it is necessary for the hospital to prepare two different devices, namely a wearable detection device for the patient and a receiving device for the medical staff, and the two devices must be correctly allocated to the corresponding user groups during allocation, so that the two devices cannot be mixed. In order to manage the distribution of these devices, hospitals also need to arrange additional personnel for management, which undoubtedly increases the management burden of hospitals.

Disclosure of Invention

In order to reduce the management burden of a hospital, the application provides a health monitoring method and system based on wearable equipment and a storage medium.

In a first aspect, the present application provides a health monitoring method based on wearable devices, which adopts the following technical scheme:

a health monitoring method based on wearable equipment comprises the following steps:

acquiring acquisition information, wherein the acquisition information comprises position information and health data,

judging whether the health data exceed the preset data or not,

if the health data exceeds the preset data, generating first calling information according to the position information corresponding to the health data, continuously sending the first calling information to the preset communication equipment, judging whether feedback information is received within preset time or not,

if the feedback information is received within the preset time, stopping sending the first call information;

and if the feedback information is not received within the preset time, matching a moving path consistent with the standard path from the prestored moving paths, generating second calling information according to the equipment number corresponding to the moving path and the position information corresponding to the health data exceeding the preset data, determining the communication equipment according to the standard path and the matched moving path, and sending the second calling information to the communication equipment.

According to the technical scheme, when the health data exceeds the preset data, the first calling information is preferentially generated and broadcasted through the preset communication equipment, once the corresponding feedback information is not received in time, the second calling information is generated and sent to the communication equipment, and the prompt of abnormal data is automatically realized.

Optionally, the step of continuously sending the first call information to the preset communication device includes:

determining the transmission interval time according to the preset time and the number of the preset communication equipment;

sequentially sending first call information to preset communication equipment according to a preset sequence, judging whether feedback information corresponding to the preset communication equipment is received within the transmission interval time after the first call information is sent to the preset communication equipment,

if the feedback information corresponding to the preset communication equipment is received within the transmission interval time, stopping transmitting the first calling information to other preset communication equipment;

and if the feedback information corresponding to the preset communication equipment is not received in the transmission interval time, continuously and sequentially sending the first calling information to the other preset communication equipment according to a preset sequence.

Optionally, determining the communication device according to the standard path and the matched moving path includes the following steps:

determining the last position information sequenced in the matched moving path, and taking the communication equipment corresponding to the position information as first communication equipment;

determining a section consistent with the matched moving path in the standard path, and taking the communication equipment corresponding to the position information one bit behind the section as second communication equipment;

and taking the first communication equipment and the second communication equipment as communication equipment needing to send the second call information.

Optionally, after sending the second call message to the communication device, the method further includes the following steps:

identifying the acquired information consistent with the equipment number in the second calling information from the acquired information, and defining the acquired information as first monitoring information;

determining an actual moving direction according to position information in the adjacent first monitoring information, and judging whether an actual moving mode faces to position information corresponding to health data which exceeds preset data;

and if the actual moving mode does not face the position information corresponding to the health data which exceeds the preset data, the moving path which is consistent with the standard path is matched again, and the second calling information is regenerated according to the moving path and sent.

Optionally, after sending the first call information and receiving the corresponding feedback information, the method further includes the following steps:

identifying the acquired information consistent with the equipment number in the feedback information from the acquired information, and defining the acquired information as second monitoring information;

determining an actual moving direction according to the position information in the adjacent second monitoring information, and judging whether the actual moving mode faces the position information corresponding to the health data which exceeds the preset data;

and if the actual moving mode does not face the position information corresponding to the health data exceeding the preset data, matching a moving path consistent with the standard path from the prestored moving paths, generating second calling information according to the equipment number corresponding to the moving path and the position information corresponding to the health data exceeding the preset data, determining communication equipment according to the standard path and the matched moving path, and sending the second calling information to the communication equipment.

Optionally, the preset sequence includes a first-type sequence and a second-type sequence, wherein the first-type sequence is a sequence in which the number of the medical staff is from high to low, and the second-type sequence is a sequence in which the distance from the medical staff to the corresponding position is from near to far;

before first calling information is sent to preset communication equipment in sequence according to a preset sequence, the method comprises the following steps:

judging whether the health data exceeding the preset data is larger than or equal to the preset warning data or not,

if the health data are greater than or equal to the warning data, taking the second type of sequence as a preset sequence;

and if the health data are smaller than the warning data, taking one type of sequence as a preset sequence.

In a second aspect, the present application provides a health monitoring system based on wearable devices, which adopts the following technical solutions:

a health monitoring system based on wearable equipment comprises a processor, a plurality of communication equipment and the wearable equipment, wherein the communication equipment is preset,

a processor for acquiring the collected information and judging whether the health data exceeds the preset data,

if the health data exceed the preset data, the processor generates first calling information according to the position information corresponding to the health data and continuously sends the first calling information to the preset communication equipment;

the processor is also used for judging whether the feedback information is received within the preset time after the first calling information is sent,

if the feedback information is received within the preset time, the processor stops sending the first call information;

if the feedback information is not received within the preset time, the processor matches a moving path consistent with the standard path from the prestored moving paths, generates second calling information according to the equipment number corresponding to the moving path and the position information corresponding to the health data exceeding the preset data, determines communication equipment according to the standard path and the matched moving path, and sends the second calling information to the communication equipment;

the communication equipment is used for receiving and broadcasting the first call information and the second call information, receiving the feedback information and the acquisition information, and transmitting the feedback information and the acquisition information to the processor;

and the wearable device is used for periodically sending the acquisition information, receiving the first call information and the second call information and responding to the first call information or the second call information to send feedback information.

In a third aspect, the present application provides a computer readable storage medium storing a computer program that can be loaded by a processor and execute the above-mentioned wearable device-based health monitoring method.

In summary, when it is monitored that the health data exceeds the preset data, the first call information is preferentially generated and broadcasted through the preset communication device, and once the corresponding feedback information is not received in time, the second call information is generated and sent to the communication device, so that the prompt of abnormal data is automatically realized.

Drawings

FIG. 1 is a block flow diagram of an embodiment of the present application.

Fig. 2 is a system configuration diagram according to an embodiment of the present application.

Description of reference numerals:

1. a wearable device; 2. a communication module; 3. a processor.

Detailed Description

The present application is described in further detail below with reference to fig. 1-2.

The embodiment of the application provides a health monitoring method based on wearable equipment, which is applied to a processor, and is shown in fig. 1, and comprises the following steps:

and S100, acquiring acquisition information.

The acquisition information includes location information and health data.

Wherein, the health data is collected by the wearable device from the wearer and transmitted outwards by means of wireless transmission. The health data includes various common human body data such as blood pressure, heartbeat, body temperature and the like.

In this embodiment, all wearable devices have the same structure and function, and the wearable devices can be used by patients and medical staff.

And in order to be used with medical personnel, the wearable device has a display function besides a function for detecting body data of a wearer and a function for wirelessly transmitting data. The wearable device is therefore typically contoured as a bracelet with a display screen to facilitate the wearer's viewing of the data displayed in the display screen.

In addition, the collected information is sent by the communication equipment installed at the fixed position after the communication equipment receives the health data transmitted by the wearable equipment and combines with the pre-stored position information. The purpose of setting up the communication equipment is: the wearable device has the advantages that the wearable device can freely move when being carried by a wearer, the wearable device has a data wireless transmission function, the transmission distance is limited, the position of the wearable device cannot be identified, the position of the wearable device can be represented by pre-storing position information in the communication device, as long as the communication device can receive health data sent by the wearable device, the wearable device corresponding to the health data is located near the communication device, and the position information stored in the communication device can be used for representing the current position of the wearable device.

And S200, judging whether the health data exceed preset data or not.

The preset data is stored in the processor. The preset data refers to the intermediate value between healthy and unhealthy after the human health is quantified. The preset data is necessarily all types containing health data that the wearable device can detect. But for the wearable device, the health data collected by the wearable device can be targeted, that is, the wearable device can only collect the part of the health data corresponding to the illness condition of the patient. For example, wearable device a only collects blood pressure, wearable device B collects heartbeat and blood pressure, and the preset data includes all detectable data such as blood pressure, heartbeat, body temperature, and the like.

S300, if the health data exceed the preset data, generating first calling information according to the position information corresponding to the health data, and continuously sending the first calling information to the preset communication equipment.

The preset communication equipment refers to communication equipment installed at a specific position, and the specific position refers to places such as a nurse station and a duty room where medical care personnel are arranged to be on duty.

If the health data is less than or equal to the preset data, the health condition of the wearer corresponding to the health data is stable, and the processor does not need to react to the received collected information.

And if the health data exceeds the preset data, the body of the wearer corresponding to the health data is abnormal, and medical staff need to be informed to pay attention to the situation in time. Therefore, the processor can generate first calling information according to the position information under the same acquisition information, and then send the first calling information to the preset communication equipment.

S400, judging whether the feedback information is received within the preset time, and if the feedback information is received within the preset time, stopping sending the first call information.

The preset time is a timed time set by a human. The purpose of setting the preset time is to enable the processor to determine whether a wearer is present at a specific location and the wearer has received the first call information.

The communication equipment broadcasts the first calling information in a wireless mode after receiving the first calling information sent by the processor.

The feedback information is information which is fed back to the processor by the wearable device after the wearable device receives the first call information broadcasted by the communication device.

If the processor receives the feedback information within the preset time, the processor indicates that the wearer exists in the specific position, and then the processor can stop sending the first call information.

In one embodiment, the step of continuously sending the first call information to the preset communication device comprises the following steps:

and S410, determining the transmission interval time according to the preset time and the number of the preset communication equipment.

The transmission interval time is the quotient of the preset time divided by the number of the preset communication devices.

In fact, when the processor starts to work normally, the number of the preset communication devices and the preset time are determined, the transmission interval time is also fixed, and step S410 is actually executed after the preset communication devices are manually modified and/or the preset time is modified.

And S420, sequentially sending first calling information to the preset communication equipment according to a preset sequence, and judging whether feedback information corresponding to the preset communication equipment is received within the transmission interval time after the first calling information is sent to the preset communication equipment.

And S430, if the feedback information corresponding to the preset communication equipment is received within the transmission interval time, stopping transmitting the first call information to other preset communication equipment.

And S440, if the feedback information corresponding to the preset communication equipment is not received in the transmission interval time, continuing to sequentially send the first calling information to the other preset communication equipment according to a preset sequence.

The processor sends the first call information to the preset communication equipment, the first call information is not directly sent to all the preset communication equipment at the same time, but sent one by one according to a preset sequence, and the processor sends the first call information to the next preset communication equipment only if no feedback information is received within the transmission interval after the first call information is sent to the previous preset communication equipment.

In addition, the preset order includes a first-type order and a second-type order, wherein the first-type order is a fixed order set by a human, such as a nurse station-a doctor's office-a temporary shift point arranged in an order of from a number of attendees to the nurse station to a number of attendees.

The second type of sequence is generated on site according to the position information in the collected information received by the processor, and specifically comprises the following steps:

and sequencing the position information corresponding to the pre-stored management equipment in a sequence from near to far according to the distance relation between the position information corresponding to the pre-stored management equipment and the position information in the acquired information, and determining a preset sequence according to the sequencing. For example, the position information in the collected information is close to the temporary shift point, and the distance between the doctor's duty room and the temporary shift point is far more than the distance between the nurse's station and the temporary shift point, the preset sequence is temporary shift point-nurse's station-doctor's duty room.

As for the specific sequence, the abnormal degree of the health data in the collected information can be determined, and when the abnormal degree of the health data is serious, two types of sequences are selected to pursue faster response; and when the degree of abnormality of the health data is not serious, selecting a class of order to pursue a more stable response.

And judging whether the abnormal degree of the health data is serious, presetting an alert data in the processor, wherein the value represented by the alert data is larger than the value represented by the preset data, and when the health data is larger than the preset data, the health data needs to be compared with the alert data. If the health data is greater than or equal to the warning data, the abnormal degree of the health data is serious; otherwise, it indicates that the degree of abnormality of the health data is not serious.

S500, if the feedback information is not received within the preset time, matching a moving path consistent with the standard path from the prestored moving paths, generating second calling information according to the equipment number corresponding to the moving path and the position information corresponding to the health data exceeding the preset data, determining communication equipment according to the standard path and the matched moving path, and sending the second calling information to the communication equipment.

The device number is number information unique to each wearable device. The device numbers are used for conveniently distinguishing the wearable devices, so that all the wearable devices are numbered, and the corresponding numbers are recorded in the wearable devices in an electronic coding mode, so that each wearable device has a unique device number. And the wearable device attaches the corresponding device number while sending out the health data. Before the communication equipment sends the collected information to the processor, the equipment number is added to the corresponding collected information, so that the processor can receive the health data and the corresponding equipment number.

The standard route refers to a ward round route of a medical staff who departs from a specific position and is prescribed by a hospital. Since there may be multiple locations for a particular location, there may be multiple corresponding standard paths. And the ward round route is composed of location information of the communication devices installed in the corresponding wards.

And the pre-stored moving path is a virtual moving path corresponding to the same equipment number drawn by the processor according to the collected information received in the preset time. In general, the collected information received by the processor is large, and therefore the number of virtual moving paths corresponding to different stored device numbers is also large.

The first call information does not include a device number, and the second call information includes a device number. After receiving the second calling information, the wearable device firstly judges whether the device number in the second calling information is consistent with the device number of the wearable device, and if the device number in the second calling information is consistent with the device number of the wearable device, the processor responds to the second calling information and sends out response feedback information; and if the equipment number in the second calling information is not consistent with the equipment number of the processor, the processor does not respond.

If the feedback information is not received within the preset time, the medical staff in the places such as nurse stations, duty rooms and the like where the medical staff are arranged to be on duty are likely to leave temporarily, the processor screens the pre-stored moving paths, and when the moving paths consistent with the standard paths exist, the wearer corresponding to the moving paths is considered to be the medical staff in the ward-round, so that after the processor determines the communication equipment where the medical staff are located currently, the processor sends second calling information to the communication equipment to remind the medical staff in the ward-round of paying attention to abnormal health data.

In addition, the movement path matching the standard path is not exactly the same as the standard path, but the pre-stored movement path may be exactly the same as a part of the links in the standard path.

For example, the standard route is a route sequentially moved from the location information a, the location information B, the location information C, the location information D, and the location information E, the pre-stored movement route a is a movement route from the location information a, the location information B to the location information F, the pre-stored movement route B is a movement route from the location information C, the location information D to the location information E, and the pre-stored movement route B is a movement route corresponding to the standard route.

In one embodiment, determining a communication device based on a standard path and a matching movement path comprises:

and S510, determining the position information sequenced at the last in the matched moving path, and taking the communication equipment corresponding to the position information as first communication equipment.

S520, determining a section consistent with the matched moving path in the standard path, and taking the communication equipment corresponding to the position information of the next position of the section as second communication equipment.

S530, the first communication equipment and the second communication equipment are used as communication equipment needing to send the second call information.

The position information corresponding to the first communication device represents a position where the wearable device which needs to receive the second call information stays last time, and the position information corresponding to the second communication device represents a position where the wearable device which needs to receive the second call information is going to.

Due to the fact that the transmission of the collected information is separated, and the wearer of the wearable device can move, in order to improve the probability that the wearable device receives the second calling information, the first communication device and the second communication device are used for broadcasting the second calling information at the same time.

In one embodiment, after sending the second call message to the communication device, the method further includes the following steps:

and S540, identifying the acquired information which is consistent with the equipment number in the second calling information from the acquired information, and defining the acquired information as first monitoring information.

And S550, determining the actual moving direction according to the position information in the adjacent first monitoring information, and judging whether the actual moving mode faces the position information corresponding to the health data which exceeds the preset data.

And S560, if the actual moving mode does not face the position information corresponding to the health data which exceeds the preset data, the moving path which is consistent with the standard path is matched again, and the second calling information is regenerated according to the moving path and sent.

And if the actual moving mode exceeds the position information corresponding to the health data of the preset data, the processor does not re-match the moving path consistent with the standard path.

The wearable device is collecting health data periodically, e.g. once every 5 minutes. And the wearable device will continue to transmit health data outward after completing one acquisition. Correspondingly, after receiving the health data, the communication equipment transmits a feedback signal to the corresponding wearable equipment according to the equipment number transmitted together with the health data. And the wearable equipment stops the transmission of the health data after receiving the feedback signal transmitted by the communication equipment. In order to reduce the power consumption of the wearable device, the communication device needs to cover the activity area of the wearer as fully as possible, so that the situation that the wearable device repeatedly transmits health data is reduced as far as possible.

After the wearable device responds to the first call information or the second call information, in order to determine whether the wearable device moves and whether the moving direction is correct in time, the frequency of the wearable device for sending the health data is replaced with a preset temporary frequency within a preset temporary time. The acquisition information is transmitted at a preset temporary frequency of once in 10s for a preset temporary time of, for example, 5 minutes.

The adjacent first monitoring information refers to two pieces of acquisition information which are received by the processor and have a time interval equal to a sending time interval corresponding to the preset temporary frequency. And determining the actual moving direction according to the position information in the adjacent first monitoring information, judging whether the actual moving direction faces the position information corresponding to the health data which exceeds the preset data, and judging whether the wearer receiving the first calling information is approaching the position represented by the position information with abnormal health data according to the change of the position information in the first monitoring information twice.

In addition, when the actual moving direction is determined according to the position information in the adjacent first monitoring information, if the position information in the adjacent first monitoring information is not changed, the next first monitoring information may be selected to wait, and if the position information in the next first monitoring information is not changed, it is determined that the wearer receiving the first calling information does not notice the first calling information, and it is determined that the position information is the same as the "position information corresponding to the health data in which the actual moving direction does not exceed the preset data", and step S560 is performed.

In one embodiment, after the first call information is sent and the corresponding feedback information is received, the method further includes the following steps:

and S610, identifying the acquired information consistent with the equipment number in the feedback information from the acquired information, and defining the acquired information as second monitoring information.

S620, determining an actual moving direction according to the position information in the adjacent second monitoring information, and judging whether the actual moving mode faces the position information corresponding to the health data which exceeds the preset data.

S630, if the actual moving direction does not exceed the position information corresponding to the health data of the preset data, the step S500 is executed.

After receiving the feedback information corresponding to the first call information, the processor also monitors whether the wearable device sending the feedback information moves and whether the movement direction is correct, and once the wearable device does not move or the movement direction is incorrect, the processor executes step S500 to send second call information to find a medical worker closer to the wearable device to reduce the waiting time of the patient.

In one embodiment, the processor may receive a plurality of collected signals at the same time, and then it may happen that the health data in the plurality of collected signals exceeds the preset data, which causes the processor to send out a plurality of first call signals, which in turn causes the processor to receive a plurality of feedback signals. Then the feedback information may carry its own device number in order to ensure that the processor can correctly correlate the feedback signal with the first call information.

Specifically, when the wearable device receives the first call information, the wearable device judges whether the device number in the first call information is consistent with the device number stored in the wearable device, and if the device number in the first call information is consistent with the device number stored in the wearable device, a feedback signal containing the device number is sent. The communication equipment does not need to transmit the position information of the communication equipment when transmitting the feedback signal. And after receiving the feedback signal, the processor identifies the equipment number in the feedback signal and stops sending the first call signal corresponding to the equipment number.

The embodiment of the present application further provides a health monitoring system based on wearable devices, referring to fig. 2, including a wearable device 1, a plurality of communication devices 2, and a processor 3, where the plurality of communication devices 2 may be installed in each room and aisle of a floor where the communication devices 2 are located as needed. In addition, the communication device 2 installed near a specific location such as a nurse station, a shift room, or the like is defined as a preset communication device.

Communication equipment 2 is wireless communication equipment, and wearable equipment 1 can carry out wireless connection with communication equipment 2 in communication equipment 2's communication range. The processor 3 is electrically connected with all the communication devices 2.

A processor 3 for acquiring the collected information and judging whether the health data exceeds the preset data,

if the health data exceeds the preset data, the processor 1 generates first calling information according to the position information corresponding to the health data, and continuously sends the first calling information to the preset communication equipment.

The processor 3 is further configured to determine whether feedback information is received within a preset time after the first call information is sent.

If the feedback information is received within the preset time, the processor 3 stops sending the first call information;

if the feedback information is not received within the preset time, the processor 3 matches a moving path consistent with the standard path from the prestored moving paths, generates second calling information according to the equipment number corresponding to the moving path and the position information corresponding to the health data exceeding the preset data, determines the communication equipment 2 according to the standard path and the matched moving path, and sends the second calling information to the communication equipment 2.

And the communication equipment 2 is used for receiving and broadcasting the first call information and the second call information, receiving the feedback information and the acquisition information and transmitting the feedback information and the acquisition information to the processor 3.

The wearable device 1 is used for periodically sending the acquisition information, accepting the first call information and the second call information and responding to the first call information or the second call information to send out feedback information.

The embodiment of the application also provides a computer readable storage medium, which stores a computer program capable of being loaded by a processor and executing the health monitoring method based on the wearable device.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. A health monitoring method based on wearable equipment is characterized by comprising the following steps:

acquiring acquisition information, wherein the acquisition information comprises position information and health data,

judging whether the health data exceed the preset data or not,

if the health data exceeds the preset data, generating first calling information according to position information corresponding to the health data, and continuously sending the first calling information to preset communication equipment, wherein the wearable equipment has the same structure and function, can be used by patients and medical personnel, each wearable equipment has a unique equipment number, the communication equipment is installed in each room and aisle of a floor where the wearable equipment is located as required, the communication equipment installed near a specific position of a nurse station and a duty room is called as the preset communication equipment, the wearable equipment can be wirelessly connected with the communication equipment within the communication range of the communication equipment, and the position information prestored in the communication equipment can represent the position of the wearable equipment,

if the feedback information is received within the preset time, stopping sending the first call information;

if the feedback information is not received within the preset time, matching a moving path consistent with a standard path from prestored moving paths, generating second calling information according to an equipment number corresponding to the moving path and position information corresponding to health data exceeding preset data, determining communication equipment according to the standard path and the matched moving path, and sending a second calling message to the communication equipment, wherein the standard path refers to a ward-round route of medical staff starting from a specific position and specified by a hospital, the ward-round route consists of position information of the communication equipment installed in a corresponding ward, the prestored moving path is a virtual moving path corresponding to the same equipment number drawn by a processor according to collected information received within the preset time, and when the moving path consistent with the standard path exists, the wearer corresponding to the moving path is considered to be the medical staff in the ward, and the processor determines the communication equipment where the medical staff is located currently and sends the second calling information to the communication equipment.

2. The wearable device based health monitoring method of claim 1, wherein the step of continuously sending the first call information to the preset communication device comprises the steps of:

determining the transmission interval time according to the preset time and the number of the preset communication equipment;

sequentially sending first call information to preset communication equipment according to a preset sequence, judging whether feedback information corresponding to the preset communication equipment is received within the transmission interval time after the first call information is sent to the preset communication equipment,

if the feedback information corresponding to the preset communication equipment is received within the transmission interval time, stopping transmitting the first calling information to other preset communication equipment;

and if the feedback information corresponding to the preset communication equipment is not received within the transmission interval time, continuing to sequentially send the first calling information to the other preset communication equipment according to a preset sequence.

3. The wearable device based health monitoring method of claim 1, wherein determining the communication device based on the standard path and the matching movement path comprises the following steps:

determining the last position information sequenced in the matched moving path, and taking the communication equipment corresponding to the position information as first communication equipment;

determining a section consistent with the matched moving path in the standard path, and taking the communication equipment corresponding to the position information one bit behind the section as second communication equipment;

and taking the first communication equipment and the second communication equipment as communication equipment needing to send the second call information.

4. The wearable device based health monitoring method of claim 1, further comprising the following steps after sending the second call message to the communication device:

identifying the acquired information consistent with the equipment number in the second calling information from the acquired information, and defining the acquired information as first monitoring information;

determining an actual moving direction according to position information in the adjacent first monitoring information, and judging whether an actual moving mode faces to position information corresponding to health data which exceeds preset data;

and if the actual moving mode does not face the position information corresponding to the health data which exceeds the preset data, the moving path which is consistent with the standard path is matched again, and the second calling information is regenerated according to the moving path and sent.

5. The wearable device based health monitoring method according to claim 1, further comprising the following steps after sending the first call information and receiving the corresponding feedback information:

identifying the acquired information consistent with the equipment number in the feedback information from the acquired information, and defining the acquired information as second monitoring information;

determining an actual moving direction according to the position information in the adjacent second monitoring information, and judging whether the actual moving mode faces the position information corresponding to the health data which exceeds the preset data;

and if the actual moving mode does not face the position information corresponding to the health data exceeding the preset data, matching a moving path consistent with the standard path from the prestored moving paths, generating second calling information according to the equipment number corresponding to the moving path and the position information corresponding to the health data exceeding the preset data, determining communication equipment according to the standard path and the matched moving path, and sending the second calling information to the communication equipment.

6. The wearable device based health monitoring method of claim 2, wherein: the preset sequence comprises a first-class sequence and a second-class sequence, wherein the first-class sequence is a sequencing sequence from the most number of the medical staff, and the second-class sequence is a sequencing sequence from the near to the far distance from the medical staff to the corresponding position;

before first calling information is sent to preset communication equipment in sequence according to a preset sequence, the method comprises the following steps:

judging whether the health data exceeding the preset data is larger than or equal to the preset warning data or not,

if the health data are greater than or equal to the warning data, taking the second type of sequence as a preset sequence;

and if the health data are smaller than the warning data, taking one type of sequence as a preset sequence.

7. A health monitoring system based on wearable equipment, its characterized in that: the wearable equipment has the advantages that the wearable equipment is the same in structure and function, can be used by patients and medical personnel, and has a unique equipment number; the wearable equipment can be wirelessly connected with the communication equipment within the communication range of the communication equipment, and the position information prestored in the communication equipment can represent the position of the wearable equipment;

the processor is used for acquiring the acquired information and judging whether the health data exceed the preset data, if the health data exceed the preset data, the processor generates first calling information according to the position information corresponding to the health data and continuously sends the first calling information to the preset communication equipment;

the processor is also used for judging whether the feedback information is received within the preset time after the first calling information is sent,

if the feedback information is received within the preset time, the processor stops sending the first call information;

if the feedback information is not received within the preset time, the processor matches a moving path consistent with a standard path from prestored moving paths, generates second calling information according to an equipment number corresponding to the moving path and position information corresponding to health data exceeding preset data, determines communication equipment according to the standard path and the matched moving path, and sends a second calling message to the communication equipment, wherein the standard path refers to a ward-ward route of medical staff starting from a specific position and specified by a hospital;

the communication equipment is used for receiving and broadcasting the first call information and the second call information, receiving the feedback information and the acquisition information, and transmitting the feedback information and the acquisition information to the processor;

and the wearable device is used for periodically sending the acquisition information, receiving the first call information and the second call information and responding to the first call information or the second call information to send feedback information.

8. A computer-readable storage medium, storing a computer program that can be loaded by a processor and that executes a wearable device based fitness monitoring method according to any of claims 1-6.

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