CN112839565A - Monitoring system and method, and storage medium - Google Patents

Abstract

A monitoring system, comprising: at least one ward-level monitoring device belonging to the first area, wherein the at least one ward-level monitoring device configures channels in a first channel group corresponding to the first area as transmission channels; and the at least one main mobile monitoring device is correspondingly matched with the at least one ward-level monitoring device, and transmits the acquired patient recovery state parameters corresponding to the target object to the at least one ward-level monitoring device through a channel in the first channel group so as to realize real-time monitoring on the target object.

Description

Monitoring system and method, and storage medium Technical Field

The embodiment of the invention relates to the technical field of medical equipment, in particular to a monitoring system and method and a storage medium.

Background

Wireless Medical Telemeasuring Services (WMTS) is a Wireless technology that remotely monitors physiological parameters of a patient, such as pulse and respiratory rate.

Currently, in hospitals, WMTS is used to help medical personnel to achieve effective care for patients. Under the general condition, as long as the equipment for acquiring the physiological parameters of the patient transmits the acquired data to the monitoring equipment which can be checked by medical personnel in a wireless manner, the medical personnel can know the current condition of the patient in real time so as to carry out corresponding treatment. However, due to the limitation of spectrum resources, the WMTS using frequency division multiplexing often generates interference between multiple devices when the devices work together, and thus the performance of data transmission cannot be guaranteed.

Disclosure of Invention

In order to solve the foregoing technical problems, embodiments of the present invention desirably provide a monitoring system, a monitoring method, and a storage medium, where a channel in a corresponding channel group is configured as a transmission channel for ward monitoring devices included in each area, so that pairing interference between the ward monitoring devices and corresponding main mobile monitoring devices during data transmission is reduced, and thus performance of data transmission is improved.

The technical scheme of the embodiment of the invention can be realized as follows:

the embodiment of the invention provides a monitoring system, which comprises:

at least one ward-level monitoring device belonging to a first area, wherein the at least one ward-level monitoring device configures channels in a first channel group corresponding to the first area as transmission channels;

and the at least one main mobile monitoring device is correspondingly matched with the at least one ward-level monitoring device, and transmits the acquired patient recovery state parameters corresponding to the target object to the at least one ward-level monitoring device through a channel in the first channel group so as to realize real-time monitoring on the target object.

In the above system, further comprising: a management device;

the management equipment determines a preset channel group corresponding to each region from all channels according to a preset channel allocation method, and configures different channels in the corresponding preset channel groups as transmission channels for different ward-level monitoring equipment in each region;

the first channel group is a preset channel group corresponding to the first region determined by the management device from all the channels.

In the system, the system further comprises at least one auxiliary mobile monitoring device;

the patient recovery state parameters comprise at least one first patient recovery state parameter acquired by the at least one primary mobile monitoring device and at least one second patient recovery state parameter acquired by the at least one secondary mobile monitoring device;

the at least one secondary mobile monitoring device wirelessly transmits the at least one second patient recovery status parameter to the at least one primary mobile monitoring device.

In the above system, the at least one ward-level monitoring device comprises a target ward-level monitoring device; the target ward level monitoring device comprises a first wireless communication module, and the management device comprises a second wireless communication module;

the management device determines a first channel corresponding to the target ward-level monitoring device from the first channel group, and transmits first indication information corresponding to the first channel to the target ward-level monitoring device through the second wireless communication module;

and the target ward monitoring equipment receives the first indication information through the first wireless communication module, and configures the first channel into a transmission channel according to the first indication information.

In the above system, the at least one primary mobile monitoring device comprises a target mobile monitoring device, and the target ward-level monitoring device is correspondingly matched with the target mobile monitoring device;

the target mobile monitoring device acquires part of the parameters in the patient recovery state parameters and transmits the part of the parameters to the target ward monitoring equipment through the first channel.

In the above system, the target ward monitoring device comprises a first near field communication module, and the target mobile monitoring device comprises a second near field communication module;

the target ward level monitoring equipment generates a first pairing code by combining a preset serial number and the current time, and transmits the first pairing code to the target mobile monitoring device through the first near field communication module;

and the target mobile monitoring device receives the first pairing code through the second near-field communication module and is paired with the target ward-level monitoring equipment.

In the above system, the system further comprises a non-target mobile monitoring device;

and when the non-target mobile monitoring device acquires a second pairing code and tries to pair with the target ward-level monitoring equipment through the second pairing code, the target ward-level monitoring equipment refuses to pair with the non-target mobile monitoring device.

In the system, after the target ward-level monitoring device is started, all channels are scanned, and whether the channels in the working state in all the channels are the channels in the first channel group or not is determined;

when the channel in the working state in all the current channels is not the channel in the first channel group, the target ward level monitoring device outputs mixed prompt information for prompting;

and when the channel in the working state in all the current channels is the channel in the first channel group, the target ward monitoring equipment is paired with the target mobile monitoring device.

In the above system, the target ward monitoring device includes a third wireless communication module, and the target mobile monitoring apparatus includes a fourth wireless communication module capable of performing coupling communication with the third wireless communication module;

the target mobile monitoring device transmits the partial parameters to the ward-level monitoring equipment through the fourth wireless communication module by the first channel;

and the target ward-level monitoring equipment receives the partial parameters through the third wireless communication module by using the first channel.

In the system, the management device determines a second channel corresponding to the target ward monitoring device from a second channel group, and transmits second indication information corresponding to the second channel to the target ward monitoring device through the second wireless communication module; the second channel group is a preset channel group corresponding to a second area determined by the management device from all the channels;

and the target ward-level monitoring equipment receives the second indication information through the first wireless communication module, stops configuring the first channel according to the second indication information, and configures the second channel into a transmission channel so as to be separated from the first area and join the second area.

In the above system, each of the at least one ward monitoring device is configured with a preset color tag corresponding to the first area, so as to distinguish that the at least one ward monitoring device belongs to the first area.

In the above system, each of the at least one ward monitoring device is configured with the preset area identification information corresponding to the first area, so as to distinguish that the at least one ward monitoring device belongs to the first area.

The embodiment of the invention provides a monitoring method, which is applied to at least one ward-level monitoring device belonging to a first area, and is characterized in that the method comprises the following steps:

receiving patient recovery state parameters corresponding to a target object acquired by at least one main mobile monitoring device through a channel in a first channel group corresponding to the first area; wherein the at least one ward-level monitoring device is correspondingly matched with the at least one main mobile monitoring device;

and monitoring the target object in real time according to the patient recovery state parameters.

In the above solution, the first channel group is determined from all channels by a management device, the at least one ward-level monitoring device includes a target ward-level monitoring device, the target ward-level monitoring device includes a first wireless communication module, and the management device includes a second wireless communication module; before the receiving, through the channel in the first channel group corresponding to the first region, the patient recovery state parameter corresponding to the target object acquired by the at least one main mobile monitoring device, the method further includes:

receiving first indication information transmitted by the management equipment through the first wireless communication module;

configuring, by the target ward-level monitoring device, a first channel as a transmission channel of the target ward-level monitoring device according to the first indication information;

the management device is configured to transmit first indication information corresponding to the first channel to the target ward monitoring device through the second wireless communication module.

In the foregoing scheme, the receiving, through a channel in a first preset channel group corresponding to the first region, a patient recovery state parameter corresponding to a target object acquired by at least one main mobile monitoring device includes:

receiving a part of the patient recovery state parameters acquired by a target mobile monitoring device in the at least one main mobile monitoring device through the first channel configured by the target ward-level monitoring device;

and the target mobile monitoring device is correspondingly matched with the target ward-level monitoring equipment.

In the above solution, before the target ward-level monitoring device includes the first near-field communication module, and before receiving a part of the patient recovery state parameters acquired by the target mobile monitoring device in the at least one main mobile monitoring device, the method further includes:

generating a first pairing code by combining the preset serial number and the current time through the target ward level monitoring equipment;

and transmitting the first pairing code to the target mobile monitoring device through the first near field communication module so as to realize pairing with the target mobile monitoring device.

In the foregoing solution, after the first near field communication module transmits the first pairing code to the target mobile monitoring device to realize pairing with the target mobile monitoring device, the method further includes:

and when the non-target mobile monitoring device acquires a second pairing code and tries to pair with the target ward-level monitoring equipment through the second pairing code, the target ward-level monitoring equipment refuses to pair with the non-target mobile monitoring device.

In the above solution, before the receiving a part of the patient recovery state parameters acquired by the target mobile monitoring device in the at least one master mobile monitoring device, the method further includes:

after the target ward-level monitoring device is started, scanning all channels through the target ward-level monitoring device, and determining whether channels in a working state in all the channels are channels in the first channel group or not;

when the channel in the working state in all the current channels is not the channel in the first channel group, outputting mixed use prompt information for prompting through the target ward level monitoring equipment;

and when the current channel in the working state in all the channels is the channel in the first channel group, pairing the target mobile monitoring device with the target ward-level monitoring device.

In the above solution, the receiving, by the target mobile monitoring device in the at least one main mobile monitoring device, a part of the patient recovery state parameters acquired by the target mobile monitoring device through the first channel configured by the target ward monitoring device includes:

receiving, by the third wireless communication module, the partial parameter in the first channel.

In the above solution, after the configuring the first channel as the transmission channel of the target patient-level monitoring device according to the first indication information, the method further includes:

receiving second indication information transmitted by the management equipment through the first wireless communication module; stopping configuring the first channel according to the second indication information through the target ward-level monitoring device, and configuring the second channel as a transmission channel of the target ward-level monitoring device, so that the target ward-level monitoring device is separated from the first area and is added into the second area;

the management device is configured to determine a second channel group corresponding to the second area from all the channels, determine a second channel corresponding to the target ward monitoring device from the second channel group, and transmit the second indication information corresponding to the second channel to the target ward monitoring device through the second wireless communication module.

The embodiment of the invention provides a monitoring method, which is applied to at least one main mobile monitoring device, wherein the at least one main mobile monitoring device is correspondingly matched with at least one ward-level monitoring device belonging to a first area, and the method comprises the following steps:

acquiring patient recovery state parameters corresponding to a target object;

transmitting the patient recovery state parameters to the at least one ward monitoring device through a channel in a first channel group to enable real-time monitoring of the target subject through the at least one ward monitoring device;

wherein the at least one ward-level monitoring device configures a channel in a first channel group corresponding to the first area as a transmission channel.

In the above solution, the at least one main mobile monitoring device includes a target mobile monitoring device, the at least one ward-level monitoring device includes a target ward-level monitoring device, the target ward-level monitoring device is correspondingly matched with the target mobile monitoring device, and the transmitting the patient recovery state parameter to the at least one ward-level monitoring device through a channel in a first channel group includes:

acquiring partial parameters in the patient recovery state parameters through the target mobile monitoring device;

transmitting, by the target mobile monitoring device, the portion of the parameters to the target ward-level monitoring device on the first channel;

wherein the first channel is a channel in the first channel group configured by the target ward-level monitoring device.

In the above solution, before the target mobile monitoring device includes a second near field communication module, and the partial parameters are transmitted to the target ward monitoring apparatus through the target mobile monitoring device on the first channel, the method further includes:

receiving a first pairing code transmitted by the target ward-level monitoring equipment through the second near-field communication module;

and pairing the target ward-level monitoring equipment according to the first pairing code.

The embodiment of the invention provides ward-level monitoring equipment, which comprises: a first processor, a first memory, a first communication bus, and a first communication accessory;

the first communication bus is used for realizing communication connection among the first processor, the first memory and the first communication accessory;

the first processor and the first communication accessory are used for executing the first monitoring program stored in the first memory so as to realize the monitoring method applied to at least one ward-level monitoring device.

The embodiment of the invention provides a main mobile monitoring device, which comprises: a second processor, a second memory, a second communication bus, and a second communication accessory;

the second communication bus is used for realizing communication connection among the second processor, the second memory and the second communication accessory;

the second processor and the second communication accessory are configured to execute a second monitoring program stored in the second memory to implement the monitoring method applied to the at least one primary mobile monitoring device.

An embodiment of the present invention provides a computer-readable storage medium, which stores a monitoring program, where the monitoring program can be executed by a processor to implement the monitoring method.

It can thus be seen that in an embodiment of the invention, a monitoring system comprises: at least one ward-level monitoring device belonging to the first area, wherein the at least one ward-level monitoring device configures channels in a first channel group corresponding to the first area as transmission channels; and the at least one main mobile monitoring device is correspondingly matched with the at least one ward-level monitoring device, and transmits the acquired patient recovery state parameters corresponding to the target object to the at least one ward-level monitoring device through a channel in the first channel group so as to realize real-time monitoring on the target object. That is, the channels in the corresponding channel group are configured as transmission channels for the ward monitoring devices included in each region, so that pairing interference between the ward monitoring devices and the corresponding main mobile monitoring devices during data transmission is reduced, and the performance of data transmission is improved.

Drawings

Fig. 1 is a schematic structural diagram of a monitoring system according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a monitoring system according to an embodiment of the present invention;

fig. 3 is a wearing schematic diagram of a primary mobile monitoring device and a secondary mobile monitoring device according to an embodiment of the present invention;

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

fig. 5 is a schematic communication diagram of a target ward monitoring device, a target mobile monitoring apparatus and a management device according to an embodiment of the present invention;

fig. 6 is a schematic flow chart of a monitoring method according to an embodiment of the present invention;

fig. 7 is a schematic flowchart of a monitoring method according to an embodiment of the present invention;

fig. 8 is a schematic structural diagram of a ward-level monitoring device according to an embodiment of the present invention;

fig. 9 is a schematic structural diagram of a mobile monitoring device according to an embodiment of the present invention.

Detailed Description

So that the manner in which the features and aspects of the embodiments of the present invention can be understood in detail, a more particular description of the embodiments of the invention, briefly summarized above, may be had by reference to the embodiments, some of which are illustrated in the appended drawings.

The terms "first," "second," and the like in the description and claims of the present invention and in the above-described drawings are used for distinguishing between different objects and not for describing a particular order. Furthermore, the terms "include" and "have," as well as any variations thereof, are intended to cover non-exclusive inclusions. For example, a process, method, system, article, or apparatus that comprises a list of steps or elements is not limited to only those steps or elements listed, but may alternatively include other steps or elements not listed, or inherent to such process, method, or apparatus.

The embodiment of the invention provides a monitoring system. Fig. 1 is a schematic structural diagram of a monitoring system according to an embodiment of the present invention. As shown in fig. 1, the monitoring system comprises:

at least one ward-level monitoring device belonging to the first area, wherein the at least one ward-level monitoring device configures channels in a first channel group corresponding to the first area as transmission channels;

and the at least one main mobile monitoring device is correspondingly matched with the at least one ward-level monitoring device, and transmits the acquired patient recovery state parameters corresponding to the target object to the at least one ward-level monitoring device through a channel in the first channel group so as to realize real-time monitoring on the target object.

It should be noted that, in the embodiment of the present invention, the patient recovery state parameters include three types of parameters: exercise amount-related parameters such as exercise steps, step frequency, exercise distance, calories, etc.; physiological parameters, such as blood oxygen, blood pressure, pulse rate, body temperature, electrocardiogram, respiration, etc., and related statistics and change rates of these parameters; the human body state time parameter, for example, the time parameter which is related to the movement or the sleep and is used for representing the human body state. Specific patient recovery state parameters embodiments of the invention are not limited.

It should be noted that, in the embodiment of the present invention, the ward-level monitoring devices may be divided into different areas according to different positions in advance, that is, the ward-level monitoring devices located closer to each other may be divided into one area, and the first area is only one area. Specific first region embodiments of the present invention are not limited.

It should be noted that, in the embodiment of the present invention, the monitoring system may include not only the ward-level monitoring device and the mobile monitoring apparatus belonging to the first area, but also the ward-level monitoring devices and the mobile monitoring apparatuses belonging to other areas, and the number of the areas included in the monitoring system, and the number of the ward-level monitoring devices and the mobile monitoring apparatuses belonging to each area are not limited in the embodiment of the present invention.

Specifically, the target object is a patient to be monitored, and the target object may specifically include a plurality of patients, where each ward monitoring device in the first area may be used to monitor one patient in the first area, and each ward monitoring device in the first area is correspondingly matched with one main mobile monitoring apparatus, that is, one main mobile monitoring apparatus actually obtains a patient recovery state parameter that may correspond to one patient, that is, the ward monitoring devices and the main mobile monitoring apparatuses may be in one-to-one correspondence matching.

Fig. 2 is a schematic structural diagram of a monitoring system according to an embodiment of the present invention. As shown in fig. 2, a ward-level monitoring device belonging to a first area in a monitoring system includes: the monitoring system comprises a ward-level monitoring device 1, a ward-level monitoring device 2 and a ward-level monitoring device 3, wherein the main mobile monitoring device 1 corresponds to and is matched with the ward-level monitoring device 1, the main mobile monitoring device 2 corresponds to and is matched with the ward-level monitoring device 2, the main mobile monitoring device 3 corresponds to and is matched with the ward-level monitoring device 3, and the first channel group comprises a channel f_a、f _bAnd f_cThe main mobile monitoring device 1 and the ward monitoring equipment 1 pass through a channel f_aThe communication is realized, the main mobile monitoring device 2 and the ward monitoring equipment 2 pass through a channel f_bThe communication is realized, and the main mobile monitoring device 3 and the ward monitoring equipment 3 pass through a channel f_cAnd communication is realized.

It should be noted that, in the embodiment of the present invention, different ward-level monitoring devices in at least one ward-level monitoring device belonging to the first area configure different channels in the first channel group as transmission channels, that is, as long as one ward-level monitoring device configures a certain channel in the first channel group as a transmission channel, other ward-level monitoring devices cannot configure the channel as a transmission channel.

The primary motion monitoring device may be worn anywhere on the body of the target subject, for example, in the wrist, leg, arm, chest, finger, or waist.

In an embodiment of the invention, the monitoring system further comprises at least one secondary mobile monitoring device;

the patient recovery state parameters comprise at least one first patient recovery state parameter acquired by at least one primary mobile monitoring device and at least one second patient recovery state parameter acquired by at least one secondary mobile monitoring device;

the at least one secondary mobile monitoring device wirelessly transmits the at least one second patient recovery status parameter to the at least one primary mobile monitoring device.

It should be noted that, in the embodiment of the present invention, the mobile monitoring devices in the monitoring system may be divided into two types, one is a primary mobile monitoring device and the other is a secondary mobile monitoring device, wherein for each primary mobile monitoring device, not only a first patient recovery state parameter of the patient recovery state parameters may be collected, but also a second patient recovery state parameter of the patient recovery state parameters collected by the secondary mobile monitoring device matched therewith may be collected, so as to transmit the complete patient recovery state parameter to the corresponding matched ward-level monitoring device.

It can be understood that, in the embodiment of the present invention, because the communication between the mobile monitoring devices and the ward-level monitoring devices consumes power, if each mobile monitoring device worn by the patient communicates with the ward-level monitoring device, the duration of the mobile monitoring device will be affected, and further, if each mobile monitoring device worn by the patient communicates with the ward-level monitoring device, a large amount of spectrum resources will be occupied. Therefore, in order to reduce power consumption and avoid occupying a large amount of spectrum resources, the mobile monitoring devices are divided into two types, the main mobile monitoring device collects the patient recovery state parameters, and only the main mobile monitoring device communicates with the ward-level monitoring equipment, namely the patient recovery state parameters are transmitted. In actual use, because electrocardiograms are generally the items that must be monitored, the ECG-Pod can be selected as the main mobile monitoring device. Of course, in some embodiments, all of the mobile monitoring devices worn by the patient may be used as the primary mobile monitoring device to communicate with the ward-level monitoring device separately.

It will be appreciated that in embodiments of the present invention, not only does the primary mobile monitoring device need to be worn on the patient's body, but the secondary mobile monitoring device also needs to be worn on the patient's body. Fig. 3 is a schematic view of an exemplary primary mobile monitoring device and an exemplary secondary mobile monitoring device according to an embodiment of the present invention. As shown in fig. 3, the main mobile monitoring device may be an electrocardiographic signal measuring device (hereinafter referred to as ECG-PoD) worn on the wrist, the auxiliary mobile monitoring device may be a non-invasive blood pressure measuring device (hereinafter referred to as NIBP-PoD) worn on the arm, the ECG-PoD may collect electrocardiographic signals of the patient, i.e. the first patient recovery state parameter, the NIBP-PoD may collect blood pressure data of the patient, i.e. the second patient recovery state parameter, and the NIBP-PoD transmits the blood pressure data of the patient to the ECG-PoD in a wireless transmission manner.

It should be noted that, in the embodiment of the present invention, the Wireless transmission modes of the primary mobile monitoring device and the secondary mobile monitoring device may be other transmission modes such as bluetooth transmission, Wireless-Fidelity (WI-FI) transmission, and the specific Wireless transmission mode is not limited in the embodiment of the present invention.

In an embodiment of the invention, the monitoring system further comprises: the management equipment determines a preset channel group corresponding to each region from all channels according to a preset channel allocation method, and configures different channels in the corresponding preset channel groups as transmission channels for different ward-level monitoring equipment in each region; the first channel group is a preset channel group corresponding to a first area determined by the management device from all channels.

It should be noted that, in the embodiment of the present invention, the management device may select, for each region, a group of discrete channels from all channels as a corresponding preset channel group based on the degree of mutual interference of the channels, so as to implement coexistence of limited frequency points.

It should be noted that, in the embodiment of the present invention, the management device may determine the preset channel group corresponding to each region from all channels according to a certain preset rule or some specific optimal channel algorithm, and the specific preset channel allocation method is not limited in the embodiment of the present invention.

For example, in an embodiment of the present invention, an area is a department in a hospital, and for a first department, i.e. the first area, the management device selects discrete channels from all channels to obtain a first channel group, where the first channel group includes channel f_a、f _b、f _c，……，f _nFor the second department, the management device shifts the whole channel in the first channel group by one channel at the same time to be used as a second channel group corresponding to the second department, and the second channel group comprises a channel f_a+1、f _b+1、f _c+1，……，f _n+1。

Fig. 4 is a schematic structural diagram of a monitoring system according to an embodiment of the present invention. As shown in FIG. 4, the monitoring system comprises a first area and a second area, wherein the first channel group of the first area is f_a、f _bAnd f_cThe second channel group corresponding to the second area is f_a+1、f _b+1、f _c+1. In the first area, the main mobile monitoring device 1 is correspondingly matched with the ward-level monitoring equipment 1, the main mobile monitoring device 2 is correspondingly matched with the ward-level monitoring equipment 2, the main mobile monitoring device 3 is correspondingly matched with the ward-level monitoring equipment 3, and the main mobile monitoring device 1 and the ward-level monitoring equipment 1 pass through a channel f_aThe communication is realized, the main mobile monitoring device 2 and the ward monitoring equipment 2 pass through a channel f_bThe communication is realized, and the main mobile monitoring device 3 and the ward monitoring equipment 3 pass through a channel f_cAnd communication is realized. In the second area, the main mobile monitoring device 4 is correspondingly matched with the ward-level monitoring equipment 4, and the main mobile monitoring device is used for monitoringThe device 5 is correspondingly matched with the ward-level monitoring equipment 5, the main mobile monitoring device 6 is correspondingly matched with the ward-level monitoring equipment 6, and the main mobile monitoring device 4 is correspondingly matched with the ward-level monitoring equipment 4 through a channel f_a+1The communication is realized, and the main mobile monitoring device 5 and the ward monitoring device 5 pass through a channel f_b+1The communication is realized, and the main mobile monitoring device 6 and the ward monitoring equipment 6 pass through a channel f_c+1And communication is realized.

Fig. 5 is a schematic communication diagram of a target ward monitoring device, a target mobile monitoring device and a management device according to an embodiment of the present invention, where the target ward monitoring device is any one of at least one ward monitoring device belonging to a first area, and the target mobile monitoring device is a device uniquely matched with the target ward monitoring device in at least one main mobile monitoring device, and the following detailed description of the communication among the target ward monitoring device, the target mobile monitoring device and the management device will be described based on fig. 5.

As shown in fig. 5, in an embodiment of the present invention, the at least one patient room-level monitoring device comprises a target patient room-level monitoring device; the target ward level monitoring device comprises a first wireless communication module 101, and the management device comprises a second wireless communication module 102;

the management device determines a first channel corresponding to the target ward-level monitoring device from the first channel group, and transmits first indication information corresponding to the first channel to the target ward-level monitoring device through the second wireless communication module 102;

the target ward monitoring device receives the first indication information through the first wireless communication module 101, and configures the first channel as a transmission channel according to the first indication information.

It should be noted that, in the embodiment of the present invention, there may be a plurality of ward-level monitoring devices belonging to the first area, and only one target ward-level monitoring device is included in the plurality of ward-level monitoring devices, and the specific target ward-level monitoring device is not limited in the embodiment of the present invention.

Illustratively, in an embodiment of the present invention, the first region includes: ward-level monitoring equipment 1, ward-level monitoring equipment 2, ward-level monitoring equipment 3, ward-level monitoring equipment 4 and ward-level monitoring equipment5, the first channel group determined by the management device comprises a channel f_a、f _b、f _c，f _d，f _eFive channels, the management device selecting a channel f from the first group of channels_aAs the first channel corresponding to the ward monitoring device 1, therefore, the management device transmits the first indication information to the ward monitoring device 1 through the second wireless communication module 102, and the ward monitoring device 1 receives the first indication information through the first wireless communication module 101, where the first indication information has the channel f for indicating the ward monitoring device 1_aIs configured to transmit information of the channel, so that the ward-level monitoring device 1 can transmit the channel f according to the first indication information_aConfigured as a transmission channel.

It should be noted that, in the embodiment of the present invention, the target ward monitoring device and the management device may perform wireless communication in a WI-FI manner, that is, the first wireless communication module 101 included in the target ward monitoring device and the second wireless communication module 102 included in the management device may be WI-FI modules, and the specific first wireless communication module 101 and the specific second wireless communication module 102 are not limited in the embodiment of the present invention. It should be noted that, when the plurality of communication modules mentioned in the embodiments of the present application are implemented specifically, the plurality of communication modules may be a plurality of independent modules, or may be integrated into one module to implement the functions required by the embodiments of the present application.

In an embodiment of the present invention, the at least one primary mobile monitoring device comprises a target mobile monitoring device, and the target ward-level monitoring device is correspondingly matched with the target mobile monitoring device;

the target mobile monitoring device acquires part of the parameters in the patient recovery state parameters and transmits the part of the parameters to the target ward monitoring equipment through a first channel.

It should be noted that, in the embodiment of the present invention, the target ward monitoring device and the target mobile monitoring device are correspondingly matched, and both form a pair of communication devices, and since the target mobile monitoring device is only one of the primary mobile monitoring devices, the target mobile monitoring device only obtains a part of the parameters in the patient recovery state parameters, and the part of the parameters is actually composed of the first patient recovery state parameters acquired by the target mobile monitoring device itself and the second patient recovery state parameters acquired by the secondary mobile monitoring device correspondingly matched with the target mobile monitoring device, and the part of the parameters is also the patient recovery state parameters corresponding to the patient to be monitored by the target ward monitoring device.

It can be understood that, in the embodiment of the present invention, as shown in fig. 2, the ward-level monitoring device 1 is a target ward-level monitoring device, and accordingly, the main mobile monitoring device 1 is a target mobile monitoring device, and of course, the ward-level monitoring device 2 is a target ward-level monitoring device, and accordingly, the main mobile monitoring device 2 is a target mobile monitoring device, the ward-level monitoring device 3 is a target ward-level monitoring device, and accordingly, the main mobile monitoring device 3 is a target mobile monitoring device.

It is understood that, in the embodiment of the present invention, since the target ward monitoring device is configured as the first channel in the first channel group, the target mobile monitoring apparatus correspondingly matched with the target ward monitoring device needs to transmit part of the parameters to the target ward monitoring device through the first channel.

As shown in fig. 5, in the embodiment of the present invention, the target ward monitoring device includes a first near-field communication module 201, and the target mobile monitoring apparatus includes a second near-field communication module 202;

the target ward level monitoring equipment generates a first pairing code by combining a preset serial number and the current time, and transmits the first pairing code to the target mobile monitoring device through the first near field communication module 201;

the target mobile monitoring device receives the first pairing code through the second near-field communication module 202, and pairs with the target ward monitoring device.

It is understood that in the embodiment of the present invention, the target ward monitoring device and the corresponding matched target mobile monitoring device need to be matched before communicating through the first channel.

It should be noted that, in the embodiment of the present invention, each ward-level monitoring device corresponds to a different serial number, so that the target ward-level monitoring device may generate a currently unique pairing code, that is, a first pairing code, by combining a preset serial number and current time, and transmit the generated pairing code to the target mobile monitoring apparatus through the first near-field communication module 201, and correspondingly, the target mobile monitoring apparatus receives the first pairing code through the second near-field communication module 202, and may pair with the target ward-level monitoring device according to the first pairing code, that is, pair of a pair of communication devices is achieved.

It should be noted that, in the embodiment of the present invention, the first Near Field Communication module and the second Near Field Communication module may be Near Field Communication (NFC) modules, so that when the target mobile monitoring device and the target ward monitoring device are in close proximity contact, the target ward monitoring device may send the first pairing code to the target mobile monitoring device through the first Near Field Communication module 201, and the target mobile monitoring device may receive the first pairing code through the second Near Field Communication module 202.

In an embodiment of the invention, the monitoring system further comprises a non-target mobile monitoring device;

and when the non-target mobile monitoring device acquires the second pairing code and tries to pair with the target ward-level monitoring equipment through the second pairing code, the target ward-level monitoring equipment refuses to pair with the non-target mobile monitoring device.

It is understood that, in the embodiment of the present invention, the monitoring system may include a plurality of primary mobile monitoring devices and a plurality of secondary mobile monitoring devices, and for the target mobile monitoring device, other mobile monitoring devices in the monitoring system may be regarded as non-target mobile monitoring devices, and the non-target mobile monitoring device may be paired with the target ward-level monitoring device before, or the non-target mobile monitoring device needs to be paired with other ward-level monitoring devices, at this time, the non-target mobile monitoring device may obtain the pairing code that has been paired before, or needs to be paired with other ward-level monitoring devices, and such pairing code may be regarded as a second pairing code, and the non-target mobile monitoring device may be in the vicinity of the target ward-level monitoring device, so that there is a case that the non-target mobile monitoring device attempts to access the target ward-level monitoring device through the second pairing code, at the moment, the target ward monitoring equipment can recognize that the target ward monitoring equipment is not the first pairing code, so that pairing with the non-target mobile monitoring device is refused, and interference-free communication is realized.

In the embodiment of the invention, after the target ward-level monitoring equipment is started, all channels are scanned, and whether the channels in the working state in all the current channels are the channels in the first channel group is determined;

when the channel in the working state in all the current channels is not the channel in the first channel group, the target ward level monitoring device outputs mixed prompt information for prompting;

and when the channel in the working state in all the current channels is the channel in the first channel group, the target ward-level monitoring equipment is paired with the target mobile monitoring device.

It can be understood that, in an embodiment of the present invention, in an actual application process, there may be a case where the ward-level monitoring device is mixed, for example, a target ward-level monitoring device belonging to a first area is taken by a medical care provider to be used in another area, so after the target ward-level monitoring device is powered on, the target ward-level monitoring device does not perform pairing with the target mobile monitoring device, but scans all channels, determines whether channels in a working state in all channels are channels in the first channel group, if so, indicates that the target ward-level monitoring device is currently in the first area, and therefore, may perform normal operation, and if not, indicates that the target ward-level monitoring device is currently in another area other than the first area, and therefore, needs to output mixed prompt information to prompt the medical care provider.

It should be noted that, in the embodiment of the present invention, the mixed-use prompting information is output by the target ward-level monitoring device, specifically, an alarm prompting sound may be issued, or a related text prompt is displayed on a display interface of the target ward-level monitoring device, which is not limited in the embodiment of the present invention.

As shown in fig. 5, in the embodiment of the present invention, the target ward monitoring device further includes a third wireless communication module 301, and the target mobile monitoring apparatus includes a fourth wireless communication module 302 capable of performing coupled communication with the third wireless communication module 301;

the target mobile monitoring device transmits part of the parameters to the ward-level monitoring equipment through the fourth wireless communication module 302 by a first channel;

the target ward monitoring device receives a portion of the parameters via the third wireless communication module 301 via the first channel.

It is understood that in the embodiment of the present invention, the target ward monitoring device and the target mobile monitoring device communicate with each other through the first channel, which depends on the specific third wireless communication module 301 and the specific fourth wireless communication module 302, that is, the third wireless communication module 301 and the fourth wireless communication module 302 actually transmit through the first channel.

It should be noted that, in the embodiment of the present invention, the target mobile monitoring apparatus and the target ward monitoring device perform wireless communication through the third wireless communication module 301 and the fourth wireless communication module 302 by using the first channel, which is actually a WMTS transmission mode, and the third wireless communication module 301 and the fourth wireless communication module 302 are hardware required for implementing the WMTS transmission mode.

It should be noted that, in the embodiment of the present invention, the management device may further determine a second channel corresponding to the target ward-level monitoring device from the second channel group, and transmit second indication information corresponding to the second channel to the target ward-level monitoring device through the second wireless communication module; the second channel group is a preset channel group corresponding to a second area determined by the management equipment from the partial channels;

the target ward monitoring device receives the second indication information through the first wireless communication module, stops configuring the first channel according to the second indication information, configures the second channel into a transmission channel so as to be separated from the first area, and joins the second area.

It is understood that, in the embodiment of the present invention, in order to use the ward-level monitoring devices more flexibly, the management device may also change the transmission channel configured by the ward-level monitoring devices in one area, and add it to another area for use.

It should be noted that, in the embodiment of the present invention, the target ward-level monitoring device itself is configured as a first channel in the first channel group, that is, the target ward-level monitoring device belongs to the first area, but if the target ward-level monitoring device needs to be applied to the second area, that is, the target ward-level monitoring device is used as the ward-level monitoring device in the second area, the management device may select a channel from the second channel group corresponding to the second area, that is, the second channel is configured for the target ward-level monitoring device, where the selected second channel must be a channel that is not configured for any ward-level monitoring device belonging to the second area in the second channel group.

In an embodiment of the present invention, each of the at least one ward monitoring device is configured with a preset color tag corresponding to the first area, so as to distinguish that the at least one ward monitoring device belongs to the first area.

It is understood that, in the embodiment of the present invention, each of the at least one ward-level monitoring device belonging to the first area may be configured with a preset color label, and when the preset color label is seen by the medical staff, it may be determined whether the ward-level monitoring device belongs to the first area. Of course, for each ward-level monitoring device of each zone in the monitoring system, the preset color label of the corresponding zone may be configured.

It should be noted that, in the embodiment of the present invention, the preset color label may be an indicator light color, that is, different indicator light colors may be configured for ward-level monitoring devices in different areas; alternatively, the ward monitoring device displays a color label in a certain area of the display interface. The specific preset color label is not limited in the embodiments of the present invention.

In an embodiment of the present invention, each ward monitoring device of the at least one ward monitoring device is configured with preset area identification information corresponding to the first area, so as to distinguish that the at least one ward monitoring device belongs to the first area.

It can be understood that, in the embodiment of the present invention, each ward-level monitoring device of the at least one ward-level monitoring device belonging to the first area may use the preset area identification information corresponding to the first area, and when the medical staff sees the preset area identification information of the ward-level monitoring device, it may determine whether the ward-level monitoring device belongs to the first area. Of course, for the ward-level monitoring device in each area of the monitoring system, the preset area id of the corresponding area may be configured.

Illustratively, in an embodiment of the present invention, the monitoring system comprises: the monitoring system comprises a first area, a second area, a third area, … … and an Nth area, wherein ward-level monitoring devices in the first area are all configured with preset area identification IDs 1 of the first area, ward-level monitoring devices in the second area are all configured with preset area identification IDs 2 of the second area, ward-level monitoring devices in the third area are all configured with preset area identification IDs 3 and … … of the third area, and ward-level monitoring devices in the Nth area are all configured with preset area identification IDs IDN of the Nth area.

An embodiment of the present invention provides a monitoring system, including: at least one ward-level monitoring device belonging to the first area, wherein the at least one ward-level monitoring device configures channels in a first channel group corresponding to the first area as transmission channels; and the at least one main mobile monitoring device is correspondingly matched with the at least one ward-level monitoring device, and transmits the acquired patient recovery state parameters corresponding to the target object to the at least one ward-level monitoring device through a channel in the first channel group so as to realize real-time monitoring on the target object. That is to say, in the monitoring system provided in the embodiment of the present invention, the channels in the corresponding channel group are configured as the transmission channels for the ward-level monitoring devices included in each region, so that mutual interference between the ward-level monitoring devices and the corresponding mobile monitoring devices during data transmission is reduced, and thus, the performance of data transmission is improved.

Another embodiment of the present invention provides a monitoring method, which is applied to at least one ward-level monitoring device belonging to a first area. Fig. 6 is a flowchart illustrating a monitoring method according to an embodiment of the present invention. As shown in fig. 6, the method mainly comprises the following steps:

s601, receiving patient recovery state parameters corresponding to a target object acquired by at least one main mobile monitoring device through a channel in a first channel group corresponding to a first area; wherein, at least one ward-level monitoring device is correspondingly matched with at least one main mobile monitoring device.

In an embodiment of the present invention, at least one ward-level monitoring device belonging to the first zone configures a channel of the first channel group to communicate with at least one primary mobile monitoring device.

It should be noted that, in the embodiment of the present invention, the patient recovery state parameters are the same as the patient recovery state parameters defined in the above embodiment, and are not described herein again.

Specifically, the at least one mobile monitoring device may be matched with the at least one ward-level monitoring device in a one-to-one correspondence manner, for example, the first region specifically includes a ward-level monitoring device 1, a ward-level monitoring device 2, and a ward-level monitoring device 3, and the first region specifically includes a main mobile monitoring device 1, a main mobile monitoring device 2, and a main mobile monitoring device 3, where the ward-level monitoring device 1 is matched with the main mobile monitoring device 1 in a corresponding manner, the ward-level monitoring device 2 is matched with the main mobile monitoring device 2 in a corresponding manner, and the ward-level monitoring device 3 is matched with the mobile monitoring device 3 in a corresponding manner.

It should be noted that, in the embodiment of the present invention, before the at least one ward-level monitoring device receives the patient recovery state parameter corresponding to the target object, which is acquired by the at least one main mobile monitoring apparatus, through the channel in the first channel group corresponding to the first area, each ward-level monitoring device in the at least one ward-level monitoring device needs to configure the channel in the first channel group as a transmission channel.

Specifically, in the embodiment of the present invention, the first channel group is determined from all channels by the management device, and at least one ward monitoring device includes a target ward monitoring device, the target ward monitoring device includes the first wireless communication module 101, and the management device includes the second wireless communication module 102. The target ward monitoring device receives first indication information transmitted by the management device through the first wireless communication module 101, and then configures a first channel as a transmission channel of the target ward monitoring device according to the first indication information, wherein the first channel is a transmission channel corresponding to the target ward monitoring device determined by the management device from the first channel group, and the management device is configured to transmit the first indication information corresponding to the first channel to the target ward monitoring device through the second wireless communication module 102.

It should be noted that, in the embodiment of the present invention, the target ward-level monitoring device is any one of at least one ward-level monitoring device belonging to the first area, and the specific target ward-level monitoring device is not limited in the embodiment of the present invention.

Specifically, in the embodiment of the present invention, the receiving, by at least one mobile monitoring device, the patient recovery state parameter corresponding to the target object, acquired by at least one main mobile monitoring device, through a channel in a first preset channel group corresponding to the first area by the at least one mobile monitoring device includes: receiving partial parameters in patient recovery state parameters acquired by a target mobile monitoring device in at least one main mobile monitoring device through a first channel configured by target ward monitoring equipment; the target mobile monitoring device is correspondingly matched with the target ward monitoring equipment.

Illustratively, in embodiments of the present invention, the first channel group includes channel f_a、f _b、f _cTarget ward level monitoring device configuration channel f_aAs a transmission channel, therefore, the target mobile monitoring device corresponding to the target ward monitoring device in at least one main mobile monitoring device is actually passed through the channel f_aTransmitting part of the parameters of the patient recovery status parameters acquired by itself, correspondingly, at least one ward-level monitoring device, through the target ward-level monitoring device via the channel f_aReceiving part of patient recovery state parameterAnd (4) parameters.

And S602, monitoring the target object in real time according to the patient recovery state parameters.

In an embodiment of the present invention, after receiving the patient recovery status parameter, the at least one ward monitoring device may monitor the target object in real time according to the patient recovery status parameter.

It should be noted that, in the embodiment of the present invention, each of the at least one primary mobile monitoring device transmits a part of the patient recovery status parameters, and the part of the patient recovery status parameters may actually be different relevant parameters for different patients, so as to form all patient recovery status parameters, that is, the at least one ward monitoring device receives different part of the patient recovery status parameters through each ward monitoring device, so as to actually monitor different patients.

It should be noted that, in the embodiment of the present invention, before the at least one ward monitoring device receives part of the patient recovery state parameters through the target ward monitoring device, the target ward monitoring device needs to be paired with the target mobile monitoring apparatus.

Specifically, in the embodiment of the present invention, the target ward monitoring device includes a first near field communication module 201, and at least one ward monitoring device receives at least one main mobile monitoring apparatus through the target ward monitoring device, and before part of the patient recovery state parameters acquired by the target mobile monitoring apparatus, the method further includes the following steps: generating a first pairing code by combining a preset serial number and the current time through target ward-level monitoring equipment; the first pairing code is transmitted to the target mobile monitoring device through the first near field communication module 201, so that pairing with the target mobile monitoring device is achieved.

It should be noted that, in the embodiment of the present invention, after the target ward monitoring device of the at least one ward monitoring device transmits the first pairing code to the target mobile monitoring device through the first near-field communication module 201 to pair with the target mobile monitoring device, the method further includes the following steps: and when the non-target mobile monitoring device acquires the second pairing code and tries to pair with the target ward-level monitoring equipment through the second pairing code, the target ward-level monitoring equipment refuses to pair with the non-target mobile monitoring device.

It can be understood that, in the embodiment of the present invention, each ward-level monitoring device corresponds to a different serial number, that is, a unique identity, so that at least one ward-level monitoring device can generate a first pairing code by combining a preset serial number and a current time through a target ward-level monitoring device, where the preset serial number is a preset serial number of the target ward-level monitoring device itself, and a target mobile monitoring device can establish pairing with the target ward-level monitoring device upon receiving the first pairing code, and certainly, for other mobile monitoring devices that cannot know the first pairing code, cannot pair with the target ward-level monitoring device.

It should be noted that, in the embodiment of the present invention, before the at least one ward-level monitoring device receives, through the target ward-level monitoring device, a part of the patient recovery state parameters acquired by the target mobile monitoring device in the at least one main mobile monitoring device, the following steps may be further included: after the target ward-level monitoring device is started, scanning all channels through the target ward-level monitoring device, and determining whether channels in a working state in all current channels are channels in a first channel group; when the channel in the working state in all the current channels is not the channel in the first channel group, outputting mixed use prompt information for prompting through target ward level monitoring equipment; and when the channel in the working state in all the current channels is the channel in the first channel group, pairing the target mobile monitoring device with the target ward-level monitoring device.

It can be understood that, in an embodiment of the present invention, in an actual application process, there may be a case where the ward-level monitoring device is mixed, for example, a target ward-level monitoring device belonging to a first area is taken by a medical care provider to be used in another area, so after the target ward-level monitoring device is powered on, the target ward-level monitoring device does not perform pairing with the target mobile monitoring device, but scans all channels, determines whether channels in a working state in all channels are channels in the first channel group, if so, indicates that the target ward-level monitoring device is currently in the first area, and therefore, may perform normal operation, and if not, indicates that the target ward-level monitoring device is currently in another area other than the first area, and therefore, needs to output mixed prompt information to prompt the medical care provider.

It should be noted that, in the embodiment of the present invention, the mixed-use prompting information is output by the target ward-level monitoring device, specifically, an alarm prompting sound may be issued, or a related text prompt is displayed on a display interface of the target ward-level monitoring device, which is not limited in the embodiment of the present invention.

It should be noted that, in the embodiment of the present invention, the target ward monitoring device includes a third wireless communication module 301, and the at least one ward monitoring device receives a part of the patient recovery state parameters acquired by the target mobile monitoring device in the at least one main mobile monitoring device through a first channel configured by the target ward monitoring device, specifically, receives the part of the patient recovery state parameters through the third wireless communication module and the first channel.

It should be noted that, in the embodiment of the present invention, after the at least one ward-level monitoring device configures the first channel as the transmission channel of the target ward-level monitoring device according to the first indication information, the method may further include the following steps: receiving second indication information transmitted by the management equipment through the first wireless communication module; stopping configuring the first channel according to the second indication information through the target ward level monitoring device, and configuring the second channel as a transmission channel of the target ward level monitoring device to realize that the target ward level monitoring device is separated from the first area and is added into the second area; the management device is configured to determine a second channel group corresponding to the second area from all channels, determine a second channel corresponding to the target ward monitoring device from the second channel group, and transmit second indication information corresponding to the second channel to the target ward monitoring device through the second wireless communication module.

It is appreciated that in embodiments of the present invention, more ward monitoring devices are needed for more flexible use of the ward monitoring devices, for example, more patients in the second area of the monitoring system need to be monitored, and the ward monitoring devices in the first area can be called to the first area, and the ward monitoring devices in the second area are configured with channels in the second channel group, so that the channels in the first channel group configured with the ward monitoring devices in the first area need to be changed to channels in the second channel group.

Yet another embodiment of the present invention provides a monitoring method, which is applied to at least one main mobile monitoring device, wherein the at least one main mobile monitoring device is correspondingly matched with at least one ward-level monitoring device belonging to a first area. Fig. 7 is a flowchart illustrating a monitoring method according to an embodiment of the present invention. As shown in fig. 7, the method mainly comprises the following steps:

s701, acquiring patient recovery state parameters corresponding to the target object.

In an embodiment of the present invention, at least one master mobile monitoring device may obtain patient recovery status parameters corresponding to a target object.

It should be noted that, in the embodiment of the present invention, the target object may be a plurality of patients, where one patient corresponds to one main mobile monitoring device, that is, one patient wears one main mobile monitoring device, each main mobile monitoring device may obtain relevant parameters of the corresponding patient, and the relevant parameters of each patient are partial parameters of the patient recovery state parameters.

It should be noted that, in the embodiment of the present invention, each of the at least one primary mobile monitoring device may further have a corresponding matched secondary mobile monitoring device, and the primary mobile monitoring device may collect some parameters of the recovery state parameters of the patient, for example, the electrocardiographic signals, and may also collect some parameters collected by the secondary mobile monitoring device, for example, the blood pressure data.

S702, transmitting the patient recovery state parameters to at least one ward monitoring device through a channel in the first channel group, so as to realize real-time monitoring on the target object through the at least one ward monitoring device; wherein, at least one ward monitoring device configures the channel in the first channel group corresponding to the first area as the transmission channel.

In an embodiment of the present invention, the at least one main mobile monitoring device includes a target mobile monitoring device, the at least one ward monitoring device includes a target ward monitoring device, the target ward monitoring device is correspondingly matched with the target mobile monitoring device, and the at least one main mobile monitoring device transmits the patient recovery state parameter to the at least one ward monitoring device through a channel in the first channel group, including: acquiring partial parameters in the patient recovery state parameters through the target mobile monitoring device; transmitting part of the parameters to the target ward monitoring equipment through the target mobile monitoring device by a first channel; the first channel is a channel in a first channel group configured by the target ward-level monitoring device.

It should be noted that, in the embodiment of the present invention, the target mobile monitoring apparatus includes a fourth wireless communication module 302, and specifically, a part of the parameters is transmitted to the target ward monitoring device through the fourth wireless communication module 302 by using the first channel.

It should be noted that, in the embodiment of the present invention, before the target mobile monitoring apparatus includes the second near-field communication module 202, and the at least one master mobile monitoring apparatus transmits the partial parameters to the target ward monitoring device through the target mobile monitoring apparatus via the first channel, the method further includes: receiving a first pairing code transmitted by target ward-level monitoring equipment through a second near-field communication module; and pairing the target ward-level monitoring equipment according to the first pairing code.

It should be noted that, in the embodiment of the present invention, the second near field communication module 202 may actually be an NFC module, and accordingly, the target ward monitoring device correspondingly matched with the target mobile monitoring device includes the first near field communication module 201, and when the target ward monitoring device is in close contact with the target mobile monitoring device, the first near field communication module 201 and the second near field communication module 202 may implement the first pairing code transmission to implement the pairing.

Fig. 8 is a schematic structural diagram of a ward monitoring device according to another embodiment of the present invention. As shown in fig. 8, the ward-level monitoring device includes: a first processor 801, a first memory 802, a first communication bus 803 and a first communication accessory 804;

a first communication bus 803, which is used for realizing communication connection among the first processor 801, the first memory 802 and the first communication accessory 804;

the first processor 801 and the first communication accessory 804 are configured to execute the first monitoring program stored in the first memory 802 to implement the monitoring method applied to at least one patient room level monitoring device.

Fig. 9 is a schematic structural diagram of a mobile monitoring device according to another embodiment of the present invention. As shown in fig. 9, the master mobile monitoring apparatus includes: a second processor 901, a second memory 902, a second communication bus 903, and a second communication accessory 904;

a second communication bus 903 for implementing communication connection among the second processor 901, the second memory 902 and the second communication accessory 904;

a second processor 901 and a second communication accessory 904 for executing a second monitoring program stored in the second memory 902 to implement the monitoring method applied to the primary mobile monitoring device.

The embodiment of the invention also provides a computer readable storage medium, which stores a monitoring program, and the monitoring program can be executed by a processor to realize the monitoring method.

Note that the computer-readable storage medium may be a volatile Memory (volatile Memory), such as a Random-Access Memory (RAM); or a non-volatile Memory (non-volatile Memory), such as a Read-Only Memory (ROM), a flash Memory (flash Memory), a Hard Disk (Hard Disk Drive, HDD) or a Solid-State Drive (SSD); or may be a respective device, such as a mobile phone, computer, tablet device, personal digital assistant, etc., that includes one or any combination of the above-mentioned memories.

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 signal processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable signal 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 signal 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 signal 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.

Industrial applicability

In the technical solution of the embodiment of the present invention, a monitoring system includes: at least one ward-level monitoring device belonging to the first area, wherein the at least one ward-level monitoring device configures channels in a first channel group corresponding to the first area as transmission channels; and the at least one main mobile monitoring device is correspondingly matched with the at least one ward-level monitoring device, and transmits the acquired patient recovery state parameters corresponding to the target object to the at least one ward-level monitoring device through a channel in the first channel group so as to realize real-time monitoring on the target object. That is, the channels in the corresponding channel group are configured as transmission channels for the ward monitoring devices included in each region, so that pairing interference between the ward monitoring devices and the corresponding main mobile monitoring devices during data transmission is reduced, and the performance of data transmission is improved.

Claims (26)

1. A monitoring system, the system comprising:

   at least one ward-level monitoring device belonging to a first area, wherein the at least one ward-level monitoring device configures channels in a first channel group corresponding to the first area as transmission channels;

   and the at least one main mobile monitoring device is correspondingly matched with the at least one ward-level monitoring device, and transmits the acquired patient recovery state parameters corresponding to the target object to the at least one ward-level monitoring device through a channel in the first channel group so as to realize real-time monitoring on the target object.
2. The system of claim 1, further comprising: a management device;

   the management equipment determines a preset channel group corresponding to each region from all channels according to a preset channel allocation method, and configures different channels in the corresponding preset channel groups as transmission channels for different ward-level monitoring equipment in each region;

   the first channel group is a preset channel group corresponding to the first region determined by the management device from all the channels.
3. The system of claim 1, further comprising at least one secondary mobile monitoring device;

   the patient recovery state parameters comprise at least one first patient recovery state parameter acquired by the at least one primary mobile monitoring device and at least one second patient recovery state parameter acquired by the at least one secondary mobile monitoring device;

   the at least one secondary mobile monitoring device wirelessly transmits the at least one second patient recovery status parameter to the at least one primary mobile monitoring device.
4. The system of claim 2, wherein the at least one ward-level monitoring device comprises a target ward-level monitoring device; the target ward level monitoring device comprises a first wireless communication module, and the management device comprises a second wireless communication module;

   the management device determines a first channel corresponding to the target ward-level monitoring device from the first channel group, and transmits first indication information corresponding to the first channel to the target ward-level monitoring device through the second wireless communication module;

   and the target ward monitoring equipment receives the first indication information through the first wireless communication module, and configures the first channel into a transmission channel according to the first indication information.
5. The system of claim 4, wherein the at least one primary mobile monitoring device comprises a target mobile monitoring device, the target ward monitoring device being correspondingly matched to the target mobile monitoring device;

   the target mobile monitoring device acquires part of the parameters in the patient recovery state parameters and transmits the part of the parameters to the target ward monitoring equipment through the first channel.
6. The system of claim 5, the target ward level monitoring device comprising a first near field communication module, the target movement monitoring device comprising a second near field communication module;

   the target ward level monitoring equipment generates a first pairing code by combining a preset serial number and the current time, and transmits the first pairing code to the target mobile monitoring device through the first near field communication module;

   and the target mobile monitoring device receives the first pairing code through the second near-field communication module and is paired with the target ward-level monitoring equipment.
7. The method of claim 6, wherein the system further comprises a non-target mobile monitoring device;

   and when the non-target mobile monitoring device acquires a second pairing code and tries to pair with the target ward-level monitoring equipment through the second pairing code, the target ward-level monitoring equipment refuses to pair with the non-target mobile monitoring device.
8. The system of claim 5,

   after the target ward-level monitoring equipment is started, scanning all the channels, and determining whether the channels in the working state in all the channels are channels in the first channel group or not;

   when the channel in the working state in all the current channels is not the channel in the first channel group, the target ward level monitoring device outputs mixed prompt information for prompting;

   and when the channel in the working state in all the current channels is the channel in the first channel group, the target ward monitoring equipment is paired with the target mobile monitoring device.
9. The system of claim 5, wherein the target ward monitoring device comprises a third wireless communication module, and the target mobile monitoring device comprises a fourth wireless communication module that is in coupled communication with the third wireless communication module;

   the target mobile monitoring device transmits the partial parameters to the ward-level monitoring equipment through the fourth wireless communication module by the first channel;

   and the target ward-level monitoring equipment receives the partial parameters through the third wireless communication module by using the first channel.
10. The system of claim 4,

    the management device determines a second channel corresponding to the target ward-level monitoring device from a second channel group, and transmits second indication information corresponding to the second channel to the target ward-level monitoring device through the second wireless communication module; the second channel group is a preset channel group corresponding to a second area determined by the management device from all the channels;

    and the target ward-level monitoring equipment receives the second indication information through the first wireless communication module, stops configuring the first channel according to the second indication information, and configures the second channel into a transmission channel so as to be separated from the first area and join the second area.
11. The system of claim 1,

    each ward-level monitoring device of the at least one ward-level monitoring device is respectively configured with a preset color label corresponding to the first area so as to distinguish that the at least one ward-level monitoring device belongs to the first area.
12. The system of claim 1,

    each ward-level monitoring device of the at least one ward-level monitoring device is respectively configured with preset area identification information corresponding to the first area so as to distinguish that the at least one ward-level monitoring device belongs to the first area.
13. A monitoring method applied to at least one ward-level monitoring device belonging to a first area, the method comprising:

    receiving patient recovery state parameters corresponding to a target object acquired by at least one main mobile monitoring device through a channel in a first channel group corresponding to the first area; wherein the at least one ward-level monitoring device is correspondingly matched with the at least one main mobile monitoring device;

    and monitoring the target object in real time according to the patient recovery state parameters.
14. The method of claim 13, wherein the first channel group is determined from all channels by a management device, wherein the at least one ward monitoring device comprises a target ward monitoring device, wherein the target ward monitoring device comprises a first wireless communication module, and wherein the management device comprises a second wireless communication module; before the receiving, through the channel in the first channel group corresponding to the first region, the patient recovery state parameter corresponding to the target object acquired by the at least one main mobile monitoring device, the method further includes:

    receiving first indication information transmitted by the management equipment through the first wireless communication module;

    configuring, by the target ward-level monitoring device, a first channel as a transmission channel of the target ward-level monitoring device according to the first indication information;

    the management device is configured to transmit first indication information corresponding to the first channel to the target ward monitoring device through the second wireless communication module.
15. The method according to claim 14, wherein the receiving, through a channel in a first preset channel group corresponding to the first region, the patient recovery state parameter corresponding to the target object acquired by at least one primary mobile monitoring device includes:

    receiving a part of the patient recovery state parameters acquired by a target mobile monitoring device in the at least one main mobile monitoring device through the first channel configured by the target ward-level monitoring device;

    and the target mobile monitoring device is correspondingly matched with the target ward-level monitoring equipment.
16. The method of claim 15, wherein the target ward monitoring device comprises a first near field communication module, and wherein before receiving the portion of the patient recovery status parameters acquired by the target mobile monitoring device of the at least one primary mobile monitoring device, the method further comprises:

    generating a first pairing code by combining the preset serial number and the current time through the target ward level monitoring equipment;

    and transmitting the first pairing code to the target mobile monitoring device through the first near field communication module so as to realize pairing with the target mobile monitoring device.
17. The method of claim 16, wherein after transmitting the first pairing code to the target mobile monitoring device via the first near field communication module to achieve pairing with the target mobile monitoring device, the method further comprises:

    and when the non-target mobile monitoring device acquires a second pairing code and tries to pair with the target ward-level monitoring equipment through the second pairing code, the target ward-level monitoring equipment refuses to pair with the non-target mobile monitoring device.
18. The method of claim 15, wherein prior to receiving the portion of the patient recovery status parameters acquired by the target mobile monitoring device of the at least one primary mobile monitoring device, the method further comprises:

    after the target ward-level monitoring device is started, scanning all channels through the target ward-level monitoring device, and determining whether channels in a working state in all the channels are channels in the first channel group or not;

    when the channel in the working state in all the current channels is not the channel in the first channel group, outputting mixed use prompt information for prompting through the target ward level monitoring equipment;

    and when the current channel in the working state in all the channels is the channel in the first channel group, pairing the target mobile monitoring device with the target ward-level monitoring device.
19. The method according to claim 15, wherein the target ward monitoring device comprises a third wireless communication module, and the receiving of the partial patient recovery status parameters acquired by the target mobile monitoring device of the at least one primary mobile monitoring device via the first channel configured by the target ward monitoring device comprises:

    receiving, by the third wireless communication module, the partial parameter in the first channel.
20. The method of claim 14, wherein after the configuring the first channel as the transmission channel of the target patient room level monitoring device according to the first indication information, the method further comprises:

    receiving second indication information transmitted by the management equipment through the first wireless communication module; stopping configuring the first channel according to the second indication information through the target ward-level monitoring device, and configuring the second channel as a transmission channel of the target ward-level monitoring device, so that the target ward-level monitoring device is separated from the first area and is added into the second area;

    the management device is configured to determine a second channel group corresponding to the second area from all the channels, determine a second channel corresponding to the target ward monitoring device from the second channel group, and transmit the second indication information corresponding to the second channel to the target ward monitoring device through the second wireless communication module.
21. A monitoring method is applied to at least one main mobile monitoring device, and is characterized in that the at least one main mobile monitoring device is correspondingly matched with at least one ward-level monitoring device belonging to a first area, and the method comprises the following steps:

    acquiring patient recovery state parameters corresponding to a target object;

    transmitting the patient recovery state parameters to the at least one ward monitoring device through a channel in a first channel group to enable real-time monitoring of the target subject through the at least one ward monitoring device;

    wherein the at least one ward-level monitoring device configures a channel in a first channel group corresponding to the first area as a transmission channel.
22. The method of claim 21, wherein the at least one primary mobile monitoring device comprises a target mobile monitoring device, the at least one unit-level monitoring device comprises a target unit-level monitoring device, the target unit-level monitoring device is correspondingly matched with the target mobile monitoring device, and the transmitting the patient recovery state parameters to the at least one unit-level monitoring device through channels in a first channel group comprises:

    acquiring partial parameters in the patient recovery state parameters through the target mobile monitoring device;

    transmitting, by the target mobile monitoring device, the portion of the parameters to the target ward-level monitoring device on the first channel;

    wherein the first channel is a channel in the first channel group configured by the target ward-level monitoring device.
23. The method of claim 22, wherein the target mobile monitoring device comprises a second near field communication module, and wherein before the transmitting the portion of the parameters to the target patient room-level monitoring device via the target mobile monitoring device on the first channel, the method further comprises:

    receiving a first pairing code transmitted by the target ward-level monitoring equipment through the second near-field communication module;

    and pairing the target ward-level monitoring equipment according to the first pairing code.
24. A ward-level monitoring device, comprising: a first processor, a first memory, a first communication bus, and a first communication accessory;

    the first communication bus is used for realizing communication connection among the first processor, the first memory and the first communication accessory;

    the first processor and the first communications accessory are configured to execute a first monitoring program stored in the first memory to implement the method of any of claims 13-20.
25. A primary motion monitoring device, the primary motion monitoring device comprising: a second processor, a second memory, a second communication bus, and a second communication accessory;

    the second communication bus is used for realizing communication connection among the second processor, the second memory and the second communication accessory;

    the second processor and the second communication accessory for executing a second monitoring program stored in the second memory to implement the method of any of claims 21-23.
26. A computer readable storage medium having stored thereon a monitoring program executable by a processor to perform the method of any one of claims 13-23.

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