WO2017015870A1

WO2017015870A1 - Visual positioning management system for medical worker and management method thereof

Info

Publication number: WO2017015870A1
Application number: PCT/CN2015/085331
Authority: WO
Inventors: 钟裕山
Original assignee: 深圳市润安科技发展有限公司
Priority date: 2015-07-28
Filing date: 2015-07-28
Publication date: 2017-02-02

Abstract

A visual positioning management system for a medical worker and a management method thereof, which relate to the technical field of wireless positioning. The system comprises a positioning subsystem (1) and a background monitoring subsystem (2). The background monitoring subsystem (2) comprises a database (21) and a visual management module (22). An electronic map of a monitored hospital is pre-stored in the database (21). The positioning subsystem (1) is used for positioning a medical worker and sending the positioning information to the database (21). The database (21) is used for receiving and storing the positioning information. The visual management module (22) is used for acquiring, according to a received instruction for querying a motion trail of the medical worker, positioning information related the to-be-queried medical worker in a corresponding time period and the electronic map from the database. The motion trail of the to-be-queried medical worker is generated on the electronic map, and the motion trail of the to-be-queried medical worker on the electronic map is output and displayed. The system can supervise on-duty condition of a medical worker and can prevent the medical worker from being absent without leave during the working time, thereby reducing costs of a hospital management system.

Description

Medical personnel visual positioning management system and management method thereof

[0001] The present invention belongs to the field of wireless location monitoring technologies, and in particular, to a medical personnel visual positioning management system and a management method thereof.

Background technique

[0002] The usual medical accidents are caused by dereliction of duty by medical personnel for violating the medical management system and not performing their statutory duties. For example: Some medical staff go to work, leave the crisis, seriously ill patients, do private work, sleep, watch TV; some medical staff leave their duties in surgical anesthesia and other important technical operations, let go of people who are not qualified for technology Separate operation; some pharmacies, inspections, blood banks and other personnel on duty are not available, resulting in the inability to obtain urgently needed test results for drugs, blood, and preparations. These medical staff may cause medical accidents due to dereliction of duty. Therefore, in order to improve the alertness of medical staff and reduce the occurrence of medical malpractice, it is necessary for the hospital to grasp the status of medical staff and to monitor whether the hospital staff is on duty.

[0003] At present, hospitals generally use attendance machines to record the medical staff's up and down time, to urge medical staff and pick up posts, but the supervision of medical staff can not be supervised, in order to supervise the on-duty situation of duty personnel, It is equipped with a video camera for supervision, but it costs a lot.

technical problem

[0004] The object of the present invention is to provide a medical personnel visual positioning management system and a management method thereof, aiming at solving the problem of using the camera to supervise the on-the-job situation of medical personnel in the prior art, and the problem is high.

Problem solution

Technical solution

[0005] The present invention is implemented in this way, a medical personnel visual positioning management system, including a positioning subsystem and a background monitoring subsystem, the background monitoring subsystem includes a database and a visual management module, and the database is pre-stored Monitor the hospital's electronic map;

[0006] the positioning subsystem is configured to locate a medical staff of the hospital, and send the positioning information to In the database, the location information includes a job number, a location location, and a location point of the medical staff;

[0007] the database is configured to receive and store the positioning information;

[0008] the visual management module is configured to receive a query instruction of the medical personnel movement trajectory, where the query instruction includes a job number of the medical staff to be searched, and according to the query instruction Obtaining, in the database, location information related to the medical personnel to be searched in the inter-segment and the electronic map; and acquiring, according to the obtained positioning information related to the medical personnel to be searched, the electronic map Generating a movement trajectory of the medical staff to be searched in the inter-segment; and outputting and displaying a movement trajectory of the person to be searched in the inter-segment on the electronic map to assist the hospital administrator to determine the to-be-checked Find people on duty in accordance with hospital regulations.

[0009] In the visual personnel positioning management system of the medical staff of the present invention, the method further includes:

[0010] The smart terminal is configured to be used by the hospital administrator to remotely access the visual management module in the background monitoring subsystem, and obtain the movement track of each medical staff from the visual management module.

[0011] In the medical personnel visual positioning management system of the present invention, the positioning subsystem includes an electronic device worn on a medical staff, at least three interconnected and synchronized base stations, and a positioning server;

[0012] the electronic device is configured to send, to the at least three base stations, an ultra-wideband pulse signal carrying a medical personnel number, and each electronic device corresponds to a work number bound to a medical staff;

[0013] the base station is configured to receive an ultra-wideband pulse signal sent by the electronic device, and send the engraving of receiving the ultra-wideband pulse signal to the positioning server;

[0014] the positioning server is configured to locate a medical staff wearing the electronic device according to a positioning algorithm and a moment that the at least three base stations respectively receive the ultra-wideband pulse signal, and send the positioning information to the location Database.

[0015] In the medical personnel visual positioning management system of the present invention, the at least three base stations are connected by a wired network or a wireless network, and the base station and the positioning server are connected by a wired network or wirelessly. The network interconnection, the positioning server and the background monitoring subsystem are interconnected by a wired network or a wireless network, and the wired network comprises one of an Ethernet network composed of a fiber network, a twisted pair cable, and a coaxial cable. The wireless network includes one of a WiFi network, a 3G network, a 4G network, and a 5G network; the positioning algorithm includes an inter-turn TOA algorithm and an arrival inter-turn TD One of the OA algorithms.

[0016] In the medical personnel visual positioning management system of the present invention, the positioning server is directly connected to one of the at least three base stations or a plurality of base stations, or the positioning server is connected through a data exchange device. One of the at least three base stations or a plurality of base stations.

[0017] Another object of the present invention is to provide a management method for a medical personnel visual positioning management system, which includes:

[0018] The positioning subsystem locates the medical staff of the monitored hospital, and sends the positioning information to a database of the background monitoring subsystem, where the electronic map of the hospital is pre-stored, and the positioning information includes the The number of the medical staff, the location of the location, and the location of the location;

[0019] the database of the background monitoring subsystem receives and stores the positioning information;

[0020] the visual management module of the background monitoring subsystem receives the query instruction of the medical personnel movement track, and the query instruction includes a job number of the medical staff to be searched, and according to the query Obtaining, from the database, positioning information related to the medical personnel to be searched in the inter-segment and the electronic map; and acquiring, according to the obtained positioning information related to the medical personnel to be searched Generating a movement trajectory of the medical personnel to be searched in the inter-segment segment on the map; outputting and displaying a movement trajectory of the person to be searched in the inter-segment on the electronic map, to assist the hospital administrator to determine the waiting Search for personnel on duty in accordance with hospital regulations.

[0021] In the management method of the present invention, the method further includes:

[0022] The hospital administrator remotely accesses the visual management module in the background monitoring subsystem through the smart terminal

Obtaining a movement trajectory of each medical staff from the visualization management module.

[0023] In the management method of the present invention, the positioning subsystem locates the medical staff of the monitored hospital, and sends the positioning information to the database of the background monitoring subsystem, which specifically includes:

[0024] The ultra-wideband pulse signal carrying the ID number of the medical staff is transmitted to at least three base stations disposed around the hospital by using electronic devices worn on the medical personnel, and each electronic device is corresponding to a medical staff bound to the medical personnel. number;

[0025] the base station receives the ultra-wideband pulse signal sent by the electronic device, and sends the engraving of receiving the ultra-wideband pulse signal to the positioning server;

[0026] the positioning server respectively receives the ultra-wideband pulse signal according to a positioning algorithm and the at least three base stations The engraving of the number positions the medical staff wearing the electronic device and transmits the positioning information to the database.

[0027] In the management method of the present invention, the at least three base stations are connected by a wired network or a wireless network, and the base station and the positioning server are connected by a wired network or a wireless network. Between the positioning server and the background monitoring subsystem, a wired network or a wireless network is interconnected, and the wired network includes one of an Ethernet network composed of a fiber network, a twisted pair cable, and a coaxial cable. The wireless network includes one of a WiFi network, a 3G network, a 4G network, and a 5G network; the positioning algorithm includes one of an inter-turn TOA algorithm and an inter-turn difference TDOA algorithm.

[0028] In the management method of the present invention, the positioning server directly connects one of the at least three base stations or a plurality of base stations, or the positioning server connects the at least three by using a data switching device. One base station or multiple base stations in a base station.

Advantageous effects of the invention

Beneficial effect

[0029] The medical personnel visual positioning management system and the management method thereof provided by the invention have the following beneficial effects:

[0030] In one aspect, since the positioning system is first used to locate the medical staff of the hospital, and the positioning information is sent to the database, the positioning information includes the work number, the positioning position, and the positioning point of the medical staff. The database receives and stores the positioning information; the visualization management module receives a query instruction of the medical personnel movement track, and the query instruction includes a job number of the medical staff to be searched, and according to The query instruction acquires, from the database, location information and an electronic map related to the medical personnel to be searched in the inter-segment, and obtains, according to the obtained positioning information related to the medical personnel to be searched, Generating a movement trajectory of the medical personnel to be searched in the inter-segment segment on the electronic map; outputting and displaying a movement trajectory of the person to be searched in the inter-segment on the electronic map to assist the hospital administrator in determining the location Whether the search personnel are on duty in accordance with the hospital regulations, so that the medical staff can be on duty without installing a camera. Supervise and prevent medical staff from leaving their jobs at work, reducing the cost of the hospital management system.

[0031] On the other hand, since the signal between the base station and the electronic device, between the base station and the base station, and between the base station and the positioning server in the positioning subsystem adopts ultra-wideband wireless communication technology, and ultra-wideband wireless communication technology, Due to the nanosecond non-sinusoidal narrow pulse transmission data, it has the characteristics of frequency bandwidth, multi-channel, low power consumption, low interference, high safety factor and coexistence with existing spectrum, so it can be used for medical equipment wearing electronic equipment. The personnel can carry out high-precision positioning, and the same can also enhance the stability of the positioning, avoid the situation of mis-reporting of the positioning position, and can well assist the hospital management personnel to manage the on-the-job situation of the medical staff.

Brief description of the drawing

DRAWINGS

1 is a schematic structural diagram of a medical personnel visual positioning management system according to an embodiment of the present invention;

2 is a schematic structural diagram of a positioning subsystem in a medical personnel visual positioning management system according to an embodiment of the present invention;

3 is a specific implementation flowchart of a management method for a medical personnel visual positioning management system according to an embodiment of the present invention;

4 is a specific implementation flowchart of S301 in the embodiment shown in FIG. 3.

Embodiments of the invention

The present invention will be further described in detail below with reference to the accompanying drawings and embodiments. It is understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

1 is a schematic structural diagram of a medical personnel visual positioning management system according to an embodiment of the present invention, and only parts related to the present embodiment are shown for convenience of description.

[0038] Referring to FIG. 1 , a medical personnel visual positioning management system provided by an embodiment of the present invention includes a positioning subsystem 1 and a background monitoring subsystem 2, and the background monitoring subsystem 2 includes a database 21 and a visualization management module 22, An electronic map of the monitored hospital is stored in advance in the database 21;

[0039] The positioning subsystem 1 is configured to locate a medical staff of the hospital, and send positioning information to the database 21, where the positioning information includes a job number, a positioning position, and a positioning of the medical staff. Point in the day.

[0040] FIG. 2 shows a schematic structural view of the positioning subsystem 1, and only parts related to the present embodiment are shown for convenience of explanation. [0041] As shown in FIG. 2, in the embodiment of the present invention, the positioning subsystem 1 includes an electronic device 11 worn by a medical staff, at least three interconnected and synchronized base stations 12, and a positioning server 13;

[0042] The electronic device 11 is configured to send, to the at least three base stations 12, an ultra-wideband pulse signal carrying a medical personnel number, and each electronic device 11 corresponds to a work number bound to a medical staff.

In the embodiment of the present invention, the electronic device 11 is a wearable electronic device 11, and is worn on a wrist joint of a medical staff, for example: a wrist. The present invention is not limited to the specific location in which the electronic device 11 is worn on the body of the medical professional. And when the medical staff illegally removes the electronic device during the work process, the background monitoring subsystem 2 will alarm and inform the hospital management personnel of the background monitoring subsystem 2 that the hospital administrator can take measures in the first day.

In the embodiment of the present invention, the electronic device 11 transmits an ultra-wideband pulse signal carrying the job number of the medical staff to at least three base stations 12. The ultra-wideband pulse signal uses nanosecond non-sinusoidal narrow pulse to transmit data, has frequency bandwidth, multi-channel, low power consumption, is not easy to interfere, has high safety factor, and can coexist with existing spectrum (ie, does not interfere with existing And the characteristics of the future ultra-wideband communication application, etc., therefore, it is possible to perform high-precision positioning on the medical staff wearing the electronic device 11, and to enhance the stability of the positioning. It should be noted here that a signal that theoretically occupies any 500 MHz band in the spectrum of 3.1 GHz to 10.6 GHz can be called an ultra-wideband pulse signal. In the embodiment of the present invention, the ultra-wideband pulse signal may be a signal carried by the electronic device 11 and occupying any frequency band of any frequency of 3.1 GHz to 10.6 GHz.

[0045] It should be noted that, in the embodiment of the present invention, at least three base stations 12 are interconnected and synchronized, and the interconnection method may be interconnected by a wired network or a wireless network, and between the base station 12 and the positioning server 13 The wired network or the wireless network is interconnected by the wired network or the wireless monitoring network. The wired network includes a fiber network, an Ethernet network composed of twisted pairs, and One of Ethernets composed of a coaxial cable, the wireless network including one of a WiFi network, a 3G network, a 4G network, and a 5G network. As for the synchronization between the base stations 12, the base station connected to the positioning server 13 by any one of the at least three base stations 12 may send a synchronization pulse to the other at least two base stations, thereby completing the connection between the base station and the other at least two base stations. Synchronization, for example, in Fig. 2, is that the base station connected to the positioning server 13 transmits a synchronization pulse to other base stations, thereby completing synchronization between the base station and the base station. [0046] The base station 12 is configured to receive an ultra-wideband pulse signal sent by the electronic device 11, and send a moment to receive the ultra-wideband pulse signal to the positioning server 13.

[0047] In the embodiment of the present invention, the positioning server 13 is directly connected to one of the at least three base stations 12 or the plurality of base stations 12, or the positioning server 13 is connected to the at least the data exchange device. One of the three base stations 12 or a plurality of base stations 12. The positioning server 13 connects one of the at least three base stations 12 or the plurality of base stations 12 through the data switching device to include the following four connection methods:

[0048] Mode 1: The base station 12 and the base station 12 are connected by a network cable, the one or more base stations 12 are connected to the data distribution port of the router through the network cable, and the data distribution port of the router is connected to the positioning server through the network cable 1 3;

[0049] Mode 2: The base station 12 and the base station 12 are connected by a network cable, and one or more base stations 12 are connected to the data distribution port of the switch through the network cable, and the data distribution port of the switch is connected to the positioning server through the network cable 1;

[0050] Mode 3: The base station 12 and the base station 12 are connected by optical fiber, one or more base stations 12 are connected to the input end of the optical transceiver through the optical fiber, and the output end of the optical transceiver is connected to the positioning server 13 through the network cable;

[0051] Mode 4: The base station 12 and the base station 12 are connected by using an optical fiber, and the one or more base stations 12 are connected to the input end of the optical transceiver through the optical fiber, and the output end of the optical transceiver is connected to the positioning server through the network cable.

[0052] For the case where the positioning server 13 directly connects one of the at least three base stations 12 or the plurality of base stations 12, the base station 12 transmits the engraving of the ultra-wideband pulse signal carrying the work number of the medical staff to the positioning. The server 13 may be: at least two base stations 12 of at least three base stations 12 transmit the engraving of the ultra-wideband pulse signals transmitted by the respective received electronic devices 11 to any one of the three base stations 12, by Any one of the base stations 12 directly transmits the engraving of the ultra-wideband pulse signal to each of the base stations 12 to the positioning server 13, or each of the at least three base stations 12 will receive the ultra-wideband transmitted by the electronic device 11 The engraving of the pulse signal is directly sent to the positioning server 13; for the case where the positioning server 13 connects one of the at least three base stations 12 or the plurality of base stations 12 through the data switching device, the base station 12 will receive the ultra-wideband pulse signal. The transmission to the location server 13 may be: at least two of the at least three base stations 12 will each receive an ultra-sent by the electronic device 11 Inch engraved frequency pulse signal is transmitted to three base stations 12 to any one base station 12 from which any of a base station 12 each The engravings of the super-wideband pulse signals received by the base stations 12 are transmitted to the positioning server 13 through the data exchange device, or each of the at least three base stations 12 will each receive the ultra-wideband pulse signals transmitted by the electronic device 11. The engraving is sent to the location server 13 through the data exchange device.

The positioning server 13 is configured to locate a medical staff wearing the electronic device 11 according to a positioning algorithm and a moment that the at least three base stations 12 respectively receive the ultra-wideband pulse signal, and locate the positioning information. Sent to the database 21.

In the embodiment of the present invention, when the positioning server 13 receives the engraving 各自 of each of the at least three base stations 12 receiving the ultra-wideband pulse signal, the engraving of the ultra-wideband pulse signal may be received according to each of the at least three base stations 12. And a positioning algorithm, such as one of the TOA algorithm and the TDOA algorithm, positioning the medical staff wearing the electronic device 11 to obtain the actual positioning position of the medical staff, and then positioning the position and the medical staff The number is sent to the database 21 of the background monitoring subsystem 2 in the form of a piece of database information.

[0055] It should be noted that, in the embodiment of the present invention, the actual positioning position may be the actual two-dimensional coordinates of the medical staff, or the actual three-dimensional coordinates of the medical staff, depending on the same monitored The medical staff, using the number of base stations 12, transmits the ultra-wideband pulse signals respectively transmitted by the electronic device 11 worn by the medical personnel. For example, if the engraving calculations of the respective super-wideband pulse signals transmitted by the three base stations 12 are used, the positioning server 13 calculates the actual two-dimensional coordinates of the medical staff, if four or more base stations 12 are used for transmission. After receiving the engraving calculation of the ultra-wideband pulse signal, the positioning server 13 calculates the actual three-dimensional coordinates of the medical staff. A typical embodiment uses four or more base stations 12 to receive the super-emission by the electronic device 11. The engraving of the broadband pulse signal to calculate the actual coordinates of the supervised medical staff.

[0056] The database 21 is configured to receive and store the positioning information.

[0057] the visual management module 22 is configured to receive a query instruction of the medical personnel movement trajectory, where the query instruction includes a job number of the medical staff to be searched, and according to the query instruction Obtaining, from the database 21, positioning information related to the medical personnel to be searched in the inter-segment and the electronic map; and acquiring, according to the obtained positioning information related to the medical personnel to be searched, in the electronic Generating a movement trajectory of the medical personnel to be searched in the inter-segment segment on the map; outputting and displaying a movement trajectory of the person to be searched in the inter-segment on the electronic map, to assist the hospital administrator to determine the waiting Search personnel Is it on duty in accordance with hospital regulations?

[0058] In the embodiment of the present invention, acquiring, according to the query instruction, the positioning information related to the medical personnel to be searched in the inter-segment, and the electronic map specifically includes: according to the query The job number of the medical personnel to be searched in the instruction obtains the positioning information of the medical personnel to be searched, and then according to the positioning information in the query instruction from the positioning information related to the medical personnel to be searched The positioning information related to the medical personnel to be searched in the inter-segment is extracted, and finally the electronic map of the hospital is obtained from the database 21 according to the obtained positioning information.

[0059] In the embodiment of the present invention, the visual query module can simultaneously receive the query instruction of the movement track of the plurality of medical personnel, and correspondingly can also display the movement track of the plurality of medical personnel on the same display interface, which is convenient. Hospital administrators monitor the on-the-job status of multiple medical staff.

[0060] Optionally, as shown in FIG. 1 , the medical personnel visual positioning management system described in the embodiment of the present invention may further include: an intelligent terminal 3, configured to be used by a hospital administrator to remotely access the background monitoring subsystem. The visualization management module 22 of 2 acquires the movement trajectory of each medical staff from the visualization management module 22. The smart terminal 3 herein includes, but is not limited to, a portable mobile electronic device such as a mobile phone or a tablet computer. In this way, the hospital administrator can use the smart terminal 3 that is carried with him to monitor the movement trajectory of the medical staff on the electronic map of the hospital, and then, according to the monitored trajectory of the medical staff, determine whether it is active in his or her position. And when the medical staff left their jobs without authorization, they took corresponding measures to return to their jobs.

[0061] As can be seen from the above, the medical personnel visual positioning management system provided by the embodiment of the present invention can realize the supervision of the medical staff on-the-job status without installing a camera, and can prevent the medical staff from leaving the job at work, and reduces the occupation. The cost of the hospital management system; in addition, the present invention uses ultra-wideband wireless communication technology for signals between the base station 12 and the electronic device 11, the base station 12 and the base station 12, and between the base station 12 and the positioning server 13 in the positioning subsystem 1, Ultra-wideband wireless communication technology, because of the nanosecond non-sinusoidal narrow pulse transmission data, has frequency bandwidth, multi-channel, low power consumption, is not susceptible to interference, high safety factor and can coexist with the existing spectrum, so The medical staff wearing the electronic device 11 can be positioned with high precision, and the stability of the positioning can be enhanced, and the false position of the positioning position can be avoided, and the hospital administrator can be well assisted in managing the on-the-job situation of the medical staff.

[0062] FIG. 3 is a diagram showing a management method for a medical personnel visual positioning management system according to an embodiment of the present invention. The implementation of the flow chart. Referring to Figure 3, the method includes:

[0063] In S301, the positioning subsystem 1 locates the medical staff of the monitored hospital, and sends the positioning information to the database 21 of the background monitoring subsystem 2, where the electronic map of the hospital is pre-stored in the database 21. The positioning information includes a job number, a positioning position, and a positioning point of the medical staff;

[0064] In S302, the database 21 of the background monitoring subsystem 2 receives and stores the positioning information;

[0065] In S303, the visualization management module 22 of the background monitoring subsystem 2 receives the query instruction of the medical personnel movement trajectory, where the query instruction includes the inter-segment and the work number of the medical staff to be searched. And acquiring, according to the query instruction, the positioning information related to the medical personnel to be searched in the inter-segment segment and the electronic map according to the query instruction; and obtaining, according to the acquired medical personnel to be searched Positioning information is generated on the electronic map to generate a movement track of the medical personnel to be searched in the inter-segment; and outputting and displaying a movement track of the person to be searched in the inter-segment on the electronic map to assist The hospital administrator judges whether the person to be searched is on duty in accordance with hospital regulations.

[0066] Optionally, the management method further includes:

[0067] In S304, the hospital administrator remotely accesses the visualization management module 22 in the background monitoring subsystem 2 through the smart terminal 3, and acquires the movement trajectory of each medical staff from the visualization management module 22.

[0068] Optionally, as a specific implementation, FIG. 4 shows a specific implementation flow of S301.

[0069] Referring to FIG. 4, the specific implementation process of S301 includes:

[0070] In S401, an ultra-wideband pulse signal carrying a job number of a medical staff member is transmitted to at least three base stations 12 disposed around the hospital by using the electronic device 11 worn on the medical staff, and each electronic device 11 is correspondingly tied. There must be a medical staff member number;

[0071] In S402, the base station 12 receives the ultra-wideband pulse signal sent by the electronic device 11, and sends the engraving of the ultra-wideband pulse signal to the positioning server 13;

[0072] In S403, the positioning server 13 locates the medical personnel wearing the electronic device 11 according to the positioning algorithm and the engraving of the at least three base stations 12 each receiving the ultra-wideband pulse signal, and locates Information is sent to the database 21.

[0073] Optionally, the at least three base stations 12 are interconnected by a wired network or a wireless network, and the base station 12 and the positioning server 13 are interconnected by a wired network or a wireless network, and the positioning server is configured. 13 and the background monitoring subsystem 2 are connected by a wired network or a wireless network, The wired network includes one of an Ethernet network composed of a fiber network, a twisted pair cable, and a coaxial cable, and the wireless network includes one of a WiFi network, a 3G network, a 4G network, and a 5G network; The algorithm includes one of the inter-turn TOA algorithm and the inter-turn difference TDOA algorithm.

[0074] Optionally, the positioning server 13 is directly connected to one of the at least three base stations 12 or the plurality of base stations 12, or the positioning server 13 is connected to the at least three base stations by using a data switching device. One of the base stations 12 or 12 base stations 12.

[0075] It is to be noted that the various steps in the foregoing method are the same as the system embodiment of the present invention, and the technical effects of the system are the same as those of the system embodiment of the present invention. For details, refer to the system embodiment of the present invention. Narrative, no more details here.

[0076] The management method of the medical personnel visual positioning management system provided by the embodiment of the invention can also realize the supervision of the medical staff on-the-job situation without installing a camera, and can prevent the medical staff from leaving the job at work, reducing the hospital. The cost of the management system; in addition, since the signals between the base station 12 and the electronic device 11, the base station 12 and the base station 12, and between the base station 12 and the positioning server 13 in the positioning subsystem 1 use ultra-wideband wireless communication technology, and ultra-wideband Wireless communication technology, because of the nanosecond non-sinusoidal narrow pulse transmission data, with frequency bandwidth, multi-channel, low power consumption, low interference, high safety factor and ability to coexist with the existing spectrum, so it can be worn The medical staff of the electronic device 11 performs high-precision positioning, and the same can also enhance the stability of the positioning, avoid the occurrence of mis-reporting of the positioning position, and can well assist the hospital management personnel to manage the on-the-job situation of the medical staff.

[0077] The medical personnel visual positioning management system and the management method thereof are provided in detail in the above embodiments of the present invention. The principles and embodiments of the present invention are described in the following. The description of the above embodiments is only The method for understanding the present invention and its core idea; at the same time, for those of ordinary skill in the art, according to the idea of the present invention, there are some changes in the specific implementation manner and application scope. The contents of this specification are not to be construed as limiting the invention.

Claims

Claim

[Claim 1] A medical personnel visual positioning management system, comprising: a positioning subsystem and a background monitoring subsystem, wherein the background monitoring subsystem comprises a database and a visual management module, wherein the database is pre-stored and monitored An electronic map of the hospital; wherein: the positioning subsystem is configured to locate a medical staff of the hospital, and send positioning information to the database, where the positioning information includes a job number and a positioning position of the medical staff And positioning the daytime;

The database is configured to receive and store the positioning information;

The visual management module is configured to receive a query instruction of the medical personnel movement trajectory, where the query instruction includes a job number of the medical staff to be searched, and the database is used according to the query instruction. Obtaining, in the inter-segment, the positioning information related to the medical personnel to be searched and the electronic map; generating, according to the acquired positioning information related to the medical personnel to be searched, on the electronic map The movement trajectory of the medical staff to be searched in the inter-segment section; outputting and displaying the movement trajectory of the person to be searched in the inter-segment on the electronic map to assist the hospital administrator in judging whether the person to be searched is in accordance with The hospital is required to be on duty.

[Claim 2] The medical personnel visual positioning management system according to claim 1, further comprising:

The intelligent terminal is configured to be used by the hospital administrator to remotely access the visualization management module in the background monitoring subsystem, and obtain the movement track of each medical staff from the visualization management module.

[Claim 3] The medical personnel visual positioning management system according to claim 1, wherein the positioning subsystem comprises an electronic device worn on a medical staff, at least three interconnected and synchronized base stations, and a positioning server;

The electronic device is configured to send, to the at least three base stations, an ultra-wideband pulse signal carrying a medical personnel number, each electronic device corresponding to a work number bound to a medical staff; the base station, for receiving The ultra-wideband pulse signal sent by the electronic device, and transmitting the engraving of the ultra-wideband pulse signal to the positioning server; The positioning server is configured to locate a medical staff wearing the electronic device according to a positioning algorithm and a moment that the at least three base stations respectively receive the ultra-wideband pulse signal, and send the positioning information to the database.

[Claim 4] The medical personnel visual positioning management system according to claim 3, wherein the at least three base stations are interconnected by a wired network or a wireless network, and between the base station and the positioning server The wired network or the wireless network interconnection is used, and the positioning server and the background monitoring subsystem are interconnected by a wired network or a wireless network, and the wired network comprises a fiber network, an Ethernet composed of twisted pairs, and a coaxial cable. One of the Ethernet networks, the wireless network includes one of a WiFi network, a 3G network, a 4G network, and a 5G network; the positioning algorithm includes one of an inter-turn TOA algorithm and an inter-turn difference TDOA algorithm. .

[Claim 5] The medical personnel visual positioning management system according to claim 3, wherein the positioning server directly connects one of the at least three base stations or a plurality of base stations, or the positioning server One of the at least three base stations or a plurality of base stations is connected by a data switching device.

[Claim 6] A management method for a medical personnel visual positioning management system, comprising: a positioning subsystem positioning a medical staff of a monitored hospital, and transmitting the positioning information to a database of a background monitoring subsystem, An electronic map of the hospital is pre-stored in the database, and the positioning information includes a job number, a positioning position, and a positioning point of the medical staff;

The database of the background monitoring subsystem receives and stores the positioning information;

The visual management module of the background monitoring subsystem receives the query instruction of the movement track of the medical staff, and the query instruction includes a job number of the medical staff to be searched, and according to the query instruction Obtaining, in the database, location information related to the medical personnel to be searched in the inter-segment and the electronic map; and acquiring, according to the obtained positioning information related to the medical personnel to be searched, on the electronic map Generating a movement trajectory of the medical personnel to be searched in the inter-segment; and outputting and displaying a movement trajectory of the person to be searched in the inter-segment on the electronic map, to assist the hospital administrator to determine the to-be-searched Whether the person On duty in accordance with hospital regulations.

The management method according to claim 6, further comprising:

The hospital administrator remotely accesses the visual management module in the background monitoring subsystem through the smart terminal, and obtains the movement track of each medical staff from the visual management module. The management method according to claim 6, wherein the positioning subsystem locates the medical staff of the monitored hospital and sends the positioning to the database of the background monitoring subsystem specifically:

An ultra-wideband pulse signal carrying a worker's job number is transmitted to at least three base stations installed around the hospital by using electronic devices worn on the medical personnel, and each electronic device is bound to a medical staff member number;

Receiving, by the base station, an ultra-wideband pulse signal sent by the electronic device, and transmitting the engraving of the super-wideband pulse signal to a positioning server;

The positioning server locates a medical staff wearing the electronic device according to a positioning algorithm and an engraving of the at least three base stations each receiving the ultra-wideband pulse signal, and transmits the positioning information to the database.

The management method according to claim 8, wherein the at least three base stations are connected by a wired network or a wireless network, and the base station and the positioning server are connected by a wired network or a wireless network. The positioning server and the background monitoring subsystem are interconnected by a wired network or a wireless network, and the wired network includes one of an Ethernet network composed of a fiber network, a twisted pair cable, and a coaxial cable. The wireless network includes one of a WiFi network, a 3G network, a 4G network, and a 5G network; and the positioning algorithm includes one of an inter-turn TOA algorithm and an inter-turn difference TDOA algorithm.

The management method according to claim 8, wherein the positioning server is directly connected to one of the at least three base stations or the plurality of base stations, or the positioning server is connected to the at least three by using a data switching device. One base station or multiple base stations in one base station