CN105125185A - Student physical health monitoring method and system - Google Patents

Abstract

The invention discloses a student physical health monitoring method and system. The student physical health monitoring method includes: acquiring the physiological parameter information and locating information of a student when the student exercises, wherein the physiological parameter information comprises one or at least two of heart rate information, blood pressure information, body temperature information and pulse information, and the locating information comprises a locating time point and location information obtained by locating at the locating time point; binding and storing the identification of the student and the same-time acquired physiological parameter information and locating information of the student after the physiological parameter information and locating information of the student is acquired each time. By the student physical health monitoring method, student physical health monitoring efficiency and scientificity can be increased effectively.

Description

A kind of physical health of students method for supervising and physical health of students monitoring system

Technical field

The present invention relates to wisdom school field, be specifically related to a kind of physical health of students method for supervising and physical health of students monitoring system.

Background technology

For establishing and improve national physical health of students monitoring and evaluation mechanism, excitation student actively participates in physical exercise, the Ministry of Education prints and distributes " national student physical health standard ", the intension of " national student physical health standard " measures the evaluation criterion of student's Physical Health Status and train on, being the basic demand of country to Different age group physical health of students aspect, is the individual evaluation standard of physical health of students.The appearance of " national student physical health standard " means that country attaches great importance to physical health of students.

At present, the surveillance for constitution health of student needs to record student by tester and completes the situation of body constitution Fitness Testing to evaluate the physical health situation of this student, such as, student is allowed to carry out 1000 meters of tests of running, record student by teacher and complete time required for these 1000 meters tests, and evaluate the physical health situation of this student according to this time.There is the following two kinds drawback in this mode: on the one hand, along with the continuous expansion of school size, students' quantity of a school gets more and more, and the time more than needing by the way to spend very just can complete the surveillance for constitution health to each student in school; On the other hand, the situation that student completes body constitution Fitness Testing is only presentation information, is difficult to the physical health situation of Scientific Assessment student.

Summary of the invention

The invention provides a kind of physical health of students method for supervising and physical health of students monitoring system, for improve to physical health of students monitoring efficiency and science.

First aspect present invention provides a kind of physical health of students method for supervising, comprising:

When student movement, the physiological parameter information of the above-mentioned student of Real-time Obtaining and the locating information of above-mentioned student, wherein, above-mentioned physiological parameter information comprises one or more information following: heart rate information, blood pressure information, body temperature information and pulse information, and above-mentioned locating information comprises: positioning time point and above-mentioned positioning time point position the positional information obtained;

After the locating information of the physiological parameter information and above-mentioned student that at every turn get above-mentioned student, the physiological parameter information of the above-mentioned student mark of above-mentioned student, homogeneous got and locating information are carried out binding and are stored.

Based on first aspect present invention, in the implementation that the first is possible, the physiological parameter information of the above-mentioned student of above-mentioned Real-time Obtaining and the locating information of above-mentioned student, comprising:

Wearable device gathers the physiological parameter information of above-mentioned student and the physiological parameter information of above-mentioned student is sent to location-server, and wherein, above-mentioned wearable device is worn on it above-mentioned student, and the mark of above-mentioned wearable device and above-mentioned student is bound;

Above-mentioned wearable device sends ultra-wideband pulse signals at least three base stations, above-mentioned at least three base station interconnection and synchronous;

Above-mentioned base station receives the ultra-wideband pulse signal that above-mentioned wearable device sends, and the moment received from the ultra-wideband pulse signal of above-mentioned wearable device is sent to above-mentioned location-server;

The moment that above-mentioned location-server receives from the ultra-wideband pulse signal of above-mentioned wearable device separately according to above-mentioned at least three base stations positions above-mentioned student, generate the locating information of this location, wherein, some positioning time of this location is the above-mentioned time point positioned above-mentioned student of above-mentioned location-server execution.

Based on the first possible implementation of first aspect present invention, in the implementation that the second is possible, the physiological parameter information of the above-mentioned above-mentioned student mark of above-mentioned student, homogeneous got and locating information are carried out binding and are stored, and are specially:

The physiological parameter information of the above-mentioned student mark of above-mentioned student, homogeneous got and locating information binding are stored in the data base of above-mentioned location-server.

Based on the first possible implementation of first aspect present invention, or the implementation that the second of first aspect present invention is possible, in the implementation that the third is possible, the moment that above-mentioned location-server receives from the ultra-wideband pulse signal of above-mentioned wearable device separately according to above-mentioned at least three base stations positions above-mentioned student, is specially:

The moment that above-mentioned location-server receives from the ultra-wideband pulse signal of above-mentioned wearable device separately according to location algorithm and above-mentioned at least three base stations positions above-mentioned student;

Wherein, above-mentioned location algorithm comprises the one in following algorithm: reach time algorithm and reach time difference algorithm.

Based on first aspect present invention, or the first possible implementation of first aspect present invention, or the implementation that the second of first aspect present invention is possible, in the 4th kind of possible implementation, the physiological parameter information of the above-mentioned above-mentioned student mark of above-mentioned student, homogeneous got and locating information carry out comprising after binding stores:

Receive student's physiological parameter information query statement, wherein, above-mentioned student's physiological parameter information query statement comprises: the mark of time period and student to be checked;

According to mark and the above-mentioned time period of above-mentioned student to be checked, search the interior physiological parameter information relevant to above-mentioned student to be checked of above-mentioned time period and the locating information of storage;

Show the interior physiological parameter information relevant to above-mentioned student to be checked of the above-mentioned time period found and locating information.

Second aspect present invention provides a kind of physical health of students monitoring system, comprise: information acquisition subsystem, for when student movement, the physiological parameter information of the above-mentioned student of Real-time Obtaining and the locating information of above-mentioned student, wherein, above-mentioned physiological parameter information comprises one or more information following: heart rate information, blood pressure information, body temperature information and pulse information, and above-mentioned locating information comprises: positioning time point and above-mentioned positioning time point position the positional information obtained;

Storage subsystem, for after the locating information of the physiological parameter information and above-mentioned student that get above-mentioned student at every turn, the physiological parameter information of the above-mentioned student mark of above-mentioned student, homogeneous got and locating information are carried out binding and are stored.

Based on second aspect present invention, in the implementation that the first is possible, above-mentioned information acquisition subsystem specifically comprises:

Be worn on student's wearable device with it, location-server and at least three interconnected and synchronous base stations, wherein, the mark of above-mentioned wearable device and above-mentioned student is bound;

Above-mentioned wearable device is used for: the physiological parameter information gathering above-mentioned student, and the physiological parameter information of above-mentioned student is sent to above-mentioned location-server; Ultra-wideband pulse signal is sent to above-mentioned at least three base stations;

Above-mentioned base station is used for: receive the ultra-wideband pulse signal that above-mentioned wearable device sends, and the moment received from the ultra-wideband pulse signal of above-mentioned wearable device is sent to above-mentioned location-server;

Above-mentioned location-server is used for: position above-mentioned student according to the moment that above-mentioned at least three base stations receive separately from the ultra-wideband pulse signal of above-mentioned wearable device, generate the locating information of this location, wherein, some positioning time of this location is the above-mentioned time point positioned above-mentioned student of above-mentioned location-server execution.

Based on the first possible implementation of second aspect present invention, in the implementation that the second is possible, above-mentioned storage subsystem is stored in the data base of above-mentioned location-server specifically for: the physiological parameter information of the above-mentioned student mark of above-mentioned student, homogeneous got and locating information binding.

Based on the first possible implementation of second aspect present invention, or the implementation that the second of second aspect present invention is possible, in the implementation that the third is possible, above-mentioned location-server specifically for: according to the moment that location algorithm and above-mentioned at least three base stations receive separately from the ultra-wideband pulse signal of above-mentioned wearable device, above-mentioned student is positioned;

Wherein, above-mentioned location algorithm comprises the one in following algorithm: reach time algorithm and reach time difference algorithm.

Based on second aspect present invention, or the first possible implementation of second aspect present invention, or the implementation that the second of second aspect present invention is possible, in the 4th kind of possible implementation, above-mentioned physical health of students monitoring system also comprises:

Query Subsystem, for: receive student's physiological parameter information query statement, wherein, above-mentioned student's physiological parameter information query statement comprises: the mark of time period and student to be checked; According to mark and the above-mentioned time period of above-mentioned student to be checked, search the interior physiological parameter information relevant to above-mentioned student to be checked of above-mentioned time period and the locating information of storage; Show the interior physiological parameter information relevant to above-mentioned student to be checked of the above-mentioned time period found and locating information.

Therefore, the present invention can when student movement the physiological parameter information of Real-time Obtaining student and locating information, and after the physiological parameter information at every turn getting student and locating information, by the mark of student, the physiological parameter information of the student that homogeneous gets and locating information are carried out binding and are stored, the positional information obtained is positioned owing to comprising in locating information to put positioning time and put in above-mentioned positioning time, therefore in some physical health test event (project of such as running), do not need artificial record can know that student completes the situation of body constitution Fitness Testing, improve the efficiency to physical health of students monitoring, simultaneously, by obtaining student's physiological parameter information real-time in motor process, contribute to the physical health situation of more scientific ground assessment of students', improve the science to physical health of students monitoring.

Accompanying drawing explanation

In order to be illustrated more clearly in the embodiment of the present invention or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

Fig. 1-a is a kind of physical health of students method for supervising provided by the invention embodiment schematic flow sheet;

Fig. 1-b is that a kind of physical health of students monitoring system provided by the invention obtains the physiological parameter information of student and the embodiment schematic flow sheet of locating information;

Fig. 1-c is a kind of physical health of students monitoring system inquiry physiological parameter information of student provided by the invention and the embodiment schematic flow sheet of locating information;

Fig. 2 is a kind of physical health of students monitoring system provided by the invention example structure schematic diagram;

Fig. 3 is a kind of information subsystem provided by the invention example structure schematic diagram.

Detailed description of the invention

For making goal of the invention of the present invention, feature, advantage can be more obvious and understandable, below in conjunction with the accompanying drawing in the embodiment of the present invention, technical scheme in the embodiment of the present invention is clearly and completely described, obviously, described embodiment is only the present invention's part embodiment, and not all embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art, not making the every other embodiment obtained under creative work prerequisite, belong to the scope of protection of the invention.

The embodiment of the present invention provides a kind of physical health of students method for supervising, comprise: when student movement, the physiological parameter information of the above-mentioned student of Real-time Obtaining and the locating information of above-mentioned student, wherein, above-mentioned physiological parameter information comprises one or more information following: heart rate information, blood pressure information, body temperature information and pulse information, and above-mentioned locating information comprises: positioning time point and above-mentioned positioning time point position the positional information obtained; After the locating information of the physiological parameter information and above-mentioned student that at every turn get above-mentioned student, the physiological parameter information of the above-mentioned student mark of above-mentioned student, homogeneous got and locating information are carried out binding and are stored.The embodiment of the present invention also provides corresponding physical health of students monitoring system, is described in detail respectively below.

Be described a kind of physical health of students method for supervising that the embodiment of the present invention provides below, refer to Fig. 1-a, the student in the embodiment of the present invention meets with management method and comprises:

101, when student movement, the physiological parameter information of the above-mentioned student of Real-time Obtaining and the locating information of above-mentioned student;

Wherein, above-mentioned physiological parameter information comprises one or more information following: heart rate information, blood pressure information, body temperature information and pulse information, and above-mentioned locating information comprises: positioning time point and this positioning time point position the positional information obtained.

In the embodiment of the present invention, when student movement, can by user trigger this student of physical health of students monitoring system Real-time Obtaining physiological parameter information and the action of locating information of above-mentioned student, or, also can detect this student movement by physical health of students monitoring system whether to move, when this student movement being detected, trigger Real-time Obtaining this student physiological parameter information and the action of locating information of above-mentioned student, concrete, whether physical health of students monitoring can detect this student movement by the wearable device (such as by the acceleration transducer in wearable device) be worn on this student and move, when wearable device detects this student movement, trigger Real-time Obtaining this student physiological parameter information and the action of locating information of above-mentioned student.

Optionally, the physiological parameter information of the above-mentioned student of Real-time Obtaining and the method flow shown in locating information reference Fig. 1-b of above-mentioned student in the embodiment of the present invention:

S1, wearable device gather the physiological parameter information of above-mentioned student and the physiological parameter information of above-mentioned student are sent to location-server;

Wherein, above-mentioned wearable device is worn on it above-mentioned student, and the mark of above-mentioned wearable device and above-mentioned student (such as identification number (ID, IDentity) that student distributes) is bound.Concrete, wearable device can be worn on the wrist of student, arm or other body part, is not construed as limiting herein.Should understand, the type of the physiological parameter information of the student that the wearing position of wearable device can gather as required and setting, such as, when needing pulse information, the heart rate information gathering student, can wearable device be worn in the wrist of student, when needing the blood pressure information gathering student, wearable device can be configured on the arm of student.Particularly, the physiological parameter information being gathered people by wearable device can refer to prior art realization, repeats no more herein.

S2, above-mentioned wearable device send ultra-wideband pulse signal at least three base stations;

At least three base stations of the embodiment of the present invention can be deployed in roof or roadside, particular location with in wearable device at the prison scope time base station can receive the enough ultra-wideband pulse signal of intensity that this wearable device sends and be limited.

In embodiments of the present invention, above-mentioned at least three base station interconnection and synchronous, interconnected method can adopt the interconnected or interconnected with wireless network of cable network, wherein, wireless network comprises the one in Wireless Fidelity (WiFi, WirelessFidelity) network, 3 G mobile communication network (i.e. 3G network), forth generation mobile communications network (i.e. 4G network) and the 5th third generation mobile communication network (i.e. 5G network).Synchronous as between base station, can be any one in above-mentioned at least three base stations with location-server directly or indirectly the base station of (being such as connected by switch) send lock-out pulse to other at least two base stations, thus it is synchronous to complete between at least two base stations in this base station and other.

S3, above-mentioned base station receive the ultra-wideband pulse signal that above-mentioned wearable device sends, and the moment received from the ultra-wideband pulse signal of above-mentioned wearable device is sent to above-mentioned location-server;

In embodiments of the present invention, above-mentioned location-server directly connects a base station in above-mentioned at least three base stations or multiple base station, or above-mentioned location-server connects a base station in above-mentioned at least three base stations or multiple base station by switch.Particularly, it can be any one in following four kinds of connected modes that the location-server in the embodiment of the present invention connects a base station at least three base stations or multiple base station by switch:

Mode one: adopt netting twine to be connected between base station with base station, one or more base station is by the Data dissemination port of netting twine connection route device, and the Data dissemination port of router is connected to location-server by netting twine;

Mode two: adopt netting twine to be connected between base station with base station, one or more base station connects the Data dissemination port of switch by netting twine, and the Data dissemination port of switch is connected to location-server by netting twine;

Mode three: adopt Fiber connection between base station and base station, one or more base station is by the input of Fiber connection optical transmitter and receiver, and the outfan of optical transmitter and receiver is connected to location-server by netting twine;

Mode four: adopt Fiber connection between base station and base station, one or more base station is by the input of Fiber connection fiber optical transceiver, and the outfan of fiber optical transceiver, is connected to location-server by netting twine.

A base station in above-mentioned at least three base stations or this situation of multiple base station are directly connected for above-mentioned location-server, the moment receiving ultra-wideband pulse signal is sent to location-server by base station: at least two base stations in above-mentioned at least three base stations will receive any one base station be sent to from the moment of the ultra-wideband pulse signal of above-mentioned wearable device in above-mentioned at least three base stations separately, by this any one base station, the moment that each base station receives ultra-wideband pulse signal is directly sent to above-mentioned location-server, or, the moment received separately from the ultra-wideband pulse signal of above-mentioned wearable device is directly sent to above-mentioned location-server by each base station in above-mentioned at least three base stations, by switch, a base station in above-mentioned at least three base stations or this situation of multiple base station are connected for above-mentioned location-server, the moment receiving ultra-wideband pulse signal is sent to location-server by base station: at least two base stations in above-mentioned at least three base stations will receive any one base station be sent to from the moment of the ultra-wideband pulse signal of above-mentioned wearable device in above-mentioned at least three base stations separately, by this any one base station, the moment that each base station receives ultra-wideband pulse signal is sent to location-server by switch, or, the moment received separately from the ultra-wideband pulse signal of above-mentioned wearable device is sent to location-server by switch by each base station in above-mentioned at least three base stations.

The student of moment to above-mentioned wearable device place that S4, above-mentioned location-server receive from the ultra-wideband pulse signal of above-mentioned wearable device separately according to above-mentioned at least three base stations positions, and generates the locating information of this location;

Wherein, some positioning time in this locating information of locating is the above-mentioned time point positioned above-mentioned student of above-mentioned location-server execution.

In the embodiment of the present invention, when above-mentioned location-server receive above-mentioned at least three base stations receive the moment of ultra-wideband pulse signal separately time, moment of ultra-wideband pulse signal can be received separately according to above-mentioned at least three base stations and the student of certain location algorithm to above-mentioned wearable device place positions, obtain locating information.Optionally, above-mentioned location algorithm comprises the time of reaching (TOA, TimeOfArrival) algorithm and reaches the one in time difference (TDOA, TimeDifferenceOfArrival) algorithm.

In the embodiment of the present invention, above-mentioned locating information is specially the real-time coordinates (being also the real-time coordinates of the student at above-mentioned wearable device place) of above-mentioned wearable device.Particularly, the real-time coordinates of above-mentioned wearable device both can be the Real-time Two-dimensional coordinate of wearable device, also can be the real-time three-dimensional coordinate of wearable device, according to be the words constantly of the respective reception ultra-wideband pulse signal that three base stations are transmitted calculated, the Real-time Two-dimensional coordinate of what then location-server calculated is wearable device, according to be calculate in the moment that four or more base station receives ultra-wideband pulse signal separately, then the real-time three-dimensional coordinate of what location-server calculated is wearable device; The moment of what typical embodiment adopted is four or more base station receives separately ultra-wideband pulse signal calculates the real-time coordinates of wearable device.

It should be noted that, in the embodiment of the present invention, what above-mentioned wearable device sent to above-mentioned at least three base stations is ultra-wideband pulse signal, wherein, above-mentioned ultra-wideband pulse signal refers to the signal in 3.1 GHzs (i.e. GHz) ~ 10.6GHz frequency band, concrete, choose the bandwidth of 500 megahertzes (i.e. MHz) from 3.1GHz ~ 10.6GHz frequency band for transmitting above-mentioned ultra-wideband pulse signal.Because the ultra-wideband pulse signal in the embodiment of the present invention adopts the non-sinusoidal waveform burst pulse transmission data of nanosecond, there is bandwidth, multichannel, low-power consumption, not easily disturb, safety coefficient is high, can be coexisted with existing frequency spectrum features such as (namely can not disturb the existing and following ultra-wideband communications applications), therefore both can by having carried out hi-Fix to the wearable device of high-speed mobile, and then hi-Fix is carried out to the student wearing this wearable device, the stability of location can be strengthened again.

Certainly, embodiment of the present invention middle school student event trace inquiry system also can carry out real-time positioning by other localization method to each student, is not construed as limiting herein.

102, after the locating information of the physiological parameter information and above-mentioned student that at every turn get above-mentioned student, the physiological parameter information of the above-mentioned student mark of above-mentioned student, homogeneous got and locating information are carried out binding and are stored;

In the embodiment of the present invention, physical health of students monitoring system is after the locating information of the physiological parameter information and above-mentioned student that at every turn get above-mentioned student, and the physiological parameter information of the above-mentioned student mark of above-mentioned student, homogeneous got and locating information are carried out binding and stored.

Optional, obtain the physiological parameter information of above-mentioned student and the locating information of above-mentioned student according to the method shown in Fig. 1-b, then the physiological parameter information of this student that the mark of above-mentioned student, homogeneous got of physical health of students monitoring system and locating information binding are stored in the data base of above-mentioned location-server.

Certainly, in the embodiment of the present invention, the physiological parameter information of this student that the mark of above-mentioned student, homogeneous get and locating information also can be bound and be stored in miscellaneous equipment, and this is not construed as limiting.

Alternatively, the method that the embodiment of the present invention also provides student's physiological parameter information to inquire about, as shown in fig 1-c, comprising:

A1, reception student physiological parameter information query statement;

Wherein, above-mentioned student's physiological parameter information query statement comprises: the mark of time period and student to be checked.In the embodiment of the present invention, physical health of students monitoring system provides the input control of student's physiological parameter information query statement, user can by this input control input student physiological parameter information query statement, wherein, student's physiological parameter information query statement of input comprises: the mark of time period and student to be checked; Or user also can send above-mentioned student's physiological parameter information query statement by the miscellaneous equipment being connected (wired connection or wireless connections) with this physical health of students monitoring system to this physical health of students monitoring system.

A2, according to the mark of above-mentioned student to be checked and above-mentioned time period, the physiological parameter information relevant to above-mentioned student to be checked and locating information in the above-mentioned time period of searching storage;

Because the physiological parameter information of above-mentioned student that at every turn mark of above-mentioned student, homogeneous got in the embodiment of the present invention and locating information carry out binding storage, therefore, physical health of students monitoring system according to the mark of above-mentioned student to be checked and above-mentioned time period, can search physiological parameter information relevant to above-mentioned student to be checked in the above-mentioned time period and locating information from the data stored.

The physiological parameter information relevant to above-mentioned student to be checked and locating information in the above-mentioned time period that A3, display find;

In the embodiment of the present invention, when finding physiological parameter information relevant to above-mentioned student to be checked in the above-mentioned time period and locating information, physical health of students monitoring system shows the physiological parameter information relevant to above-mentioned student to be checked and locating information in above-mentioned time period of finding, so that user intuitively can see the positional information of above-mentioned student to be checked within the above-mentioned time period and physiological parameter information.

Further, physical health of students monitoring system can generate the form comprising the interior physiological parameter information relevant to above-mentioned student to be checked of the above-mentioned time period found and locating information, and this form of output display.

Therefore, the present invention can when student movement the physiological parameter information of Real-time Obtaining student and locating information, and after the physiological parameter information at every turn getting student and locating information, by the mark of student, the physiological parameter information of the student that homogeneous gets and locating information are carried out binding and are stored, the positional information obtained is positioned owing to comprising in locating information to put positioning time and put in above-mentioned positioning time, therefore in some physical health test event (project of such as running), do not need artificial record can know that student completes the situation of body constitution Fitness Testing, improve the efficiency to physical health of students monitoring, simultaneously, by obtaining student's physiological parameter information real-time in motor process, contribute to the physical health situation of more scientific ground assessment of students', improve the science to physical health of students monitoring.

Be described the physical health of students monitoring system in the embodiment of the present invention with another embodiment below, refer to Fig. 2, the physical health of students monitoring system 200 in the embodiment of the present invention comprises:

Information acquisition subsystem 201, for when student movement, the physiological parameter information of the above-mentioned student of Real-time Obtaining and the locating information of above-mentioned student, wherein, above-mentioned physiological parameter information comprises one or more information following: heart rate information, blood pressure information, body temperature information and pulse information, and above-mentioned locating information comprises: positioning time point and above-mentioned positioning time point position the positional information obtained;

Storage subsystem 202, for after the locating information of the physiological parameter information and above-mentioned student that get above-mentioned student at every turn, the physiological parameter information of the above-mentioned student mark of above-mentioned student, homogeneous got and locating information are carried out binding and are stored.

Optionally, as shown in Figure 3, information acquisition subsystem 201 comprises: be worn on student's wearable device 2021 with it, location-server 2022 and at least three interconnected and synchronous base station 20231 ~ 2023n, wherein, n is more than or equal to 3 (Fig. 3 gets 4 for n and illustrates).

The physiological parameter information of above-mentioned student for gathering the physiological parameter information of above-mentioned student, and is sent to location-server 2022 by wearable device 2021; Ultra-wideband pulse signal is sent to base station 20231 ~ 2023n;

In the embodiment of the present invention, wearable device 2021 is worn on it student, and by the mark (ID that such as student distribute bind) of wearable device 2021 with the student at wearable device 2021 place.Concrete, wearable device 2021 can be worn on the wrist of student, arm or other body part, is not construed as limiting herein.Should understand, the type of the physiological parameter information of the student that the wearing position of wearable device 2021 can gather as required and setting, such as, when needing pulse information, the heart rate information gathering student, can wearable device 2021 be worn in the wrist of student, when needing the blood pressure information gathering student, wearable device 2021 can be configured on the arm of student.Particularly, the physiological parameter information being gathered people by wearable device 2021 can refer to prior art realization, repeats no more herein.

Base station 20231 ~ the 2023n of the embodiment of the present invention can be deployed in roof or roadside, particular location with in wearable device 2021 at the prison scope time base station can receive the enough ultra-wideband pulse signal of intensity that wearable device 2021 sends and be limited.

In embodiments of the present invention, base station 20231 ~ 2023n is interconnected and synchronous, interconnected method can adopt the interconnected or interconnected with wireless network of cable network, wherein, wireless network comprises the one in WiFi network, 3 G mobile communication network (i.e. 3G network), forth generation mobile communications network (i.e. 4G network) and the 5th third generation mobile communication network (i.e. 5G network).Synchronous as between the 20231 ~ 2023n of base station, can be any one in the 20231 ~ 2023n of base station with location-server directly or indirectly the base station of (being such as connected by switch) send lock-out pulse to other at least two base stations, thus it is synchronous to complete between at least two base stations in this base station and other.

Base station 20231 ~ 2023n, for receiving the ultra-wideband pulse signal that wearable device 2021 sends, and is sent to location-server 2022 by the moment received from the ultra-wideband pulse signal of wearable device 2021;

In embodiments of the present invention, location-server 2022 directly connects a base station in the 20231 ~ 2023n of base station or multiple base station, or location-server 2022 is by a base station in switch connection base station 20231 ~ 2023n or multiple base station.Particularly, the location-server 2022 in the embodiment of the present invention can be any one in following four kinds of connected modes by a base station in switch connection base station 20231 ~ 2023n or multiple base station:

Mode one: adopt netting twine to be connected between base station with base station, one or more base station is by the Data dissemination port of netting twine connection route device, and the Data dissemination port of router is connected to location-server by netting twine;

Mode two: adopt netting twine to be connected between base station with base station, one or more base station connects the Data dissemination port of switch by netting twine, and the Data dissemination port of switch is connected to location-server by netting twine;

Mode three: adopt Fiber connection between base station and base station, one or more base station is by the input of Fiber connection optical transmitter and receiver, and the outfan of optical transmitter and receiver is connected to location-server by netting twine;

Mode four: adopt Fiber connection between base station and base station, one or more base station is by the input of Fiber connection fiber optical transceiver, and the outfan of fiber optical transceiver, is connected to location-server by netting twine.

A base station in the 20231 ~ 2023n of base station or this situation of multiple base station are directly connected for location-server 2022, the moment receiving ultra-wideband pulse signal is sent to location-server 2022 by base station: at least two base stations in the 20231 ~ 2023n of base station will receive any one base station be sent to from the moment of the ultra-wideband pulse signal of wearable device 2021 in the 20231 ~ 2023n of base station separately, by this any one base station, the moment that each base station receives ultra-wideband pulse signal is directly sent to location-server 2022, or, the moment received separately from the ultra-wideband pulse signal of wearable device 2021 is directly sent to location-server 2022 by each base station in the 20231 ~ 2023n of base station, for location-server 2022 by a base station in switch connection base station 20231 ~ 2023n or this situation of multiple base station, the moment receiving ultra-wideband pulse signal is sent to location-server 2022 by base station: at least two base stations in the 20231 ~ 2023n of base station will receive any one base station be sent to from the moment of the ultra-wideband pulse signal of wearable device 2021 in the 20231 ~ 2023n of base station separately, by this any one base station, the moment that each base station receives ultra-wideband pulse signal is sent to location-server 2022 by switch, or, the moment received separately from the ultra-wideband pulse signal of wearable device 2021 is sent to location-server 2022 by switch by each base station in the 20231 ~ 2023n of base station.

Location-server 2022, position for the student of moment to wearable device 2021 place received separately according to base station 20231 ~ 2023n from the ultra-wideband pulse signal of wearable device 2021, generate the locating information of this location, wherein, some positioning time of this location performs the above-mentioned time point positioned above-mentioned student for location-server 2022.

In the embodiment of the present invention, when location-server 2022 receive base station 20231 ~ 2023n receive the moment of ultra-wideband pulse signal separately time, moment of ultra-wideband pulse signal can be received separately according to base station 20231 ~ 2023n and the student of certain location algorithm to wearable device 2021 place positions, obtain locating information.Optionally, above-mentioned location algorithm comprises the one in TOA algorithm and TDOA algorithm.

In the embodiment of the present invention, above-mentioned locating information is specially the real-time coordinates (being also the real-time coordinates of the student at wearable device 2021 place) of wearable device 2021.Particularly, the real-time coordinates of wearable device 2021 both can be the Real-time Two-dimensional coordinate of wearable device 2021, also can be the real-time three-dimensional coordinate of wearable device 2021, according to be the words constantly of the respective reception ultra-wideband pulse signal that three base stations are transmitted calculated, the Real-time Two-dimensional coordinate of what then location-server 2022 calculated is wearable device 2021, according to be the words four or more base station receives ultra-wideband pulse signal separately constantly calculated, the real-time three-dimensional coordinate of what then location-server 2022 calculated is wearable device 2021, the moment of what typical embodiment adopted is four or more base station receives separately ultra-wideband pulse signal calculates the real-time coordinates of wearable device 2021.It should be noted that, in the embodiment of the present invention, what wearable device 2021 sent to base station 20231 ~ 2023n is ultra-wideband pulse signal, wherein, above-mentioned ultra-wideband pulse signal refers to the signal in 3.1 GHzs (i.e. GHz) ~ 10.6GHz frequency band, concrete, choose the bandwidth of 500 megahertzes (i.e. MHz) from 3.1GHz ~ 10.6GHz frequency band for transmitting above-mentioned ultra-wideband pulse signal.Because the ultra-wideband pulse signal in the embodiment of the present invention adopts the non-sinusoidal waveform burst pulse transmission data of nanosecond, there is bandwidth, multichannel, low-power consumption, not easily disturb, safety coefficient is high, can be coexisted with existing frequency spectrum features such as (namely can not disturb the existing and following ultra-wideband communications applications), therefore both can by having carried out hi-Fix to the wearable device of high-speed mobile, and then hi-Fix is carried out to the student wearing this wearable device, the stability of location can be strengthened again.

Optionally, storage subsystem 202 is stored in the data base of location-server 2022 specifically for: the physiological parameter information of the above-mentioned student mark of above-mentioned student, homogeneous got and locating information binding.

Optionally, physical health of students monitoring system in the embodiment of the present invention also comprises: Query Subsystem, for: receive student's physiological parameter information query statement, wherein, above-mentioned student's physiological parameter information query statement comprises: the mark of time period and student to be checked; According to mark and the above-mentioned time period of above-mentioned student to be checked, search the interior physiological parameter information relevant to above-mentioned student to be checked of above-mentioned time period and the locating information of storage; Show the interior physiological parameter information relevant to above-mentioned student to be checked of the above-mentioned time period found and locating information.

Should understand, physical health of students monitoring system in the embodiment of the present invention can physical health of students monitoring system respectively as mentioned in above-mentioned embodiment of the method, may be used for the whole technical schemes realized in said method embodiment, the function of its each functional module can according to the method specific implementation in said method embodiment, its specific implementation process can refer to the associated description in above-described embodiment, repeats no more herein.

Therefore, the present invention can when student movement the physiological parameter information of Real-time Obtaining student and locating information, and after the physiological parameter information at every turn getting student and locating information, by the mark of student, the physiological parameter information of the student that homogeneous gets and locating information are carried out binding and are stored, the positional information obtained is positioned owing to comprising in locating information to put positioning time and put in described positioning time, therefore in some physical health test event (project of such as running), do not need artificial record can know that student completes the situation of body constitution Fitness Testing, improve the efficiency to physical health of students monitoring, simultaneously, by obtaining student's physiological parameter information real-time in motor process, contribute to the physical health situation of more scientific ground assessment of students', improve the science to physical health of students monitoring.

In several embodiments that the application provides, should be understood that disclosed apparatus and method can realize by another way.Such as, device embodiment described above is only schematic, such as, the division of said units, be only a kind of logic function to divide, actual can have other dividing mode when realizing, such as multiple unit or assembly can in conjunction with or another system can be integrated into, or some features can be ignored, or do not perform.Another point, shown or discussed coupling each other or direct-coupling or communication connection can be by some interfaces, and the INDIRECT COUPLING of device or unit or communication connection can be electrical, machinery or other form.

The above-mentioned unit illustrated as separating component or can may not be and physically separates, and the parts as unit display can be or may not be physical location, namely can be positioned at a place, or also can be distributed on multiple NE.Some or all of unit wherein can be selected according to the actual needs to realize the object of the present embodiment scheme.

In addition, each functional unit in each embodiment of the present invention can be integrated in a processing unit, also can be that the independent physics of unit exists, also can two or more unit in a unit integrated.Above-mentioned integrated unit both can adopt the form of hardware to realize, and the form of SFU software functional unit also can be adopted to realize.

If above-mentioned integrated unit using the form of SFU software functional unit realize and as independently production marketing or use time, can be stored in a computer read/write memory medium.Based on such understanding, the part that technical scheme of the present invention contributes to prior art in essence in other words or all or part of of this technical scheme can embody with the form of software product, this computer software product is stored in a storage medium, comprising some instructions in order to make a computer equipment (can be personal computer, server, or the network equipment etc.) perform all or part of step of each embodiment said method of the present invention.And aforesaid storage medium comprises: USB flash disk, portable hard drive, read only memory (ROM, Read-OnlyMemory), random access memory (RAM, RandomAccessMemory), magnetic disc or CD etc. various can be program code stored medium.

It should be noted that, for aforesaid each embodiment of the method, in order to easy description, therefore it is all expressed as a series of combination of actions, but those skilled in the art should know, the present invention is not by the restriction of described sequence of movement, because according to the present invention, some step can adopt other order or carry out simultaneously.Secondly, those skilled in the art also should know, the embodiment described in description all belongs to preferred embodiment, and involved action and module might not be all that the present invention is necessary.

In the above-described embodiments, the description of each embodiment is all emphasized particularly on different fields, in certain embodiment, there is no the part described in detail, can see the associated description of other embodiment.

It is more than the description to a kind of physical health of students method for supervising provided by the present invention and physical health of students monitoring system, for one of ordinary skill in the art, according to the thought of the embodiment of the present invention, all will change in specific embodiments and applications, to sum up, this description should not be construed as limitation of the present invention.

Claims (10)

1. a physical health of students method for supervising, is characterized in that, comprising:

When student movement, the physiological parameter information of student described in Real-time Obtaining and the locating information of described student, wherein, described physiological parameter information comprises one or more information following: heart rate information, blood pressure information, body temperature information and pulse information, and described locating information comprises: positioning time point and described positioning time point position the positional information obtained;

After the locating information of the physiological parameter information and described student that at every turn get described student, the physiological parameter information of the described student mark of described student, homogeneous got and locating information are carried out binding and are stored.

2. method according to claim 1, is characterized in that, the physiological parameter information of student described in described Real-time Obtaining and the locating information of described student, comprising:

Wearable device gathers the physiological parameter information of described student and the physiological parameter information of described student is sent to location-server, and wherein, described wearable device is worn on it described student, and the mark of described wearable device and described student is bound;

Described wearable device sends ultra-wideband pulse signals at least three base stations, described at least three base station interconnection and synchronous;

Described base station receives the ultra-wideband pulse signal that described wearable device sends, and the moment received from the ultra-wideband pulse signal of described wearable device is sent to described location-server;

The moment that described location-server receives from the ultra-wideband pulse signal of described wearable device separately according to described at least three base stations positions described student, generate the locating information of this location, wherein, some positioning time of this location is the described time point positioned described student of described location-server execution.

3. method according to claim 2, is characterized in that, the physiological parameter information of the described described student mark of described student, homogeneous got and locating information are carried out binding and stored, and are specially:

The physiological parameter information of the described student mark of described student, homogeneous got and locating information binding are stored in the data base of described location-server.

4. according to the method in claim 2 or 3, it is characterized in that, the moment that described location-server receives from the ultra-wideband pulse signal of described wearable device separately according to described at least three base stations positions described student, is specially:

The moment that described location-server receives from the ultra-wideband pulse signal of described wearable device separately according to location algorithm and described at least three base stations positions described student;

Wherein, described location algorithm comprises the one in following algorithm: reach time algorithm and reach time difference algorithm.

5. the method according to any one of claims 1 to 3, is characterized in that, the physiological parameter information of the described described student mark of described student, homogeneous got and locating information carry out comprising after binding stores:

Receive student's physiological parameter information query statement, wherein, described student's physiological parameter information query statement comprises: the mark of time period and student to be checked;

According to mark and the described time period of described student to be checked, search the interior physiological parameter information relevant to described student to be checked of described time period and the locating information of storage;

Show the interior physiological parameter information relevant to described student to be checked of the described time period found and locating information.

6. a physical health of students monitoring system, is characterized in that, comprising:

Information acquisition subsystem, for when student movement, the physiological parameter information of student described in Real-time Obtaining and the locating information of described student, wherein, described physiological parameter information comprises one or more information following: heart rate information, blood pressure information, body temperature information and pulse information, and described locating information comprises: positioning time point and described positioning time point position the positional information obtained;

Storage subsystem, for after the locating information of the physiological parameter information and described student that get described student at every turn, the physiological parameter information of the described student mark of described student, homogeneous got and locating information are carried out binding and are stored.

7. physical health of students monitoring system according to claim 6, is characterized in that, described information acquisition subsystem specifically comprises:

Be worn on student's wearable device with it, location-server and at least three interconnected and synchronous base stations, wherein, the mark of described wearable device and described student is bound;

Described wearable device is used for: the physiological parameter information gathering described student, and the physiological parameter information of described student is sent to described location-server; Ultra-wideband pulse signal is sent to described at least three base stations;

Described base station is used for: receive the ultra-wideband pulse signal that described wearable device sends, and the moment received from the ultra-wideband pulse signal of described wearable device is sent to described location-server;

Described location-server is used for: position described student according to the moment that described at least three base stations receive separately from the ultra-wideband pulse signal of described wearable device, generate the locating information of this location, wherein, some positioning time of this location is the described time point positioned described student of described location-server execution.

8. physical health of students monitoring system according to claim 7, is characterized in that,

Described storage subsystem is stored in the data base of described location-server specifically for: the physiological parameter information of the described student mark of described student, homogeneous got and locating information binding.

9. the physical health of students monitoring system according to claim 7 or 8, it is characterized in that, described location-server specifically for: according to the moment that location algorithm and described at least three base stations receive separately from the ultra-wideband pulse signal of described wearable device, described student is positioned;

Wherein, described location algorithm comprises the one in following algorithm: reach time algorithm and reach time difference algorithm.

10. according to the physical health of students monitoring system of any one of claim 6 to 8, it is characterized in that, described physical health of students monitoring system also comprises:

Query Subsystem, for: receive student's physiological parameter information query statement, wherein, described student's physiological parameter information query statement comprises: the mark of time period and student to be checked; According to mark and the described time period of described student to be checked, search the interior physiological parameter information relevant to described student to be checked of described time period and the locating information of storage; Show the interior physiological parameter information relevant to described student to be checked of the described time period found and locating information.