CN109009012A - A kind of monitoring control system and method - Google Patents
A kind of monitoring control system and method Download PDFInfo
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- CN109009012A CN109009012A CN201810595572.7A CN201810595572A CN109009012A CN 109009012 A CN109009012 A CN 109009012A CN 201810595572 A CN201810595572 A CN 201810595572A CN 109009012 A CN109009012 A CN 109009012A
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B5/00—Measuring for diagnostic purposes; Identification of persons
- A61B5/02—Detecting, measuring or recording pulse, heart rate, blood pressure or blood flow; Combined pulse/heart-rate/blood pressure determination; Evaluating a cardiovascular condition not otherwise provided for, e.g. using combinations of techniques provided for in this group with electrocardiography or electroauscultation; Heart catheters for measuring blood pressure
- A61B5/0205—Simultaneously evaluating both cardiovascular conditions and different types of body conditions, e.g. heart and respiratory condition
- A61B5/02055—Simultaneously evaluating both cardiovascular condition and temperature
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B5/00—Measuring for diagnostic purposes; Identification of persons
- A61B5/0002—Remote monitoring of patients using telemetry, e.g. transmission of vital signals via a communication network
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B5/00—Measuring for diagnostic purposes; Identification of persons
- A61B5/145—Measuring characteristics of blood in vivo, e.g. gas concentration, pH value; Measuring characteristics of body fluids or tissues, e.g. interstitial fluid, cerebral tissue
- A61B5/14542—Measuring characteristics of blood in vivo, e.g. gas concentration, pH value; Measuring characteristics of body fluids or tissues, e.g. interstitial fluid, cerebral tissue for measuring blood gases
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B5/00—Measuring for diagnostic purposes; Identification of persons
- A61B5/24—Detecting, measuring or recording bioelectric or biomagnetic signals of the body or parts thereof
- A61B5/316—Modalities, i.e. specific diagnostic methods
- A61B5/318—Heart-related electrical modalities, e.g. electrocardiography [ECG]
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Abstract
The embodiment of the invention discloses a kind of monitoring control system and methods, and the system comprises monitoring data collection device, wearable device and servers;The wearable device, for acquiring the physiological parameter of guardianship in real time;The monitoring data collection device, the range information of physiological parameter and the monitoring data collection device and the wearable device on real-time or timing acquisition wearable device, and the physiological parameter and the range information are sent to server simultaneously;The server, for receiving the physiological parameter and the range information that the monitoring data collection device is sent, the location information of wearable device is calculated according to the range information, and the physiological parameter and the location information are sent to the held intelligent terminal of monitoring administration personnel in real time.Technical solution provided in an embodiment of the present invention, can physiological parameter to guardianship and position carry out accurate effective monitoring simultaneously.
Description
Technical field
The present embodiments relate to monitoring technology field more particularly to a kind of monitoring control systems and method.
Background technique
With the development of Chinese society doctrine market economy, medical-risk event, the unsafe factor of patient are constantly increasing
Add, has caused the common concern of society.According to incompletely statistics, about 200,000 inpatients are died of safety management in institute and are asked every year
Topic, doctor-patient relationship also be becoming tight by day.The missing of healthcare, the radix of China patient is huge to cause medical treatment and nursing to be especially
Supply falls short of demand for safely and effectively nursing, and quality of medical and nursing each department are irregular.Medical treatment and nursing labour is strong, and operating pressure is big,
Artificial nursing efficiency is low, is a universal status of current inpatient's management.Especially in orthopaedics, neurology department, rehabilitation department
Equal wards, clinical treatment encourage patient activity, however since the nursing to patient is inconsiderate, inaccurately often lead to patient occur to fall
, the generation of pressure sore event, What is more the phenomenon that cardiac arrest occur and cannot timely giving treatment to, to occur serious
Medical tangle.
Based on this, in order to meet clinical treatment, strict prison is carried out to patient during encouraging patient activity
Control provides the Safety actuality of patient for each medical staff in time, accomplishes that security incident is handled in time, even advanced processing,
It is necessary to be designed based on the safe and effective theory for managing and precisely giving treatment to, one kind is provided safely and effectively for inpatient
Guard control system and method.
Summary of the invention
The purpose of the embodiment of the present invention is that providing a kind of monitoring control system and method, guardianship can be carried out accurate
Effective monitoring.
On the one hand, the embodiment of the invention provides a kind of monitoring control system, including it is monitoring data collection device, wearable
Equipment and server;
The wearable device, for acquiring the physiological parameter of guardianship in real time;
The monitoring data collection device, physiological parameter on real-time or timing acquisition wearable device and described
The range information of monitoring data collection device and the wearable device, and simultaneously by the physiological parameter and the range information
It is sent to server;
The server, for receiving the physiological parameter and the distance letter that the monitoring data collection device is sent
Breath calculates the location information of wearable device according to the range information, and the physiological parameter and the location information is real
When be sent to the held intelligent terminal of monitoring administration personnel.
On the other hand, the embodiment of the invention provides a kind of monitoring control methods, comprising:
Wearable device in real time or timing acquiring guardianship physiological parameter;
Monitoring data collection device is in real time or the physiological parameter on timing acquisition wearable device and the monitoring data
The range information of collector and the wearable device, and the physiological parameter and range information are sent to server simultaneously;
Server receives the physiological parameter and the range information that the monitoring data collection device is sent, according to institute
It states range information and calculates the location information of wearable device, and the physiological parameter and the location information are sent to monitoring in real time
The held intelligent terminal of administrative staff.
Monitoring control program provided in an embodiment of the present invention is adopted in real time by the wearable device worn by guardianship
The physiological parameter for collecting guardianship, in real time or timing acquisition can be worn by the monitoring data collection device that is arranged in monitoring space
Wear the range information of the physiological parameter and the monitoring data collection device and the wearable device in equipment, and by the life
Reason parameter and the range information are sent to server simultaneously, and calculate wearable device according to the range information by server
Location information, and the physiological parameter and the location information are sent to the held intelligent terminal of monitoring administration personnel in real time,
Can physiological parameter to guardianship and position carry out accurate effective monitoring simultaneously.
Detailed description of the invention
Fig. 1 is a kind of structural schematic diagram for monitoring control system that the embodiment of the present invention one provides;
Fig. 2 is a kind of schematic diagram in monitoring space that the embodiment of the present invention one provides;
Fig. 3 is a kind of another structural schematic diagram for monitoring control system that the embodiment of the present invention one provides;
Fig. 4 is a kind of flow diagram for guarding control method provided by Embodiment 2 of the present invention;
Fig. 5 is two-dimensional surface schematic diagram of the wearable device 1 provided by Embodiment 2 of the present invention in monitoring space;
Fig. 6 is another two-dimensional surface schematic diagram of the wearable device provided by Embodiment 2 of the present invention in monitoring space.
Specific embodiment
To further illustrate the technical scheme of the present invention below with reference to the accompanying drawings and specific embodiments.It is understood that
It is that specific embodiment described herein is used only for explaining the present invention rather than limiting the invention.It further needs exist for illustrating
, only the parts related to the present invention are shown for ease of description, in attached drawing rather than entire infrastructure.
It should be mentioned that some exemplary embodiments are described as before exemplary embodiment is discussed in greater detail
The processing or method described as flow chart.Although each step is described as the processing of sequence by flow chart, many of these
Step can be implemented concurrently, concomitantly or simultaneously.In addition, the sequence of each step can be rearranged.When its operation
The processing can be terminated when completion, it is also possible to have the additional step being not included in attached drawing.The processing can be with
Corresponding to method, function, regulation, subroutine, subprogram etc..
Embodiment one
Fig. 1 gives a kind of structural schematic diagram of monitoring control system of the offer of the embodiment of the present invention one, as shown in Figure 1,
Monitoring control system provided in this embodiment includes monitoring data collection device 11, wearable device 12 and server 13.
The wearable device 11, for acquiring the physiological parameter of guardianship in real time;The monitoring data collection device
12, physiological parameter and the monitoring data collection device on real-time or timing acquisition wearable device are worn with described
The range information of equipment is worn, and the physiological parameter and the range information are sent to server simultaneously;The server 13,
For receiving the physiological parameter and the range information that the monitoring data collection device is sent, according to the range information
The location information of wearable device is calculated, and the physiological parameter and the location information are sent to monitoring administration personnel in real time
Held intelligent terminal.The monitoring data collection device, can by the way that physiological parameter and range information are sent to server simultaneously
So that server gets physiological parameter and range information simultaneously, avoid only getting physiological parameter or range information or
Physiological parameter and range information are got in different time, causing cannot be according to physiological parameter and range information timely to monitoring
The problem of care situations of object make accurate feedback.
Optionally, the monitoring data collection device and wearable device pass through ultra-wide band (Ultra Wideband, UWB)
Wireless communication.The monitoring data collection device and the transfer server by optical fiber connection communication or pass through wireless connection
Communication.
Optionally, it is provided with wireless communication module on the wearable device, for holding in guardianship and guardianship
When the distance of carrier is less than set distance, physiological parameter is sent to the controller of guardianship supporting body.Wherein, the monitoring
Object supporting body can be hospital bed, seat etc., detect guardianship at a distance from guardianship supporting body in wearable device
When less than set distance, such as when guardianship is close to hospital bed, the physiological parameter of patient is sent to the controller near hospital bed,
Connected display is controlled by controller to show the physiological parameter, and detailed treatment meter can be shown to user
It draws.
Optionally, it is provided with wireless charging module on the wearable device, for carrying out nothing to the wearable device
Line charge electricity.
Optionally, the server includes director server and at least one the transfer service for being connected to the director server
Device;The transfer server, the physiological parameter and described that the monitoring data collection device for obtaining setting specification is sent
Range information, and calculate according to the range information location information of wearable device, by the physiological parameter of wearable device and
Location information is sent to director server;The director server, for receiving wearing at least one transfer server transmission
The physiological parameter and location information for wearing equipment are sent to the held terminal of monitoring administration personnel in real time.Wherein, the setting specification can
Think setting quantity or setting regions range, illustratively, the transfer server can be with setting quantity or setting area
The monitoring data collection device connection of (for example, several ward area ranges), obtains the setting quantity or setting within the scope of domain
The physiological parameter and location information of the wearable device of monitoring data collection device acquisition in regional scope.
Wherein, the physiological parameter includes blood pressure, blood oxygen, electrocardio and body temperature, the corresponding monitoring data collection device
Including blood pressure monitoring data collection device, the blood for acquiring guardianship blood oxygen parameter for acquiring guardianship blood pressure parameter
Monitoring Oxygen Ventilation data collector, the electrocardio monitoring data collection device for acquiring guardianship EGC parameter and for acquire monitoring pair
As the body temperature monitoring data collection device of body temperature parameter.Wherein, a monitoring data collection device can be by one or more blood pressures
Monitoring data collection device, one or more blood oxygen monitoring data collection device, one or more electrocardio monitoring data collection device
It is constituted with one or more body temperature monitoring data collection device, optionally, a monitoring data collection device can be supervised by a blood pressure
Control data collector, a blood oxygen monitoring data collection device, an electrocardio monitoring data collection device and a body temperature monitoring data
Collector is constituted.
In some embodiments, the blood pressure monitoring data collection device, blood oxygen monitoring data collection device, electrocardio monitor number
According to collector and the common parallelogram of body temperature monitoring data collection device be distributed in monitoring space in, in this way setting the reason of be
The subsequent location information that wearable device can be obtained by each monitoring data collection device of parallelogram.Fig. 2 is provided
The schematic diagram in a kind of monitoring space that the embodiment of the present invention one provides, illustratively, as shown in Fig. 2, the blood pressure monitors number
Prison is located at according to collector, blood oxygen monitoring data collection device, electrocardio monitoring data collection device and body temperature monitoring data collection device
It controls in four angles above the ward of space, forms a rectangle, the monitoring data collection device 1-4 in figure is respectively blood pressure prison
Control one in data collector, blood oxygen monitoring data collection device, electrocardio monitoring data collection device and body temperature monitoring data collection device
It plants and different.
Optionally, monitoring control system provided in this embodiment further includes intelligent terminal, which can be monitoring
The intelligent terminal that administrative staff are held, for obtaining the physiological parameter and location information of wearable device from server, to institute
It states physiological parameter and location information is analyzed, generate rehabilitation exercise plan, drug administration plan, physical examination plan or logical
Know information.The intelligent terminal can be mobile phone, tablet computer or wearable device etc..
Monitoring control system provided in an embodiment of the present invention is applicable to but is not limited to the monitoring field in hospital to patient
Scape, in home for destitute to the monitoring scene of old man or not at the prison to the monitoring scene of convict.Correspondingly, the monitoring space packet
It includes but is not limited to room (such as ward, prison house), corridor or hall.
Below to be illustrated for hospital is to the monitoring scene of patient to monitoring control system provided in this embodiment.
Fig. 3 gives the structural schematic diagram of another monitoring control system of the offer of the embodiment of the present invention one.As shown in figure 3, the prison
Protecting control system includes monitoring data collection device, wearable device, transfer server, director server and intelligent terminal.Wherein,
Monitoring data collection device includes monitoring data collection device 1, monitoring data collection device 2, monitoring data collection device 3 and monitoring data
Collector 4, and monitoring data collection device 1, monitoring data collection device 2, monitoring data collection device 3 and monitoring data collection device 4 divide
Not Wei blood pressure monitoring data collection device, blood oxygen monitoring data collection device, electrocardio monitoring data collection device and body temperature monitoring data adopt
One of storage and different.Monitoring data collection device 1, monitoring data collection device 2, monitoring data collection device 3 and monitoring
Data collector 4 is separately positioned on four angles at the top of monitoring space ward, is rectangle.Wearable device obtains prison in real time
Blood pressure, blood oxygen, electrocardio and the body temperature physiological parameter of subject patient are protected, and is sent to blood pressure monitoring data collection device, blood oxygen monitoring
Data collector, electrocardio monitoring data collection device and body temperature monitoring data collection device.Monitoring data collection device and transfer service
Device is connected by optical fiber, the physiological parameter and monitoring data collection device of the wearable device that monitoring data collection device will acquire
Transfer server is sent to the range information of wearable device.Each transfer server is connect with server, according to getting
Monitoring data collection device and the range information of wearable device calculate location information of the wearable device in monitoring space, and
The physiological parameter that will acquire and the location information being calculated are sent to server.Server and monitoring administration personnel example
The intelligent terminal held such as doctor, nurse etc. is attached communication by internet, and server is by physiological parameter and location information
It is sent to the intelligent terminal.
Monitoring control system provided in this embodiment, the wearable device worn including guardianship, setting are monitoring
Monitoring data collection device and server in space, wearable device acquire the physiological parameter of guardianship in real time, monitor number
According to acquisition device in real time or timing acquisition wearable device on physiological parameter and the monitoring data collection device with it is described
The range information of wearable device, and the physiological parameter and the range information are sent to server, server root simultaneously
The location information of wearable device is calculated according to the range information, and the physiological parameter and the location information are sent in real time
To the held intelligent terminal of monitoring administration personnel, can physiological parameter to guardianship and position carry out precisely effective prison simultaneously
Control.
Embodiment two
Fig. 4 gives a kind of flow diagram for guarding control method provided by Embodiment 2 of the present invention.As shown in figure 4,
Monitoring control method provided by Embodiment 2 of the present invention the following steps are included:
Step 101, wearable device in real time or timing acquiring guardianship physiological parameter.
Wherein, the physiological parameter may include blood pressure, blood oxygen, electrocardio and body temperature.
Step 102, monitoring data collection device are in real time or the physiological parameter on timing acquisition wearable device and described
The range information of monitoring data collection device and the wearable device, and the physiological parameter and range information are sent to simultaneously
Server.
The monitoring data collection device may include adopting for acquiring the blood pressure monitoring data of guardianship blood pressure parameter
Storage, the blood oxygen monitoring data collection device for acquiring guardianship blood oxygen parameter, for acquiring guardianship EGC parameter
Electrocardio monitoring data collection device and body temperature monitoring data collection device for acquiring guardianship body temperature parameter.
In some embodiments, the acquisition device may include blood pressure monitoring data collection device, blood oxygen monitoring data
Collector, electrocardio monitoring data collection device and body temperature monitoring data collection device each one, the blood pressure monitoring data collection device, blood
Monitoring Oxygen Ventilation data collector, electrocardio monitoring data collection device and the common parallelogram of body temperature monitoring data collection device are distributed in
It guards in space.The range information of the monitoring data collection device and the wearable device includes blood pressure monitoring data collection
The distance between the distance between device and wearable device information, blood oxygen monitoring data collection device and wearable device information, the heart
The distance between electric monitoring data collection device and wearable device information and body temperature monitoring data collection device and wearable device it
Between range information.
Step 103, server receive the physiological parameter that the monitoring data collection device is sent and the distance letter
Breath calculates the location information of wearable device according to the range information, and the physiological parameter and the location information is real-time
It is sent to the held intelligent terminal of monitoring administration personnel.
Wherein, the server may include director server and at least one transfer server, and the corresponding step 103 can
Believed with the physiological parameter and the distance that include: the monitoring data collection device transmission that transfer server obtains setting specification
Breath, and according to the location information of range information calculating wearable device, the physiological parameter of wearable device and position are believed
Breath is sent to director server;Director server receives the physiological parameter for the wearable device that at least one described transfer server is sent
And location information, it is sent to the held terminal of monitoring administration personnel in real time.
Optionally, the method also includes following steps: the wearable device determines composition positioning according to predetermined manner
The monitoring data collection device of network unit.Monitoring control method provided in an embodiment of the present invention further includes that wearable device is automatic
The step of monitoring data collection device is found to form the monitoring data collection device of positioning network unit.It is described according to predetermined manner
Determine that the monitoring data collection device of composition positioning network unit can be with are as follows: the detection broadcast of wearable device strength of transmitted signals,
The broadcast response message returned according to each monitoring data collection device makees the maximum blood pressure monitoring data collection device of signal strength
The blood pressure monitoring data collection device in network unit is positioned for the wearable device, is determined in the positioning network unit accordingly
Blood oxygen monitoring data collection device, electrocardio monitoring data collection device and body temperature monitoring data collection device.Different wearable devices can
It can be located in same positioning network unit simultaneously, illustratively, as shown in figure 3, monitoring data collection device 1-4 composition ward 1 is fixed
Monitoring data collection device in the network unit of position, has wearable device 1 and wearable device 2 in the ward 1.Difference positioning network
Unit may include shared monitoring data collection device.
Since wearable device is moveable, so the monitoring data collection in the positioning network unit of wearable device
Device may be variation, correspondingly, method provided in this embodiment can be the following steps are included: wearable device detecting
The signal strength for positioning monitoring data collection device farthest apart from wearable device in network unit is lower than threshold value, then passes through broadcast
Mode find signal strength identical with the farthest monitoring data collection device type be greater than threshold value monitoring data collection
Device substitutes the farthest monitoring data collection device.The type is blood pressure, blood oxygen, electrocardio or body temperature.
The monitoring data collection device may include at least one blood pressure monitoring data collection device, at least one blood oxygen prison
Control data collector, at least one electrocardio monitoring data collection device and at least one body temperature monitoring data collection device.Correspondingly, institute
State real-time monitoring data collection device or the physiological parameter on timing acquisition wearable device and the monitoring data collection device
Range information with the wearable device may include: each monitoring data collection device in the monitoring data collection device
In real time or timing sends monitoring data collection broadcast in corresponding positioning network unit;Each monitoring data is adopted
Storage records respective broadcast transmission time and broadcast response receiving time, when according to the broadcast transmission time and broadcast reception
Between and the aerial spread speed of radio wave, obtain each monitoring data collection device respectively with wearable device
Range information, and obtain the mark and corresponding physiological parameter of wearable device in the corresponding positioning network unit.
Illustratively, as shown in Figure 3, it is assumed that the monitoring data collection device 1 in positioning network unit ward 1 is blood pressure monitoring
Data collector, monitoring data collection device 2 are blood oxygen monitoring data collection device, and monitoring data collection device 3 is electrocardio monitoring data
Collector, monitoring data collection device 4 are body temperature monitoring data collection device.Monitoring data collection device 1 sends monitoring number in ward 1
It is broadcasted according to acquisition, the response broadcast of wearable device 1 sends the mark of wearable device 1 to monitoring data collection device 1 and collects
Blood pressure parameter, wearable device 2 response broadcast, to monitoring data collection device 1 send wearable device 2 mark and collect
Blood pressure parameter, corresponding monitoring data collection device 1 got in ward 1 blood pressure information of wearable device 1 and wearable
The blood pressure information of equipment 2, and according to broadcast transmission time T1 and receive wearable device 1 broadcast response receiving time T2 with
And the aerial spread speed V of radio wave, obtain the distance between monitoring data collection device 1 and wearable device 1 L=
(T2-T1) * V, similar obtains the distance between monitoring data collection device 1 and wearable device 2.Based on identical principle, prison
Control data collector 2 sends monitoring data collection in ward 1 and broadcasts, and obtains the blood oxygen parameter of wearable device 1 and wearable
The blood oxygen parameter and monitoring data collection device 2 of equipment 2 arrive the distance between wearable device 1 and between wearable devices 2
Distance.Based on identical principle, monitoring data collection device 3 sends monitoring data collection broadcast in ward 1, obtains wearable
The EGC parameter of equipment 1 and the EGC parameter of wearable device 2 and monitoring data collection device 3 are between wearable device 1
Distance and the distance between to wearable device 2.Based on identical principle, monitoring data collection device 4 sends monitoring in ward 1
Data acquisition broadcast, the body temperature parameter and monitoring data of the body temperature parameter and wearable device 2 that obtain wearable device 1 are adopted
Storage 4 is the distance between to the distance between wearable device 1 and to wearable device 2.
It, can be with below be illustrated the step of guarding the location information in space in Fig. 2 to calculating wearable device 1
What is understood is that the positional information calculation process of wearable device 2 or other wearable devices in monitoring space is similar.It can
Choosing, the positioning network unit where the wearable device 1 may include blood pressure monitoring data collection device, blood oxygen monitoring data
Collector, electrocardio monitoring data collection device and body temperature monitoring data collection device each one.Correspondingly, the range information includes the
First distance L1, the second monitoring data collection device 2 between one monitoring data collection device 1 and wearable device 1 are set with wearable
Second distance L2, third monitoring data collection device 3 between standby 1 and the prison of the third distance L3 between wearable device 1 and the 4th
The 4th distance L4 between data collector 4 and wearable device 1 is controlled, wherein the first monitoring data collection device 1 is positioning
Farthest apart from wearable device 1 in network unit, the second monitoring data collection device 2 distance in positioning network unit can be worn
Wear equipment 1 time far, the third monitoring data collection device 3 is remote apart from 1 third of wearable device in positioning network unit, described
4th monitoring data collection device 4 is nearest apart from wearable device 1 in positioning network unit.
So, the server may include: according to institute according to the location information that the range information calculates wearable device 1
It states first distance L1, second distance L2, third distance L3 and the 4th distance L4 and long back gauge LX and short side distance LY is calculated
Location information of the wearable device 1 in monitoring space, the long back gauge LX is the monitoring number for constituting the parallelogram
According to the distance between the first monitoring data collection device 1 and the second monitoring data collection device 2, the short side described in collector
Distance LY is to constitute the first monitoring data collection device 1 described in the monitoring data collection device of the parallelogram to monitor with third
The distance between data collector 3.
It is described according to the first distance L1, second distance L2, third distance L3 and the 4th distance L4 and long back gauge
It includes: according to described first that LX and short side distance LY, which calculates location information P (X, Y, Z) of the wearable device 1 in monitoring space,
The first triangle that distance L1, second distance L2 and long back gauge LX are constituted calculates first triangle with the long side
Distance LX is the first high HX1 on bottom edge;The two or three constituted according to the third distance L3, the 4th distance L4 and long back gauge LX
It is angular, second triangle is calculated using the long back gauge LX as the second high HX2 on bottom edge;According to the described first high HX1,
The third triangle that two high HX2 and short side distance LY are constituted, calculates the third triangle using the short side distance LY as bottom edge
The high HY of third, according to the high HY of the third determine the wearable device 1 monitoring space in Z axis coordinate.Wherein, described
Determine that Z axis coordinate of the wearable device 1 in monitoring space may include: the difference by Hg and HY according to the high HY of the third
Z axis coordinate of the value as the wearable device 1 in monitoring space, the Hg for monitoring data collection device to ground away from
From.
Fig. 5 gives two-dimensional surface schematic diagram of the wearable device 1 provided by Embodiment 2 of the present invention in monitoring space.
As shown in figure 5, according to the high HY of the third, first distance L1 and the first intermediate distance LL1 constitute with the first distance L1
For the first right angled triangle of bevel edge, first intermediate distance is calculatedSimilarly, according to described
Three high HY, second distance L2 and the second intermediate distance LL2 constitute using the second distance L2 as the second right angle trigonometry of bevel edge
Shape calculates second intermediate distanceAccording in the high HY of the third, third distance L3 and third
Between distance LL3 constitute using the third distance L3 as the third right angled triangle of bevel edge, calculate the third intermediate distanceAccording to the high HY of the third, the 4th distance L4 and the 4th intermediate distance LL4 constitute with described the
Four the 4th right angled triangles apart from a height of bevel edge calculates the 4th intermediate distanceWherein, scheme
Middle G1 indicates the ground of monitoring space, and Hg indicates monitoring data collection device to the height on ground.
Fig. 6 gives another two-dimensional surface signal of the wearable device provided by Embodiment 2 of the present invention in monitoring space
Figure.As shown in fig. 6, the constituted according to the first intermediate distance LL1, third intermediate distance LL3 and short side distance LY the 4th 3
Angular, calculate the 4th triangle the 4th is high, as X axis coordinate of the wearable device in monitoring space, alternatively,
According to the 5th triangle that the second intermediate distance LL2, the 4th intermediate distance LL4 and short side distance LY are constituted, described in calculating
The 5th of 5th triangle is high, as X axis coordinate of the wearable device in monitoring space;According to first medium spacing
From the 6th triangle that LL1, the second intermediate distance LL2 and long back gauge LX are constituted, calculate the 6th triangle the 6th is high,
As Y axis coordinate of the wearable device in monitoring space, alternatively, among according to the third intermediate distance LL3, the 4th
The 7th triangle that distance LL4 and long back gauge LX is constituted, calculate the 7th triangle the 7th is high, as described wearable
Y axis coordinate of the equipment in monitoring space.
Monitoring control method provided in this embodiment acquires prison by the wearable device worn by guardianship in real time
The physiological parameter for protecting object, it is real-time by the monitoring data collection device being arranged in monitoring space or timing acquisition is wearable sets
The range information of standby upper physiological parameter and the monitoring data collection device and the wearable device, and the physiology is joined
The several and range information is sent to server simultaneously, and calculates the position of wearable device according to the range information by server
Confidence breath, and is sent to the held intelligent terminal of monitoring administration personnel for the physiological parameter and the location information in real time, can be with
Physiological parameter and position to guardianship carry out accurate effective monitoring simultaneously.
Note that the above is only a better embodiment of the present invention and the applied technical principle.It will be appreciated by those skilled in the art that
The invention is not limited to the specific embodiments described herein, be able to carry out for a person skilled in the art it is various it is apparent variation,
It readjusts and substitutes without departing from protection scope of the present invention.Therefore, although being carried out by above embodiments to the present invention
It is described in further detail, but the present invention is not limited to the above embodiments only, without departing from the inventive concept, also
It may include more other equivalent embodiments, and the scope of the invention is determined by the scope of the appended claims.
Claims (10)
1. a kind of monitoring control system, which is characterized in that including monitoring data collection device, wearable device and server;
The wearable device, for acquiring the physiological parameter of guardianship in real time;
The monitoring data collection device, physiological parameter and the monitoring on real-time or timing acquisition wearable device
The range information of data acquisition device and the wearable device, and the physiological parameter and the range information are sent simultaneously
To server;
The server, for receiving the physiological parameter and the range information that the monitoring data collection device is sent,
The location information of wearable device is calculated according to the range information, and the physiological parameter and the location information are sent out in real time
It send to the held intelligent terminal of monitoring administration personnel.
2. system according to claim 1, which is characterized in that the server includes director server and is connected to described total
At least one transfer server of server;
The transfer server, the physiological parameter and described that the monitoring data collection device for obtaining setting specification is sent
Range information, and calculate according to the range information location information of wearable device, by the physiological parameter of wearable device and
Location information is sent to director server;
The director server, for receiving physiological parameter and the position of the wearable device that at least one described transfer server is sent
Confidence breath, is sent to the held terminal of monitoring administration personnel in real time.
3. system according to claim 1, which is characterized in that the physiological parameter includes blood pressure, blood oxygen, electrocardio and body
Temperature, the corresponding monitoring data collection device include blood pressure monitoring data collection device, blood oxygen monitoring data collection device, electrocardio prison
Control data collector and body temperature monitoring data collection device.
4. system according to claim 3, which is characterized in that the blood pressure monitoring data collection device, blood oxygen monitoring data
Collector, electrocardio monitoring data collection device and the common parallelogram of body temperature monitoring data collection device are distributed in monitoring space
It is interior.
5. system according to claim 1, which is characterized in that it further include intelligent terminal, it can for being obtained from server
The physiological parameter and location information of wearable device, analyze the physiological parameter and location information, generate rehabilitation exercise meter
It draws, drug administration plan, physical examination plan or notification information.
6. a kind of monitoring control method based on monitoring control system as described in any one in claim 1-5, which is characterized in that
Include:
Wearable device in real time or timing acquiring guardianship physiological parameter;
Monitoring data collection device is in real time or physiological parameter and the monitoring data described in timing acquisition on wearable device
The range information of collector and the wearable device, and the physiological parameter and range information are sent to server simultaneously;
Server receives the physiological parameter and the range information that the monitoring data collection device is sent, according to it is described away from
From the location information that information calculates wearable device, and the physiological parameter and the location information are sent to monitoring administration in real time
The held intelligent terminal of personnel.
7. according to the method described in claim 6, it is characterized in that, the physiological parameter includes blood pressure, blood oxygen, electrocardio and body
Temperature, the corresponding monitoring data collection device include blood pressure monitoring data collection device, blood oxygen monitoring data collection device, electrocardio prison
Control data collector and body temperature monitoring data collection device;The blood pressure monitoring data collection device, blood oxygen monitoring data collection device, the heart
Electric monitoring data collection device and the common parallelogram of body temperature monitoring data collection device are distributed in monitoring space.
8. the method according to the description of claim 7 is characterized in that further include: the wearable device is true according to predetermined manner
The monitoring data collection device of fixed composition positioning network unit, the monitoring data collection device include the monitoring of at least one blood pressure
Data collector, at least one blood oxygen monitoring data collection device, at least one electrocardio monitoring data collection device and at least one body
Warm monitoring data collection device;
The monitoring data collection device is in real time or the physiological parameter on timing acquisition wearable device and the monitoring data
The range information of collector and the wearable device includes:
Each monitoring data collection device in the monitoring data collection device is in real time or timing is in corresponding positioning net
Monitoring data collection broadcast is sent in network unit;
Each monitoring data collection device records respective broadcast transmission time and broadcast response receiving time, according to described wide
Sending time and broadcast reception time and the aerial spread speed of radio wave are broadcast, each monitoring data is obtained and adopts
Storage respectively with the range information of wearable device, and obtain it is described it is corresponding positioning network unit in wearable device mark
With corresponding physiological parameter.
9. according to the method described in claim 8, it is characterized in that, the prison of the positioning network unit where the wearable device
Control data acquisition device include blood pressure monitoring data collection device, blood oxygen monitoring data collection device, electrocardio monitoring data collection device and
Body temperature monitoring data collection device each one, the range information includes between the first monitoring data collection device and wearable device
Second distance, third monitoring data collection device between first distance, the second monitoring data collection device and wearable device with can
The 4th distance between third distance and the 4th monitoring data collection device and wearable device between wearable device, described first
Monitoring data collection device is farthest apart from wearable device in positioning network unit, and the second monitoring data collection device is positioning
Remote apart from wearable device time in network unit, third monitoring data collection device distance in positioning network unit is wearable
Equipment third is remote, the 4th monitoring data collection device, service nearest apart from wearable device in positioning network unit
Device according to the range information calculate wearable device location information include:
Being calculated according to the first distance, second distance, third distance and the 4th distance and long back gauge and short side distance can
Location information of the wearable device in monitoring space, the long back gauge is the monitoring data collection for constituting the parallelogram
The distance between first monitoring data collection device and the second monitoring data collection device described in device, the short side distance is structure
First monitoring data collection device described in monitoring data collection device at the parallelogram and third monitoring data collection device
The distance between.
10. according to the method described in claim 9, it is characterized in that, described according to the first distance, second distance, third
Distance and the 4th distance and long back gauge and short side distance calculate location information of the wearable device in monitoring space and include:
According to the first triangle that the first distance, second distance and long back gauge are constituted, first triangle is calculated
Using the long back gauge as the first high of bottom edge;
According to the second triangle that third distance, the 4th distance and long back gauge are constituted, calculate second triangle with
The long back gauge is the second high of bottom edge;
According to described first high, the second high and short side distance composition third triangle, the third triangle is calculated with described
Short side distance is that the third on bottom edge is high, determines Z axis coordinate of the wearable device in monitoring space according to the third height;
According to the third height, first distance and the first intermediate distance composition using the first distance as the first right angle of bevel edge
Triangle calculates first intermediate distance;
According to the third height, second distance and the second intermediate distance composition using the second distance as the second right angle of bevel edge
Triangle calculates second intermediate distance;
According to the third height, third distance and third intermediate distance composition using the third distance as the third right angle of bevel edge
Triangle calculates the third intermediate distance;
According to the third height, the 4th distance and the 4th intermediate distance composition using the 4th distance as the 4th right angle of bevel edge
Triangle calculates the 4th intermediate distance;
According to the 4th triangle that first intermediate distance, third intermediate distance and short side distance are constituted, the described 4th is calculated
The 4th of triangle is high, as X axis coordinate of the wearable device in monitoring space, alternatively, according among described second
The 5th triangle that distance, the 4th intermediate distance and short side distance are constituted, calculate the 5th triangle the 5th is high, as institute
State X axis coordinate of the wearable device in monitoring space;
According to the 6th triangle that first intermediate distance, the second intermediate distance and long back gauge are constituted, the described 6th is calculated
The 6th of triangle is high, as Y axis coordinate of the wearable device in monitoring space, alternatively, among according to the third
The 7th triangle that distance, the 4th intermediate distance and long back gauge are constituted, calculate the 7th triangle the 7th is high, as institute
State Y axis coordinate of the wearable device in monitoring space.
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