CN105591966B - Central monitoring system network communication method and system - Google Patents
Central monitoring system network communication method and system Download PDFInfo
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- CN105591966B CN105591966B CN201610070534.0A CN201610070534A CN105591966B CN 105591966 B CN105591966 B CN 105591966B CN 201610070534 A CN201610070534 A CN 201610070534A CN 105591966 B CN105591966 B CN 105591966B
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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
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L47/00—Traffic control in data switching networks
- H04L47/10—Flow control; Congestion control
- H04L47/12—Avoiding congestion; Recovering from congestion
- H04L47/125—Avoiding congestion; Recovering from congestion by balancing the load, e.g. traffic engineering
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06Q—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
- G06Q50/00—Systems or methods specially adapted for specific business sectors, e.g. utilities or tourism
- G06Q50/10—Services
- G06Q50/22—Social work
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L67/00—Network arrangements or protocols for supporting network services or applications
- H04L67/50—Network services
- H04L67/56—Provisioning of proxy services
- H04L67/565—Conversion or adaptation of application format or content
- H04L67/5651—Reducing the amount or size of exchanged application data
Abstract
The present invention relates to a kind of central monitoring system network communication method and systems, and received transmission data are divided into timing acquiring data and parameter setting data.Timing acquiring data and parameter setting data are split according to preset capacity threshold, it is corresponding to obtain acquisition data packet and parameter setting packet;Central monitoring system is sent to using parameter setting packet as initial parameter setting packet;Acquisition data packet is sent to central monitoring system by timing.Parameter change setting instruction is received, is modified according to parameter change setting instruction to corresponding parameter setting packet, and modified parameter setting packet is sent to central monitoring system.Transmission data are classified and are sent in batches after splitting into acquisition data packet and parameter setting packet, avoids data volume excessive and increases communications burden.When needing to be configured parameter modification, the parameter setting packet after change need to be only sent to central monitoring system, reduce data transmission quantity in communication process, network bandwidth flow and communication cost is saved, equally reduce communications burden.
Description
Technical field
The present invention relates to medical monitoring arts fields, more particularly to a kind of central monitoring system network communication method and are
System.
Background technique
In the medical field, central monitoring system obtains a variety of monitored signals and carries out Centralized Monitoring management, in medical monitoring
In play an important role.In patient monitor and central monitoring system communication process, both sides' sending and receiving data of communication will follow unification
Communication protocol, data could be explained correctly to reaching data exchange.
Traditional central monitoring system network communication mode is designed as when handling monitoring data and setting operation data
One big data packet, for example breathing related data and their alarm upper lower limit value are designed to that a big packet is sent together,
The alarm setting of all parameters is also designed to that one big packet is sent together.This design method occupies network bandwidth flow,
Communication cost is wasted, especially for central monitoring system, while guarding patient monitor up to a hundred, it is negative to increase communication bring
Load.
Summary of the invention
Based on this, it is necessary in view of the above-mentioned problems, it is logical to provide a kind of central monitoring system network that can reduce communications burden
Believe method and system.
A kind of central monitoring system network communication method, comprising the following steps:
Transmission data are received, and the transmission data are divided into timing acquiring data and parameter setting data;
The timing acquiring data and parameter setting data are split according to preset capacity threshold, correspondence is adopted
Collect data packet and parameter setting packet;
Central monitoring system is sent to using the parameter setting packet as initial parameter setting packet;
The acquisition data packet is sent to the central monitoring system by timing;
Parameter change setting instruction is received, corresponding parameter setting packet is repaired according to parameter change setting instruction
Change, and modified parameter setting packet is sent to the central monitoring system.
A kind of central monitoring system network communicating system, comprising:
The transmission data for receiving transmission data, and are divided into timing acquiring data and ginseng by data categorization module
Number setting data;
Data split module, for according to preset capacity threshold to the timing acquiring data and parameter setting data into
Row is split, corresponding to obtain acquisition data packet and parameter setting packet;
Initial parameter sending module, for being sent to central monitoring for the parameter setting packet as initial parameter setting packet
System;
Data transmission blocks are acquired, the acquisition data packet is sent to the central monitoring system for timing;
Parameter setting changes module, for receiving parameter change setting instruction, according to parameter change setting instruction pair
Corresponding parameter setting packet is modified, and modified parameter setting packet is sent to the central monitoring system.
Received transmission data are divided into timing acquiring data by above-mentioned central monitoring system network communication method and system
And parameter setting data.Timing acquiring data and parameter setting data are split according to preset capacity threshold, to deserved
To acquisition data packet and parameter setting packet;Central monitoring system is sent to using parameter setting packet as initial parameter setting packet;It is fixed
When will acquisition data packet be sent to central monitoring system.Parameter change setting instruction is received, according to parameter change setting instruction pair
Corresponding parameter setting packet is modified, and modified parameter setting packet is sent to central monitoring system.Data will be transmitted
Classified and sent in batches after splitting into acquisition data packet and parameter setting packet, avoided data volume excessive and increase communication and bear
Load.When needing to be configured parameter modification, the parameter setting packet after change need to be only sent to central monitoring system, reduced logical
Data transmission quantity during letter saves network bandwidth flow and communication cost, equally reduces communications burden.
Detailed description of the invention
Fig. 1 is the flow chart of central monitoring system network communication method in an embodiment;
Fig. 2 is the structure chart of central monitoring system network communicating system in an embodiment.
Specific embodiment
A kind of central monitoring system network communication method, is suitable for patient monitor and central monitoring system carries out data communication.
As shown in Figure 1, the above method the following steps are included:
Step S110: transmission data are received, and transmission data are divided into timing acquiring data and parameter setting data.It passes
Transmission of data refers to the data for needing to be transmitted to central monitoring system, and by taking patient monitor as an example, transmission data may include patient monitor acquisition
Obtained electrocardiogram (ECG) data, breath data and relevant setting parameter.Classified after receiving transmission data according to type,
Obtain timing acquiring data and parameter setting data.Such as using electrocardiogram (ECG) data and breath data as timing acquiring data, by phase
The setting parameter of pass is as parameter setting data.It is appreciated that different according to the type of transmission data, the timing divided is adopted
Collecting data and parameter setting data also can be different.
Timing acquiring data include electrocardiogram (ECG) data, breath data, blood oxygen saturation data in one of the embodiments,
And non-invasive blood pressure data;Parameter setting data includes heart rate alarm setting data, respiratory rate alarm setting data, blood oxygen alarm
Data and non-invasive blood pressure alarm setting data are set.
Equally by taking patient monitor as an example, patient monitor support electrocardio (heart rate, early room number, arrhythmia cordis type, 12 lead
Join Wave data and 12 lead ST values, wherein the alarming value of heart rate and ST are settable: alarm ceiling value, alarm lower limit value, report
Alert rank, alarm switch), breathing (respiratory rate, respiratory waveform data, the alarming value of respiratory rate can be set), blood oxygen saturation it is dense
(diastolic pressure, is averaged at systolic pressure for degree (blood oxygen levels, blood oxygen Wave data, the alarming value of blood oxygen can be set) and non-invasive blood pressure
Pressure, time of measuring, diastolic pressure, systolic pressure, mean pressure alarming value can be separately provided), in addition to non-invasive blood pressure only every time survey
Amount is just sent out outside data, and other is data of hair per second.The data for obtaining patient monitor acquisition, according to respective type to timing
Acquisition data and relevant parameter setting data are classified, and are packaged so that subsequent progress data are split.
Step S120: splitting timing acquiring data and parameter setting data according to preset capacity threshold, corresponding
Obtain acquisition data packet and parameter setting packet.The specific value of capacity threshold can adjust according to the actual situation, to timing acquiring number
Fractionation packing is carried out according to parameter setting data, corresponding acquisition data packet and parameter setting packet are obtained, in subsequent be sent to
It is excessive and increase communications burden to can avoid data volume when entreating monitor system.
It in one of the embodiments, include electrocardiogram (ECG) data, breath data, blood oxygen saturation number with timing acquiring data
Accordingly and non-invasive blood pressure data, parameter setting data include heart rate alarm setting data, respiratory rate alarm setting data, blood oxygen report
Alert setting data and non-invasive blood pressure alarm setting data are corresponding, and step S120 includes step 122 and step 124.
Step 122: according to preset capacity threshold respectively to electrocardiogram (ECG) data, breath data, blood oxygen saturation data with
And non-invasive blood pressure data are split, and corresponding electrocardiogram acquisition data packet, Breath collection data packet, blood oxygen acquisition data packet are obtained
Data packet is acquired with non-invasive blood pressure.Fractionation packing is carried out according to the type of each acquisition data, obtains corresponding acquisition data packet.
Specifically, the data in electrocardiogram acquisition data packet include heart rate, early room number, arrhythmia cordis type, 12 leads
Wave data and ST value;Data in Breath collection data packet include respiratory rate and respiratory waveform data.Blood oxygen acquires data packet
Interior data include blood oxygen levels and blood oxygen Wave data;Non-invasive blood pressure acquisition data packet in data include diastolic pressure, systolic pressure,
Mean pressure and time of measuring.
Step 124: according to capacity threshold respectively to heart rate alarm setting data, respiratory rate alarm setting data, blood oxygen report
Alert setting data and non-invasive blood pressure alarm setting data are split to obtain corresponding parameter setting packet.According to each setting data
Type carries out fractionation packing, obtains corresponding parameter setting packet.
Specifically, parameter setting packet may include parameter type, alarm ceiling value, alarm lower limit value, alert levels and alarm
The length of switch, parameter setting packet is greater than 1 byte.Wherein, parameter type be 1 byte, different values respectively represent heart rate,
ST1 to ST12, respiratory rate, blood oxygen, diastolic pressure, systolic pressure, mean pressure.
Fractionation packing is carried out to timing acquiring data and parameter setting data respectively according to data type in the present embodiment, is obtained
To corresponding acquisition data packet and parameter setting packet for use as subsequent transmission.Different types of data are separately carried out splitting to beat
Packet, if because business needs to increase a kind of parameter, it is other unaffected as long as increasing corresponding data packet, improve operation just
Benefit.
Step S130: central monitoring system is sent to using parameter setting packet as initial parameter setting packet.It is obtained for the first time
When transmitting data, sorts data into all parameter setting packets obtained after splitting and wrapped in whole be sent to as initial parameter setting
Monitor system is entreated, so that central monitoring system carries out parameter setting.
Step S140: acquisition data packet is periodically sent to central monitoring system.Timing will split the acquisition for being packaged and obtaining
Data packet is sent to central monitoring system, so that central monitoring system carries out data monitoring and management.
Electrocardiogram (ECG) data, breath data and blood oxygen saturation data are to acquire in real time in one of the embodiments,
It arrives, non-invasive blood pressure data obtain for timing acquiring.Step S140 includes step 142 and step 144.
Step 142: according to preset time interval periodically by the electrocardiogram acquisition data packet generated in real time, Breath collection data
Packet and blood oxygen acquisition data packet are sent to central monitoring system.The specific value of time interval is adjustable, adopts in real time to data
Collection splits and is packaged, and sends related data packets to central monitoring system every a time interval.
Step 144: the non-invasive blood pressure that is obtained according to the non-invasive blood pressure data of timing acquiring acquisition data packet is sent to
Entreat monitor system.Non-invasive blood pressure data of every acquisition and after carrying out fractionation packing, just acquire number for obtained non-invasive blood pressure
Central monitoring system is sent to according to packet.
Different data transmission method for uplink is used according to the acquisition mode of data in the present embodiment, improves central monitoring system net
Network communicates applicability.
Step S150: receiving parameter change setting instruction, according to parameter change setting instruction to corresponding parameter setting packet
It modifies, and modified parameter setting packet is sent to central monitoring system.
Parameter change setting instruction can specifically be inputted by interactive devices such as keyboard or touch screens.User can be according to practical need
Relevant parameter change setting instruction is inputted, relative parameters setting packet is repaired after receiving parameter change setting instruction
Change, and modified parameter setting packet is sent to central monitoring system.
Since central monitoring system needs while guarding patient monitor up to a hundred, and on clinical manipulation, most of situation is a certain
Only need to change one of parameter setting values or control one of them in time.Only needing when needing to carry out parameter setting will be right
The parameter setting packet that should be modified is sent to central monitoring system, reduces the total amount of data sent, reduces data in communication process
Transmission quantity saves network bandwidth flow and communication cost.
It include equally electrocardiogram (ECG) data, breath data, blood oxygen saturation data and non-invasive blood pressure with timing acquiring data
Data instance, it is assumed that the electrocardiogram acquisition data packet length being packaged is X1, and the length of Breath collection data packet is X2, and blood oxygen is adopted
Integrate the length of data packet as X3, the length that non-invasive blood pressure acquires data packet is X4, and the length of parameter setting packet is X5.User's difference
A heart rate alarm setting, respiratory rate alarm setting, blood oxygen alarm setting, diastolic pressure alarm setting, analysis conventional communication are changed
The data volume that mode and communication means of the invention are sent in 10 seconds.
Traditional communication mode send data be the relevant data of 10 electrocardios (acquisition data packet+heart rate alarm setting packet+
12 lead ST alarm setting packets), 10 the relevant data of breathing (acquisition data packet+respiratory rate alarm setting packet), blood oxygen phases
Close data (acquisition data packet+blood oxygen alarm setting packet), 4 all big packet (18 alarm setting packet=18* (X5- of alarm setting
1) data volume), is sent in total are as follows: 10*X1+10* (X5-1)+10*12* (X5-1)+10*X2+10* (X5-1)+10*X3+10*
(X5-1)+4* (18* (X5-1))=10*X1+10*X2+10*X3+225*X5-225.
Communication means of the invention sends data as initial alarm setting packet (18 settings alarm packets), 10 electrocardios for the first time
It acquires data packet, 10 Breath collection data packets, 10 blood oxygens and acquires data packet, 4 alarm setting packets, send data volume in total
Are as follows: 18*X5+10*X1+10*X2+10*X3+4*X5=10*X1+10*X2+10*X3+24*X5 is obviously few relative to traditional approach
201*X5-225 byte (wherein X5 is at least 6 bytes), and and as time increases, the data volume of reduction is more.It can
See, central monitoring system network communication method of the invention can effectively reduce data transmission quantity in communication process, save network
Bandwidth traffic and communication cost.
Transmission data are classified and split into acquisition data packet and ginseng by above-mentioned central monitoring system network communication method
It is sent in batches after number setting packet, avoids data volume excessive and increase communications burden.When needing to be configured parameter modification, only
Parameter setting packet after change need to be sent to central monitoring system, reduce data transmission quantity in communication process, save network
Bandwidth traffic and communication cost, equally reduce communications burden.
The present invention also provides a kind of central monitoring system network communicating systems, are suitable for patient monitor and central monitoring system
Carry out data communication.As shown in Fig. 2, above system includes data categorization module 110, data split module 120, initial parameter is sent out
Send module 130, acquisition data transmission blocks 140 and parameter setting change module 150.
Data categorization module 110 is divided into timing acquiring data and parameter for receiving transmission data, and by transmission data
Data are set.
Transmission data refer to the data for needing to be transmitted to central monitoring system, and by taking patient monitor as an example, transmission data may include
Electrocardiogram (ECG) data, breath data and the relevant setting parameter that patient monitor collects.According to class after receiving transmission data
Type is classified, and timing acquiring data and parameter setting data are obtained.Such as it is adopted using electrocardiogram (ECG) data and breath data as timing
Collect data, using relevant setting parameter as parameter setting data.It is appreciated that it is different according to the type of transmission data, it divides
Obtained timing acquiring data and parameter setting data also can be different.
Timing acquiring data include electrocardiogram (ECG) data, breath data, blood oxygen saturation data in one of the embodiments,
And non-invasive blood pressure data;Parameter setting data includes heart rate alarm setting data, respiratory rate alarm setting data, blood oxygen alarm
Data and non-invasive blood pressure alarm setting data are set.The data for obtaining patient monitor acquisition, according to respective type to timing acquiring
Data and relevant parameter setting data are classified, and are packaged so that subsequent progress data are split.
Data split module 120 and are used to carry out timing acquiring data and parameter setting data according to preset capacity threshold
It splits, it is corresponding to obtain acquisition data packet and parameter setting packet.The specific value of capacity threshold can adjust according to the actual situation, to fixed
When acquisition data and parameter setting data carry out fractionation packing, corresponding acquisition data packet and parameter setting packet are obtained, subsequent
It is excessive and increase communications burden to can avoid data volume when being sent to central monitoring system.
It in one of the embodiments, include electrocardiogram (ECG) data, breath data, blood oxygen saturation number with timing acquiring data
Accordingly and non-invasive blood pressure data, parameter setting data include heart rate alarm setting data, respiratory rate alarm setting data, blood oxygen report
Alert setting data and non-invasive blood pressure alarm setting data are corresponding, and data fractionation module splits single including the first split cells and second
Member.
First split cells is used for dense to electrocardiogram (ECG) data, breath data, blood oxygen saturation respectively according to preset capacity threshold
Degree is accordingly and non-invasive blood pressure data are split, and obtains corresponding electrocardiogram acquisition data packet, Breath collection data packet, blood oxygen and adopts
Collect data packet and non-invasive blood pressure acquires data packet.Fractionation packing is carried out according to the type of each acquisition data, obtains corresponding acquisition
Data packet.
Specifically, the data in electrocardiogram acquisition data packet include heart rate, early room number, arrhythmia cordis type, 12 leads
Wave data and ST value;Data in Breath collection data packet include respiratory rate and respiratory waveform data.Blood oxygen acquires data packet
Interior data include blood oxygen levels and blood oxygen Wave data;Non-invasive blood pressure acquisition data packet in data include diastolic pressure, systolic pressure,
Mean pressure and time of measuring.
Second split cells is used for according to capacity threshold respectively to heart rate alarm setting data, respiratory rate alarm setting number
It is split to obtain corresponding parameter setting packet according to, blood oxygen alarm setting data and non-invasive blood pressure alarm setting data.According to each
The type that data are arranged carries out fractionation packing, obtains corresponding parameter setting packet.
Specifically, parameter setting packet may include parameter type, alarm ceiling value, alarm lower limit value, alert levels and alarm
The length of switch, parameter setting packet is greater than 1 byte.Wherein, parameter type be 1 byte, different values respectively represent heart rate,
ST1 to ST12, respiratory rate, blood oxygen, diastolic pressure, systolic pressure, mean pressure.
Fractionation packing is carried out to timing acquiring data and parameter setting data respectively according to data type in the present embodiment, is obtained
To corresponding acquisition data packet and parameter setting packet for use as subsequent transmission.Different types of data are separately carried out splitting to beat
Packet, if because business needs to increase a kind of parameter, it is other unaffected as long as increasing corresponding data packet, improve operation just
Benefit.
Initial parameter sending module 130 is used to be sent to central monitoring system for parameter setting packet as initial parameter setting packet
System.When obtaining transmission data for the first time, sorts data into all parameter setting packets obtained after splitting and be arranged as initial parameter
Packet is all sent to central monitoring system, so that central monitoring system carries out parameter setting.
Acquisition data packet is sent to central monitoring system for timing by acquisition data transmission blocks 140.Timing will be split
It is packaged obtained acquisition data packet and is sent to central monitoring system, so that central monitoring system carries out data monitoring and management.
Electrocardiogram (ECG) data, breath data and blood oxygen saturation data are to acquire in real time in one of the embodiments,
It arrives, non-invasive blood pressure data obtain for timing acquiring.Acquiring data transmission blocks 140 includes that the first transmission unit and second send list
Member.
First transmission unit is used for according to preset time interval periodically by the electrocardiogram acquisition data packet generated in real time, breathing
Acquisition data packet and blood oxygen acquisition data packet are sent to central monitoring system.The specific value of time interval is adjustable, real-time logarithm
According to being acquired, splitting and being packaged, related data packets are sent to central monitoring system every a time interval.
Second transmission unit is used to the non-invasive blood pressure obtained according to the non-invasive blood pressure data of timing acquiring acquiring data packet
It is sent to central monitoring system.Non-invasive blood pressure data of every acquisition and after carrying out fractionation packing, the noninvasive blood that just will be obtained
Pressure acquisition data packet is sent to central monitoring system.
Different data transmission method for uplink is used according to the acquisition mode of data in the present embodiment, improves central monitoring system net
Network communicates applicability.
Parameter setting change module 150 is for receiving parameter change setting instruction, according to parameter change setting instruction to right
The parameter setting packet answered is modified, and modified parameter setting packet is sent to central monitoring system.
Parameter change setting instruction can specifically be inputted by interactive devices such as keyboard or touch screens.User can be according to practical need
Relevant parameter change setting instruction is inputted, relative parameters setting packet is repaired after receiving parameter change setting instruction
Change, and modified parameter setting packet is sent to central monitoring system.
Since central monitoring system needs while guarding patient monitor up to a hundred, and on clinical manipulation, most of situation is a certain
Only need to change one of parameter setting values or control one of them in time.Only needing when needing to carry out parameter setting will be right
The parameter setting packet that should be modified is sent to central monitoring system, reduces the total amount of data sent, reduces data in communication process
Transmission quantity saves network bandwidth flow and communication cost.
Transmission data are classified and split into acquisition data packet and ginseng by above-mentioned central monitoring system network communicating system
It is sent in batches after number setting packet, avoids data volume excessive and increase communications burden.When needing to be configured parameter modification, only
Parameter setting packet after change need to be sent to central monitoring system, reduce data transmission quantity in communication process, save network
Bandwidth traffic and communication cost, equally reduce communications burden.
Each technical characteristic of embodiment described above can be combined arbitrarily, for simplicity of description, not to above-mentioned reality
It applies all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited
In contradiction, all should be considered as described in this specification.
The embodiments described above only express several embodiments of the present invention, and the description thereof is more specific and detailed, but simultaneously
It cannot therefore be construed as limiting the scope of the patent.It should be pointed out that coming for those of ordinary skill in the art
It says, without departing from the inventive concept of the premise, various modifications and improvements can be made, these belong to protection of the invention
Range.Therefore, the scope of protection of the patent of the invention shall be subject to the appended claims.
Claims (10)
1. a kind of central monitoring system network communication method, which comprises the following steps:
Transmission data are received, and the transmission data are divided into timing acquiring data and parameter setting data;
The timing acquiring data and the parameter setting data are split according to preset capacity threshold, correspondence is adopted
Collect data packet and parameter setting packet;
Central monitoring system is sent to using the parameter setting packet as initial parameter setting packet;
The acquisition data packet is sent to the central monitoring system by timing;
Parameter change setting instruction is received, is modified according to parameter change setting instruction to corresponding parameter setting packet,
And modified parameter setting packet is sent to the central monitoring system;
It is described by modified parameter setting packet be sent to the central monitoring system include: only will corresponding modification a parameter setting
Packet is sent to the central monitoring system.
2. central monitoring system network communication method according to claim 1, which is characterized in that the timing acquiring data
Including electrocardiogram (ECG) data, breath data, blood oxygen saturation data and non-invasive blood pressure data;The parameter setting data includes the heart
Rate alarm setting data, respiratory rate alarm setting data, blood oxygen alarm setting data and non-invasive blood pressure alarm setting data.
3. central monitoring system network communication method according to claim 2, which is characterized in that described according to preset appearance
Amount threshold value splits the timing acquiring data and the parameter setting data, and correspondence obtains acquisition data packet and parameter is set
The step of setting packet, comprising the following steps:
According to preset capacity threshold respectively to the electrocardiogram (ECG) data, breath data, blood oxygen saturation data and noninvasive blood
Pressure data are split, and corresponding electrocardiogram acquisition data packet, Breath collection data packet, blood oxygen acquisition data packet and noninvasive blood are obtained
Pressure acquisition data packet;
According to the capacity threshold respectively to heart rate alarm setting data, respiratory rate alarm setting data, blood oxygen alarm setting number
According to being split to obtain corresponding parameter setting packet with non-invasive blood pressure alarm setting data.
4. central monitoring system network communication method according to claim 3, which is characterized in that the electrocardiogram acquisition data
Data in packet include heart rate, early room number, arrhythmia cordis type, 12 lead Wave datas and ST value;The Breath collection
Data in data packet include respiratory rate and respiratory waveform data.
5. central monitoring system network communication method according to claim 3, which is characterized in that the blood oxygen acquires data
Data in packet include blood oxygen levels and blood oxygen Wave data;Data in non-invasive blood pressure acquisition data packet include diastolic pressure,
Systolic pressure, mean pressure and time of measuring.
6. central monitoring system network communication method according to claim 3, which is characterized in that in the parameter setting packet
Data include parameter type, alarm ceiling value, alarm lower limit value, alert levels and alarm switch.
7. central monitoring system network communication method according to claim 3, which is characterized in that the electrocardiogram (ECG) data is exhaled
It inhales data and blood oxygen saturation data is to collect in real time, the non-invasive blood pressure data obtain for timing acquiring;It is described
The step of acquisition data packet is sent to the central monitoring system by timing, comprising the following steps:
The electrocardiogram acquisition data packet generated in real time, Breath collection data packet and blood oxygen are acquired according to preset time interval timing
Data packet is sent to the central monitoring system;
The non-invasive blood pressure obtained according to the non-invasive blood pressure data of timing acquiring acquisition data packet is sent to the central monitoring system
System.
8. a kind of central monitoring system network communicating system characterized by comprising
The transmission data for receiving transmission data, and are divided into timing acquiring data and parameter is set by data categorization module
Set data;
Data split module, for according to preset capacity threshold to the timing acquiring data and the parameter setting data into
Row is split, corresponding to obtain acquisition data packet and parameter setting packet;
Initial parameter sending module, for being sent to central monitoring system for the parameter setting packet as initial parameter setting packet
System;
Data transmission blocks are acquired, the acquisition data packet is sent to the central monitoring system for timing;
Parameter setting changes module, for receiving parameter change setting instruction, according to parameter change setting instruction to correspondence
Parameter setting packet modify, and modified parameter setting packet is sent to the central monitoring system;
It is described by modified parameter setting packet be sent to the central monitoring system include: only will corresponding modification a parameter setting
Packet is sent to the central monitoring system.
9. central monitoring system network communicating system according to claim 8, which is characterized in that the timing acquiring data
Including electrocardiogram (ECG) data, breath data, blood oxygen saturation data and non-invasive blood pressure data;The parameter setting data includes the heart
Rate alarm setting data, respiratory rate alarm setting data, blood oxygen alarm setting data and non-invasive blood pressure alarm setting data.
10. central monitoring system network communicating system according to claim 9, which is characterized in that the data split mould
Block includes:
First split cells, for dense to the electrocardiogram (ECG) data, breath data, blood oxygen saturation respectively according to preset capacity threshold
Degree is accordingly and non-invasive blood pressure data are split, and obtains corresponding electrocardiogram acquisition data packet, Breath collection data packet, blood oxygen and adopts
Collect data packet and non-invasive blood pressure acquires data packet;
Second split cells is used for according to the capacity threshold respectively to heart rate alarm setting data, respiratory rate alarm setting number
It is split to obtain corresponding parameter setting packet according to, blood oxygen alarm setting data and non-invasive blood pressure alarm setting data.
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Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1524489A (en) * | 2003-09-15 | 2004-09-01 | 上海第二医科大学附属新华医院 | Long range real-time monitoring system of a clinical monitoring equipment |
CN103514357A (en) * | 2012-12-31 | 2014-01-15 | Tcl集团股份有限公司 | Remote health supervising method and supervising system thereof |
Family Cites Families (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20090005669A1 (en) * | 2007-06-28 | 2009-01-01 | Siemens Aktiengellsellschaft | System and method for performing remote radiological examinations |
CN104042196A (en) * | 2013-03-12 | 2014-09-17 | 李晓龙 | Real-time health monitoring and intelligent pre-warning system and method |
CN104116502A (en) * | 2014-07-04 | 2014-10-29 | 深圳市凯沃尔电子有限公司 | Multi-parameter monitor and implementation method thereof |
CN105591966B (en) * | 2016-01-29 | 2019-01-15 | 深圳市科曼医疗设备有限公司 | Central monitoring system network communication method and system |
-
2016
- 2016-01-29 CN CN201610070534.0A patent/CN105591966B/en active Active
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Patent Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1524489A (en) * | 2003-09-15 | 2004-09-01 | 上海第二医科大学附属新华医院 | Long range real-time monitoring system of a clinical monitoring equipment |
CN103514357A (en) * | 2012-12-31 | 2014-01-15 | Tcl集团股份有限公司 | Remote health supervising method and supervising system thereof |
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