CN202395815U - Wireless WiFi (Wireless Fidelity) medical monitoring management system - Google Patents

Abstract

The utility model discloses a wireless WiFi (Wireless Fidelity) medical monitoring management system, which comprises a wireless vital sign monitoring system, a wireless injection monitoring system and a wireless medical management system, wherein the wireless vital sign monitoring system is used for monitoring various vital signs; the wireless injection monitoring system is used for monitoring transfusion state of a patient in real time; the three systems are all provided with data acquisition terminals and share one data receiving storage analysis system. With the adoption of a standard wireless network mode, the seamless access of existing wireless networks of a hospital can be realized easily, so that the cost is reduced; and meanwhile with the adoption of encryption and security data channel transmission, the security of patient information is ensured effectively; the mobility is ensured with a wireless user terminal, and with the adoption of the latest energy-saving wireless technology, the continuous working time of equipment of the user terminal is maximized; data support of diagnostic grade is provided; and the system is low in cost and high in precision, the product is small and exquisite, and the requirements that the patient can still be monitored during movement continuously are met.

Description

Wireless WiFi medical monitoring management system

Technical field

The utility model relates to a kind of medical monitoring management system, especially a kind of medical monitoring management system of using wireless transmission.

Background technology

In the medical monitoring field, the patient's life sign carried out signals collecting after, can be transferred to monitor terminal through wired or wireless mode.Along with the development of electronic information technology, characteristics such as wireless communication technique is installed simple, with low cost with its system, mobility is strong become medical monitoring Equipment of Development trend from now on.At present, the wireless medical monitoring equipment that has just begun to occur on the market is used for the lower monitoring occasion of ask for something more, technically is difficult to realize the desired high accuracy of diagnosis stage checkout equipment, high reliability.Technological difficulties wherein are that the performance of miniature organism signal acquiring system and wireless network is difficult to reach requirement.

The wireless transmission method that uses at present mainly includes ZigBee (IEEE802.15.4) wireless technology; Like publication number is the disclosed a kind of DIP type multi-parameter ward measuring module of Chinese patent of CN101199412A; Comprise shell, at least two physiological parameter measurement circuit, FEP and primary processors are arranged in the shell, through the external communication interface transmission data on the shell; Externally the mode of communication comprises infrared, bluetooth etc.; Because the restriction of this network schemer, message transmission rate is lower, and monitor patients quantity is also very limited.

The mobile communication technology that also comprises the honeycomb relay station; Like Granted publication number is the disclosed a kind of remote wireless network physiology multi-parameter monitoring device of Chinese patent of CN201354541Y, main control module and interface module with blood pressure, electrocardio, breathing, blood oxygen, pulse frequency, the body temperature acquisition module is all or part of links to each other, link to each other with wireless communication module again simultaneously; The adoptable mode of wireless telecommunications is GPRS/CDMA wireless cellular network+Internet wide area network; Embedded tcp/ip communication agreement, but this ustomer premises access equipment energy consumption is high, and stream time is short; Improved use cost, and the number of patients of same time supervision is very limited.

Take all factors into consideration some kinds of infinite network mechanicss of communication can selecting, no matter can find the WiFi system from data transmission capabilities, reliability, popularization, and maturity all is superior to other several kinds technology.Theoretical transmission rate reaches 54Mb/s under 802.11 agreements, satisfies the high data traffic that the high-precision signal collecting device is produced.Network based on Transmission Control Protocol has been guaranteed data reliability.2011, world market is total to surpass 2,000,000,000 WiFi equipment, and with annual 7.7 hundred million speed increase.The WiFi access point is also being popularized rapidly, and world major country is all building or planning the wireless city based on WiFi.Therefore its popularization and maturity are indubitable.

Yet conventional WiFi system is used for the wireless medical monitoring equipment also has its limitation.Using at present the monitoring equipment of conventional WiFi (IEEE802.11) technology, like Granted publication number be the disclosed a kind of WLAN of the Chinese patent Electrocardiographic detection system of transmission in real time of CN201353142Y.Collect electrocardiosignal through amplifying circuit,, by the analog input module of embedded type CPU signal is carried out digital-to-analogue and transform, after the WiFi module is sent to local area network (LAN) through filter circuit.The problem of this equipment is: 1, and conventional WiFi system energy consumption is high, adopts the impossible continuous operation of battery-driven portable set for a long time, and its practicality receives very big restriction.2, adopt discrete component to constitute AFE(analog front end), volume is big, and power consumption is high, and cost is high, especially for portable set, can only monitor 1～3 electrocardiosignal that leads, is difficult to reach the measurement of leading of clinical general standard 12.3, owing to adopt the discrete component AFE(analog front end) and be integrated in the A/D module that embeds CPU, the stability of amplifier, consistency and precision are restricted, and are difficult to reach the diagnosis stage physiological signal and gather desired performance, therefore can only be as a kind of watch-dog.

The utility model content

The utility model technical problem to be solved provides a kind of medical monitoring management system based on low-power consumption WiFi module, can be to the real-time acquisition of diagnostic level of the medical information physiological signal of needs monitoring, and low in energy consumption, applied widely.

The utility model solves the problems of the technologies described above the technical scheme that is adopted: a kind of wireless WiFi medical monitoring management system; Comprise wireless vital sign supervisory control system and wireless medical management system; It is characterized in that; Said wireless vital sign supervisory control system comprises one or more data collection stations; And Data Receiving inventory analysis system, said wireless medical management system comprise the Work Process Management terminal that is integrated on the said data collection station and with the shared said Data Receiving inventory analysis of said wireless vital sign supervisory control system system; Said data collection station comprise first data acquisition unit that is used to gather vital sign parameter signals, first microprocessing unit that is connected with said first data acquisition unit and said first microprocessing unit handled after data be sent to the quick dormancy of ability of said Data Receiving inventory analysis system and the first low-power consumption WiFi module of waking up.

Said data collection station also comprises first power supply unit, first data storage, an I/O unit; Said first microprocessing unit links to each other with said first data storage, a said I/O unit, supplies power for each unit of data collection station, and storage and show the data of gathering.

Said wireless vital sign supervisory control system comprises ECG/EEG/EMG data collection station, non-invasive blood pressure data collection station, temperature data acquisition terminal and blood oxygen saturation data collection station, thus each vital sign parameter signals is gathered.

First data acquisition unit of said ECG/EEG/EMG data collection station is biological electric signal amplifier, has reduced the external noise interference, has improved the precision of amplifier, stability and consistency.

Also comprise wireless injection supervisory control system, said wireless injection supervisory control system comprise the injection data collection station and with the shared said Data Receiving inventory analysis of said wireless vital sign supervisory control system system, patient's transfusion situation is monitored in real time.

Said injection data collection station comprise second data acquisition unit that is used to gather injection information, second microprocessing unit that is connected with said second data acquisition unit, second power supply unit, second data storage, the 2nd I/O unit and said second microprocessing unit handled after data be sent to the quick dormancy of ability of said Data Receiving inventory analysis system and the second low-power consumption WiFi module of waking up; Said second microprocessing unit links to each other with said second data storage, said the 2nd I/O unit, to the data preliminary treatment that collects, and sends and stores.

In an embodiment of the utility model, said second data acquisition unit is the pressure sensor of sensing infusion bag weight change.

In another embodiment of the utility model, said second data acquisition unit is the infrared or visible light sensor of injection droplet counting.

Optional, the data acquisition unit that being used to of said Work Process Management terminal gathered medical personnel's workflow and therapeutic process information is the RFID transducer, magnetic card read write line, bar code scanner, pressure sensor, handwriting pad or touch-screen.

Said Data Receiving inventory analysis system comprises wireless router, Ethernet, server and the display control terminal that receives said first low-power consumption WiFi module or the said second low-power consumption WiFi module information; Said wireless router, Ethernet and server link to each other successively, and said display control terminal links to each other with said server via Ethernet or internet.The data that thus data collection station sended over are carried out final demonstration and processing.

Said first low-power consumption Wifi module or the said second low-power consumption WiFi module support comprise WEP, WPA, and WPA, EAP-FAST, EAP-TLS, the wireless security agreement of EAP-TTLS or PEAP also supports to use SSL.Kept to greatest extent compatible, and guaranteed that the user's is safe in utilization.

Compared with prior art; The advantage of the utility model is: adopted standardized wireless network mode, can be implemented to the seamless access of the existing wireless network of hospital easily, reduced cost; Adopt simultaneously and encrypt and the safe data channel transmission, effectively guaranteed the fail safe of patient information; Wireless user side has guaranteed its travelling performance and has adopted up-to-date energy-conservation wireless technology, has maximized the ustomer premises access equipment stream time, and the data support of diagnosis stage can be provided; Be used to offer hospital, home for destitute and use, as the substitute products for light-duty patient's vital sign monitor, cost is low, and precision is high, is convenient to dispose; Patient still can be continued monitoring in moving process needs are satisfied in the product small volume and less weight.

Description of drawings

Fig. 1 is the system block diagram of the utility model;

Fig. 2 is the system block diagram of data collection station of the wireless vital sign supervisory control system of the utility model;

Fig. 3 is the sketch map of the Data Receiving inventory analysis system of the utility model;

Fig. 4 is the sketch map of the ECG/EEG/EMG data collection station of the utility model;

Fig. 5 is the sketch map of the injection data collection station of the utility model;

Fig. 6 is the system block diagram of the injection data collection station of the utility model;

Fig. 7 is the display control terminal first user mode sketch map of the utility model;

Fig. 8 is the display control terminal second user mode sketch map of the utility model.

Embodiment

Embodiment describes in further detail the utility model below in conjunction with accompanying drawing.

Referring to Fig. 1, a kind of wireless WiFi medical monitoring management system, the wireless injection supervisory control system and the wireless medical management system that comprise wireless vital sign supervisory control system that each item vital sign is monitored, patient's transfusion state is monitored in real time.

The wireless vital sign supervisory control system comprises electrocardio (ECG)/brain electricity (EEG)/myoelectricity (EMG) data collection station 11, non-invasive blood pressure (BP) data collection station 12, temperature data acquisition terminal 13, blood oxygen saturation (SPO ₂) data collection station 14 and Data Receiving inventory analysis system 4.

Referring to Fig. 2, above-mentioned each data collection station all comprises first data acquisition unit 51, first microprocessing unit 52, first power supply unit 53, first data storage 54, an I/O unit 55, the first low-power consumption WiFi module 56; First data acquisition unit 51 links to each other with first microprocessing unit 52, and first microprocessing unit 52 and first data storage 54, an I/O unit 55, the first low-power consumption WiFi module 56 link to each other.Wherein, to the various signals that needs are gathered, the first different data acquisition units 51 will be done detailed introduction hereinafter.

First microprocessing unit 52 is mainly handled the physiological signal and the digital information of gathering, and deciphering and response are made to an I/O unit 55 and through the order that the WiFi network transmits in each unit in the control data acquisition terminal.First microprocessing unit 52 can be Series of MCU (MCU) such as MSP430, PIC, also can be DSP or FPGA, also can be the combination of a plurality of the above-mentioned type chips.

First power supply unit 53 is used for each unit of data acquisition terminal is supplied power.Wherein portable data collection station uses powered battery.First power supply unit 53 also comprises voltage transformation and the stabilizing circuit that receives 52 controls of first microprocessing unit except that battery.

First data storage 54 comprises data buffer and mass storage.Data buffer is used for the information of temporary transient storage of collected, and mass storage is handled, sent or be transferred to products for further.Data buffer can be independent RAM chip, also can be the memory of microprocessing unit built-in chip type.Mass storage is used for the long-time data of gathering of preserving, and for nonvolatile memory (non-volatile memory), can be flash chip, SD card or other storage mediums.

The one I/O unit 55 is used for the input and output of data collection station, can be display screen, touch-screen, button or keyboard.

The first low-power consumption WiFi module 56 sends and receives information through WLAN, embeds ICP/IP protocol.This first low-power consumption WiFi module 56 and common WiFi equipment difference are that its characteristics according to the medical monitoring management application have carried out special optimization to power consumption.The uninterrupted listens for network information of beginning is to shorten the delay and the reaction time of information exchange behind the common WiFi device start.Most data to the server one-way flow, do not need quick two-way interaction by data collection station in the medical monitoring management application, and these data usually only need take the extremely short time and just can transmit completion.The circuit of the first low-power consumption WiFi module 56 and Embedded Software Design be through optimizing, and makes its dormancy and waking up fast.Therefore the first low-power consumption WiFi module 56 gets into resting state fast with the saving energy after networking, and the cycle wakes to set, and listens to the network information.When data collection station is collected a certain amount of data and need be sent; First micro-control unit 52 wakes the first low-power consumption WiFi module 56 up and data centralization is sent to Data Receiving inventory analysis system 4, and the first low-power consumption WiFi module 56 is got back to resting state at once after accomplishing.802.11 WLANs of the first low-power consumption WiFi module, the 56 complete compatible conventionals after the optimization, and power consumption reduces above 90% (depending on the data volume size) than common WiFi module.The first low-power consumption WiFi module 56 is supported to comprise WEP, WPA, and WPA, EAP-FAST, EAP-TLS, the wireless security agreement of EAP-TTLS or PEAP also supports to use SSL.Kept to greatest extent compatible, and guaranteed that the user's is safe in utilization.In order further to reduce power consumption, when resting state, have only the real-time clock submodule to keep operating state, thereby guaranteed a power consumption, and can guarantee the quick response of system with the milliwatt magnitude.The first low-power consumption WiFi module 56 is through the state data packets of regular update, keeps the UNICOM's state with access point, and regularly and the SNMP server communication configuration that Updates Information.In addition, this first low-power consumption WiFi module 56 can be passed through SPI, and USB or UART port carry out control operation.Packet and energy conservation (are also comprised other sign signals at the ECG/EEG/EMG signal; But ECG/EGG/EMG signal message amount is for maximum) optimize in the sensing applications environment; Sign signal for collecting effectively extracts, rather than uses all sign signals that collect.When the sign signal sent, for pack compression back transmission of a series of data in the time period, rather than each data was transmitted separately.Under the prerequisite of compatible fully existing IEEE802.11 wireless network and high speed data links, average power consumption is reduced to 1% of common wireless module.

Referring to Fig. 3; Data Receiving inventory analysis system 4 comprises wireless router 41, Ethernet 42, server 43 and display control terminal 44; Wireless router 41, Ethernet 42 and server 43 link to each other successively, and display control terminal 44 links to each other through Ethernet or internet with server 43.

Wireless router 41 is used for carrying out communication with each data acquisition terminal equipment.

Ethernet 42 is used to connect each wireless router 41 and server 43, makes and forms a local area network (LAN) or some subnets in the whole monitoring management system.

Server 43; Be used to collect the information that all data acquisition terminal equipments transmit through network and deposit database in; Whole monitoring system to comprising LAN and all data collection stations is carried out master control, and medical worker's workflow is write down or instructs.43 pairs of vital sign information of server are carried out preanalysis and are had access to and diagnose to make things convenient for the medical worker, then give the alarm unusually as finding emergency or great, so that the medical worker in time handles.Also can in the microprocessing unit of data acquisition terminal equipment, move for great unusual determining program.

Display control terminal 44 will be done detailed introduction hereinafter.

First data acquisition unit 51 of ECG/EEG/EMG data collection station 11 can be biological electric signal amplifier, to user's 1～12 lead that electrocardio (ECG), 1～16 leads that the physiological signal of brain electricity (EEG), myoelectricity (EMG) is gathered, filtering and digital-to-analogue conversion.The bioelectrical signals amplifier adopts special multichannel AFE(analog front end) (AFE) chip with high integration; Multichannel signal is amplified; Preliminary treatment, and the high accuracy digital-to-analogue conversion concentrates in a slice chip, reduced the external noise interference to greatest extent; Improved the precision of amplifier, stability and consistency.Also integrated bulk potential drive circuit in the chip; Wilson network reference spot magnifier; Modules such as breathing/temperature detection channels, existing similar devices minimizing number of elements reaches 95% than market, and volume and power consumption significantly reduce; Make this chip to carry out diagnosis stage and gather in real time, and volume and weight is all less than regular handset nearly 12～32 electrocardios that lead and EEG signals.Data are sent to the server 43 of Data Receiving inventory analysis system 4 through the first low-power consumption WiFi module 56 after first microprocessing unit 52 is handled, and on built-in memory back-up storage.This data collection station is different as requested, can be the general acquiring biological electric signals terminal of a kind of ECG/EEG/EMG, also can be the terminal that aims at wherein a kind of function design.Its bioelectrical signals amplifier channel number that is used for signals collecting can be from 1 to greater than 32 passages.The profile of this ECG/EEG/EMG data collection station 11 can have various ways with wearing, referring to Fig. 4, can bondage in upper arm, forearm or shank, the human body appointed part is drawn and be affixed on to electrode with the collection of biological signal of telecommunication through lead 111; Also can be worn on head, collect the EEG signal through electrode; Also can be fixed in the shirtfront, collect the ECG signal through the electrode that is installed on this equipment.This ECG/EEG/EMG data collection station 11 also can comprise touch or common liquid crystals display screen 112, so that ECG/EEG/EMG data collection station 11 is provided with adjustment and the data of collecting are carried out simple displaying.

First data acquisition unit 51 of non-invasive blood pressure data collection station 12 can be pre ure tra ducer, is fixed in upper arm or wrist through an inflation cuff, and pre ure tra ducer is inflated cuff, and when venting, measures blood pressure.The blood pressure data of being gathered is sent to server 43 through the first low-power consumption WiFi module 56 after first microprocessing unit 52 is handled, and on built-in memory back-up storage.This non-invasive blood pressure data collection station 12 also can comprise touch or common liquid crystals display screen, so that non-invasive blood pressure data collection station 12 is provided with adjustment and the data of collecting are carried out simple displaying.

First data acquisition unit 51 of temperature data acquisition terminal 13 can be temperature sensor; This temperature data acquisition terminal 13 by patient worn in upper arm (wherein; Temperature sensor is positioned at the oxter) or other positions of health; The temperature data of being gathered is sent to server 43 through the first low-power consumption WiFi module 56 after first microprocessing unit 52 is handled, and on built-in memory back-up storage.This temperature data acquisition terminal 13 also can comprise touch or common liquid crystals display screen, so that temperature data acquisition terminal 13 is provided with adjustment and the data of collecting are carried out simple displaying.

First data acquisition unit 51 of blood oxygen saturation data collection station 14 can be photoelectricity blood oxygen saturation module (Pulse Oximeter).Light-emitting diode sends light beams of different wavelengths (being generally 660 nanometers and 900～960 nanometers) in this photoelectricity blood oxygen saturation module, after tissue refraction or reflection, is collected by photoelectric device.Oxygen containing hemoglobin is very big to the absorptivity and the oxygen-free difference of these two kinds of wavelength.Utilize this attributes, can calculate the ratio of two kinds of hemoglobins, just blood oxygen saturation.Through also can calculate wearer's P&R situation to the processing of data.Collected data are sent to server 43 through the first low-power consumption WiFi module 56 after first microprocessing unit 52 is handled, and on built-in memory back-up storage.The form of photoelectricity blood oxygen saturation module can be one and refer to folder or fingerstall, be worn on the patients finger; Also can be that the wrist-watch form is worn on the wrist, connect the photoelectric sensor of finger folder, finger ring or a finger cot type through lead.This blood oxygen saturation data collection station 14 also can comprise touch or common liquid crystals display screen, so that equipment is provided with adjustment and the data of collecting is carried out simple displaying.

Each above-mentioned data collection station also can be the individual equipment with above-mentioned some kinds of function combinations.For example above-mentioned all functions are integrated in the equipment, are worn on patient's upper arm, connect the electrode be positioned at the human body different parts, photoelectric sensor, temperature sensor etc., and measure blood pressure through the inflation cuff through lead.

Wireless injection supervisory control system comprises injection data collection station 21 and Data Receiving inventory analysis system 4.Referring to Fig. 5, respectively there is a hook at the two ends up and down of injection data collection station 21, are used to hang going up hook 211 and being used to hang the lower draw-bar 212 of infusion bag of equipment.Injection data collection station 21 referring to Fig. 6, comprises second data acquisition unit 213, second microprocessing unit 214, second power supply unit 215, second data storage 216, the 2nd I/O unit 217, the second low-power consumption WiFi module 218; Second data acquisition unit 213 links to each other with second microprocessing unit 214, and second microprocessing unit 214 and second data storage 216, the 2nd I/O unit 217, the second low-power consumption WiFi module 218 link to each other.Each unit of each data collection station in each unit of injection data collection station 21 and the above-mentioned wireless vital sign supervisory control system is identical, and difference is data acquisition unit wherein.In an embodiment of the utility model; In injection data collection station 21; Second data acquisition unit 213 is for being used for responding to the high quick pressure inductor of infusion process infusion bag weight change, in the induction infusion process weight change of infusion bag and amplify with analog-to-digital conversion after signal of telecommunication of output to second microprocessing unit 214.In another embodiment of the utility model, second data acquisition unit 213 can adopt infrared or visible light sensor, and infrared or visible light sensor are installed on the dropping funnel place of woven hose, and droplet counting is with measurement flow rate and judge the liquid medicine surplus during to transfusion.On the injection data collection station 21 display screen can be set,, show the information such as remaining time, battery electric quantity of infusing like LCD display.The data that second data acquisition unit 213 is gathered are sent to server 43 through the second low-power consumption WiFi module 218 after second microprocessing unit 214 is handled, and on built-in memory back-up storage.

Wireless medical management system comprises Work Process Management terminal and Data Receiving inventory analysis system 4, the shared same Data Receiving inventory analysis of wireless vital sign supervisory control system, wireless injection supervisory control system and wireless medical management system system 4.The Work Process Management terminal is integrated in the data collection station of wireless vital sign supervisory control system or wireless injection supervisory control system, and its data acquisition unit can be RFID transducer, magnetic card read write line; Bar code scanner, pressure sensor, handwriting pad or touch-screen etc.; Workflow and therapeutic process information to medical personnel are gathered, and comprise the information of making the rounds of the wards, medication information; The intravenous injection progress msg, or the like.After the data of being gathered are handled through the microprocessing unit of wireless vital sign supervisory control system or wireless injection supervisory control system; Be sent to the server 43 of Data Receiving inventory analysis system 4 through low-power consumption WiFi module or cable network, and on built-in memory back-up storage.The medical worker holds the sensing card (RFID with the data acquisition unit at Work Process Management terminal coupling; Magnetic card or bar code card); Make the rounds of the wards, check, inject, change dressings or other are when handling when certain patient is done; Make this medical work by system log (SYSLOG) through swiping the card, so that standard and supervision medical worker's workflow.Through display screen or the touch-screen on the data collection station of wireless vital sign supervisory control system or wireless injection supervisory control system; Can show this patient's each item information; Vital sign parameter for example, medicining condition, required medical matters operation and operating sequence of carrying out; Make things convenient for the medical worker to work, reduce the malpractice that misoperation causes.Also can set up medicine management system through this Work Process Management terminal; Every kind of medicine need stick bar code or RFID according to its composition, dosage etc.; When the doctor must be earlier at Work Process Management terminal scanning bar code or RFID during to the inpatient medication; This information is errorless to confirm medication by returned data storehouse and doctor formula comparison, and record is carried out in this time medication.The Work Process Management terminal can have a certain independent sensing unit of above-mentioned functions, also can have the combination of multiple function sensing unit.

Display control terminal 44 in the Data Receiving inventory analysis system 4, the patient's life sign Real Time Observation that the medical worker collects through 44 pairs of display control terminals, also adjustable experience history data, or the operating state of data acquisition terminal controlled adjustment.The workflow guidance that is generated by server 43 also will be sent to control display control terminal 44.Display control terminal 44 can be computer, panel computer, smart mobile phone on local area network (LAN) or the Internet etc.Display control terminal 44 provides friendly user interface, is divided into identical scalable pane 441, and each pane 441 has all shown a patient's information.In Fig. 7, shown nine panes 441, can expect to show more or less pane 441.Can be by factors such as the size of display control terminal 44 and patient's number decision pane 441 quantity.

With upper left pane 441 is example (all the other are all identical), comprises that patient ID shows 442, shows patient's relevant information, comprises essential informations such as name, age, sex and sick bed label, and vital sign shows 443; Show the patient's life sign, comprise the blood pressure blood pressure, heartbeat is breathed; Body temperature, blood oxygen concentration, electrocardiogram, and can provide and comprise P; Q, R, S, the T wave-wave width of cloth; RR, PR, JT, QT revises QT, QRS, parameters such as TP-TE interval; Simultaneously, the analysis of heart rate variability degree can be provided, comprise time domain index such as SDNN, rMSSD, heart rate variability coefficient (CV), heart rate variability index (HRVI), and frequency-domain index such as very low frequency, low frequency, the data analysis of high band; Infusion information shows 444, shows patient's infusion information, comprises remaining time, medicine name, the transfusion time of estimating, flow rate of liquid etc.; The son of reporting to the police shows 445; In order to improve the degree of freedom of doctor/nurse to illness analysis; The script that is simple and easy to usefulness editing interface is provided, has made the user to carry out high-level analysis, when abnormal conditions occur information of interest; Be measured signal when having departed from normal value, display control terminal 44 is to show or the form of sound gives a warning; Perhaps after the transfusion signal that records is lower than certain threshold value; Be that infusion process is when closing to an end; Or when syringe needle taking place in the infusion process leave the unexpected situation of patient body, display control terminal 44 is the same to give a warning with demonstration or sound or both forms of combination.

The user can touch pane 441 or click pane 441 to amplify, and is as shown in Figure 8, and the user has selected upper left pane 441 and with its amplification, full screen display.In one embodiment, the user can touch pane 441 or click pane 441 once more so that it is dwindled, and in another embodiment, pane 441 can dwindle after the regular hour automatically.

Wireless medical management system can be controlled the signals collecting rate of wireless vital sign supervisory control system and the signal of required collection through being provided with of parameter.Simultaneously, the data that generate are arrived patient end through radio network feedback, show by the patient end display.The display of patient end can be small-sized dull and stereotyped suspension type display, and simple information processing and calculation function are arranged, and farthest makes the information mobilism.

The weight and volume of these above-mentioned ustomer premises access equipment data collection stations is less than common smart mobile phone, but under the driving of built-in lithium battery the single charge continuous operation greater than a week.This equipment has solved medical institutions' concentrated monitoring problem for a long time, and the vital sign monitoring that in the past only could realize in ICU, CCU class ward is generalized to public ward with less cost, community medicine mechanism, home for destitute even family.Make the concentrated in real time simultaneously monitoring of a large amount of patient's vital sign information first and carry out the automaticdata storage and become possibility; Greatly improve medical institutions' service quality; Reduce the danger of patient under the burst symptom, and comprehensive more reference data is provided for diagnosis.Because leading portion only is responsible for the function (no signal analysis and processing module) that signal is collected and sent, thus data collection station can do smaller.Because advantages of small volume (mobile phone size); Be worn on the patient and do not influence its daily routines on one's body; The bio signal that uninterrupted measurement in 24 hours is required also is sent to Data Receiving inventory analysis system 4 through wireless network in real time; DAP in the monitoring of software can be handled and preanalysis the data that collect, and helps the medical worker that conditions of patients is made diagnosis.

The above is merely the preferred implementation of the utility model; Should be pointed out that for those of ordinary skill in the art, do not breaking away under the principle prerequisite of the utility model; Can also make various deformation and improvement, this also should be regarded as the protection range of the utility model.

Claims (11)

1. wireless WiFi medical monitoring management system; Comprise wireless vital sign supervisory control system and wireless medical management system; It is characterized in that; Said wireless vital sign supervisory control system comprises one or more data collection stations, and Data Receiving inventory analysis system (4), said wireless medical management system comprise the Work Process Management terminal that is integrated on the said data collection station and with the shared said Data Receiving inventory analysis system of said wireless vital sign supervisory control system (4); Said data collection station comprises first data acquisition unit (51) that is used to gather vital sign parameter signals, first microprocessing unit (52) that is connected with said first data acquisition unit (51) and the first low-power consumption WiFi module (56) that the data after said first microprocessing unit (52) processing are sent to the quick dormancy of ability of said Data Receiving inventory analysis system (4) and wake up.

2. wireless WiFi medical monitoring management system as claimed in claim 1 is characterized in that, said data collection station also comprises first power supply unit (53), first data storage (54), an I/O unit (55); Said first microprocessing unit (52) links to each other with said first data storage (54), a said I/O unit (55).

3. wireless WiFi medical monitoring management system as claimed in claim 1; It is characterized in that said wireless vital sign supervisory control system comprises ECG/EEG/EMG data collection station (11), non-invasive blood pressure data collection station (12), temperature data acquisition terminal (13) and blood oxygen saturation data collection station (14).

4. wireless WiFi medical monitoring management system as claimed in claim 3 is characterized in that first data acquisition unit (51) of said ECG/EEG/EMG data collection station (11) is biological electric signal amplifier.

5. wireless WiFi medical monitoring management system as claimed in claim 1; It is characterized in that; Also comprise wireless injection supervisory control system, said wireless injection supervisory control system comprise the injection data collection station (21) and with the shared said Data Receiving inventory analysis system of said wireless vital sign supervisory control system (4).

6. wireless WiFi medical monitoring management system as claimed in claim 5; It is characterized in that said injection data collection station (21) comprises second data acquisition unit (213) that is used to gather injection information, second microprocessing unit (214) that is connected with said second data acquisition unit (213), second power supply unit (215), second data storage (216), the 2nd I/O unit (217) and the second low-power consumption WiFi module (218) that the data after said second microprocessing unit (214) processing are sent to the quick dormancy of ability of said Data Receiving inventory analysis system (4) and wake up; Said second microprocessing unit (214) links to each other with said second data storage (216), said the 2nd I/O unit (217).

7. wireless WiFi medical monitoring management system as claimed in claim 6 is characterized in that said second data acquisition unit (213) is the pressure sensor of sensing infusion bag weight change.

8. wireless WiFi medical monitoring management system as claimed in claim 6 is characterized in that, said second data acquisition unit (213) is the infrared or visible light sensor of injection droplet counting.

9. wireless WiFi medical monitoring management system as claimed in claim 1; It is characterized in that; The data acquisition unit that being used to of said Work Process Management terminal gathered medical personnel's workflow and therapeutic process information is the RFID transducer, magnetic card read write line, bar code scanner; Pressure sensor, handwriting pad or touch-screen.

10. like each described wireless WiFi medical monitoring management system among the claim 1-9; It is characterized in that; Said Data Receiving inventory analysis system (4) comprises wireless router (41), Ethernet (42), server (43) and the display control terminal (44) that receives said first low-power consumption WiFi module (56) or said second low-power consumption WiFi module (218) information; Said wireless router (41), Ethernet (42) and server (43) link to each other successively, and said display control terminal (44) links to each other through Ethernet or internet with said server (43).

11., it is characterized in that the supports of said first low-power consumption Wifi module (56) or the said second low-power consumption WiFi module (218) comprise WEP like each described wireless Wifi medical monitoring management system among the claim 1-9; WPA; WPA, EAP-FAST, EAP-TLS; The wireless security agreement of EAP-TTLS or PEAP also supports to use SSL.

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