CN102083243A - Wireless medical gateway equipment, wireless electronic health system and monitoring method - Google Patents

Abstract

The invention provides wireless medical gateway equipment, a wireless electronic health system and a monitoring method. The equipment comprises a first communication module, a master control module and a second communication module, wherein the first communication module is used for communicating with a wireless medical equipment terminal via a first communication interface by using a first communication protocol, and receiving health data from the wireless medical equipment terminal; the master control module is used for converting the health data of the first communication protocol into health data of the second communication protocol, and transmitting the health data of the second communication protocol; and the second communication module is used for communicating with a scheduled communication network by using a second communication protocol, sending the health data of the second communication protocol to a server-side of the wireless electronic health system by a second communication interface through the communication network. By using the technical scheme, the wireless electronic health system can be realized in accordance with user requirements.

Description

A kind of wireless medical gateway equipment, wireless electron health system and method for supervising

Technical field

The present invention relates to the remote medical monitor field, particularly relate to a kind of wireless medical gateway equipment, wireless electron health system and method for supervising.

Background technology

In recent years, the development of wireless electron health system brings a revolution to medical field, forms new high-tech research focus and market investment focus.The wireless electron health system has increased patient's freedom of movement, makes that many new prophylactic treatment methods such as domestic monitoring are produced; Portable monitoring can improve patient's quality of life greatly; Simultaneously owing to can keep real-time, ubiquitous being connected with the professional health care personnel, make the service of health treatment extend to community from hospital, thereby reduced the cost of monitoring, alleviated the pressure of medical resource scarcity, for patient and medical personnel bring great convenience, flexibility and high efficiency.

The gateway technique of realizing the wireless electron health system at present mainly comprises two classes: 1) realize based on palmtop computers such as PDA; 2) dedicated gateway.

Based on the implementation of palmtop computers such as PDA, adopt standardized hardware system and software systems to realize.The hardware system of this mode directly adopts the hardware system of palmtop computer such as PDA, that is to say that all medical sensing modules can only be connected with PDA by already provided standard interface on the PDA palmtop computer.Its subject matter on hardware is the interface that PDA only understands integrated universal, as bluetooth and USB interface.And RF interfaces such as needed IEEE 802.15.4 such as wireless electron health system can not provide, the software systems of this mode adopt the software systems that had on the machine, as operating systems such as Windows CE, LINUX, need the control and management software and and the data-interface software of communication system such as GPRS/GSM of customized development control medical treatment transducer simultaneously.Efficient and manageability that its subject matter on software systems is general-purpose system.

The present dedicated gateway of wireless electron health system, as the dedicated gateway that Korean company realizes, its method that adopts is complete customized development scheme, i.e. chip-scale solution, promptly oneself designs and develops hardware system, and the Synchronization Design system that develops software.It is embodied as radio frequency chip, mobile communication system baseband processing chip, CPU, FLASH etc. special-purpose hardware system on the one hand; On the other hand, realize communication protocol functions, software module and application program according to these hardware chips.The advantage of this mode is to provide various hardware interfaces and software function for the customization of wireless electron health system.But its development cost is too high and reliability system needs the time to verify and improve.Simultaneously, its adaptability is not high, can't adapt to the fast development of present technology.

Summary of the invention

The invention provides a kind of wireless medical gateway equipment, wireless electron health system and method for supervising, this medical treatment gateway device can be realized the wireless electron health system of meeting consumers' demand.

To achieve these goals, on the one hand, provide a kind of wireless medical gateway equipment, wherein, having comprised:

First communication module is used to utilize first communication protocol, communicates by first communication interface and wireless medical equipment terminal, receives the health data that described wireless medical equipment terminal sends;

Main control module is used for the health data of described first communication protocol is converted to the health data of second communication agreement, and transmits the health data of described second communication agreement;

Second communication module is used to utilize second communication agreement and predetermined communication, by described communication network, the health data of described second communication agreement is sent to the server end of wireless electron health system by the second communication interface.

Preferably, described wireless medical gateway equipment, wherein, described predetermined communication network is fixed communication network and/or mobile communications network.

Preferably, described wireless medical gateway equipment, wherein, described predetermined communication network further is sent to described health data by Internet the server end of described wireless electron health system.

Preferably, described wireless medical gateway equipment, wherein, described first communication interface comprises a kind of as in the lower interface at least:

USB interface;

Serial ports;

The wireless sensor network interface;

The WIFI interface;

Blue tooth interface;

The ultra broadband interface.

Preferably, described wireless medical gateway equipment, wherein,

Described second communication interface comprises as in the lower interface at least one:

The adsl communication interface;

Ethernet interface;

The GPRS communication interface;

The gsm communication interface;

The WCDMA communication interface;

The TD-SCDMA communication interface;

The WIFI communication interface;

The WIMAX communication interface;

Described second communication module comprises in the following submodule at least:

The adsl communication submodule is used for by adsl interface described health data being sent to the server end of wireless electron health system;

The ethernet communication submodule is used for by Ethernet interface described health data being sent to the server end of wireless electron health system;

GPRS communicator module is used for by the GPRS communication interface described health data being sent to the server end of wireless electron health system;

The gsm communication submodule is used for by the gsm communication interface described health data being sent to the server end of wireless electron health system;

WCDMA communicator module is used for by the WCDMA communication interface described health data being sent to the server end of wireless electron health system;

TD-SCDMA communicator module is used for by the TD-SCDMA communication interface described health data being sent to the server end of wireless electron health system;

WIFI communicator module is used for by the WIFI communication interface described health data being sent to the server end of wireless electron health system;

WIMAX communicator module is sent to described health data by the WIMAX communication interface server end of wireless electron health system.

Preferably, described wireless medical gateway equipment, wherein, described first communication module comprises: the wireless sensor network base station, described wireless sensor network base station comprises at least one in the following driver module:

Zigbee protocol-driven module;

IEEE 802.15.4 protocol-driven module.

Preferably, described wireless medical gateway equipment, wherein, described main control module comprises:

The general-purpose interface driver module is used for communicating by predetermined general-purpose interface and described first communication module and second communication module.

Preferably, described wireless medical gateway equipment, wherein, described main control module comprises:

Application interface module is used for managing described first communication module and second communication module in the mode of equipment by application programming interfaces.

Preferably, described wireless medical gateway equipment, wherein, described GPRS communicator module is: the GPRS data card.

On the other hand, provide a kind of wireless electron health system, wherein, comprising:

At least one wireless medical equipment terminal is used to gather user's health data, and the health data of described collection is sent;

Wireless medical gateway equipment, be used to receive and transmit the described health data that described wireless medical equipment terminal sends, described wireless medical gateway equipment comprises again: first communication module, be used to utilize first communication protocol, communicate, receive the health data that described wireless medical equipment terminal sends by first communication interface and wireless medical equipment terminal; Main control module is used for the health data of described first communication protocol is converted to the health data of second communication agreement, and transmits the health data of described second communication agreement; Second communication module is used to utilize second communication agreement and predetermined communication, by described communication network, the health data of described second communication agreement is sent by the second communication interface;

Server end is used to receive the described health data that described wireless medical gateway equipment sends.

Preferably, described wireless electron health system, wherein, described predetermined communication network is fixed communication network and/or mobile communications network.

Another aspect provides a kind of method for supervising of wireless medical equipment terminal, wherein, comprising:

Steps A, the first communication module of wireless medical gateway equipment are utilized first communication protocol, are communicated by first communication interface and wireless medical equipment terminal, receive the health data that described wireless medical equipment terminal sends;

Step B, the main control module of wireless medical gateway equipment is converted to the health data of second communication agreement with the health data of described first communication protocol, and transmits the health data of described second communication agreement;

Step C, the second communication module of wireless medical gateway equipment utilizes second communication agreement and predetermined communication, by described communication network, the health data of described second communication agreement is sent to the server end of wireless electron health system by the second communication interface.

Preferably, described method for supervising, wherein, among the described step C, described second communication module is sent to the health data of described second communication agreement by Internet the server end of wireless electron health system.

Preferably, described method for supervising, wherein, in the described steps A, described first communication module by at least a as lower interface and as described in the wireless medical equipment terminal communicate:

USB interface;

Serial ports;

Wireless sensor interface;

The WIFI interface;

Blue tooth interface;

The ultra broadband interface.

Preferably, described method for supervising, wherein, at least one during described step C comprises the steps:

The adsl communication submodule is sent to described health data by adsl interface the server end of wireless electron health system;

The ethernet communication submodule is sent to described health data by Ethernet interface the server end of wireless electron health system;

GPRS communicator module is sent to described health data by the GPRS communication interface server end of wireless electron health system;

The gsm communication submodule is sent to described health data by the gsm communication interface server end of wireless electron health system;

WCDMA communicator module is sent to described health data by the WCDMA communication interface server end of wireless electron health system;

TD-SCDMA communicator module is sent to described health data by the TD-SCDMA communication interface server end of wireless electron health system;

WIFI communicator module is sent to described health data by the WIFI communication interface server end of wireless electron health system;

WIMAX communicator module is sent to described health data by the WIMAX communication interface server end of wireless electron health system.

A technical scheme in the technique scheme has following technique effect:

Realize communicating by letter between wireless medical equipment terminal and the wireless medical gateway equipment by utilizing first communication module to pass through first communication protocol, utilize second communication module that health data is sent to predetermined communication network by the second communication agreement, and be sent to the server end of wireless electron health system by communication network, can realize communicating by letter between the server end of wireless medical gateway equipment and wireless electron health system; Original separated two parts have been combined, can have been realized the wireless electron health system according to user's actual requirement.

Description of drawings

Fig. 1 is the structural representation of the wireless medical gateway equipment of the embodiment of the invention;

Fig. 2 is the structural representation of the wireless electron health system of the embodiment of the invention;

Fig. 3 is the structural representation of the wireless electron health system of another embodiment of the present invention;

Fig. 4 is the structural representation of hardware components of the wireless medical gateway equipment of the embodiment of the invention;

Fig. 5 is the software configuration schematic diagram of the wireless medical gateway equipment of the embodiment of the invention;

Fig. 6 is in the wireless medical gateway equipment of another embodiment of the present invention, the software configuration schematic diagram of WSN base station.

Embodiment

For technical problem, technical scheme and advantage that the embodiment of the invention will be solved is clearer, be described in detail below in conjunction with the accompanying drawings and the specific embodiments.

Fig. 1 is the structural representation of the wireless medical gateway equipment of the embodiment of the invention.As Fig. 1, the wireless medical gateway equipment of this embodiment comprises:

First communication module 101 is used to utilize first communication protocol, communicates by first communication interface and wireless medical equipment terminal, receives the health data that described wireless medical equipment terminal sends;

Main control module 102 is used for the health data of described first communication protocol is converted to the health data of second communication agreement, and transmits the health data of described second communication agreement;

Second communication module 103 is used to utilize second communication agreement and predetermined communication, by described communication network, the health data of described second communication agreement is sent to the server end of wireless electron health system by the second communication interface.

Preferably, in the wireless medical gateway equipment of the embodiment of the invention, above-mentioned predetermined communication network is fixed communication network and/or mobile communications network.

Preferably, in the wireless medical gateway equipment of the embodiment of the invention, above-mentioned predetermined communication network further is sent to described health data by Internet the server end of described wireless electron health system.

Preferably, in the wireless medical gateway equipment of the embodiment of the invention, first communication interface comprises a kind of as in the lower interface at least: USB interface; Serial ports; The wireless sensor network interface; The WIFI interface; Blue tooth interface; Ultra broadband (UWB, Ultra Wide Band) ultra broadband interface.

Preferably, in the wireless medical gateway equipment of the embodiment of the invention, above-mentioned second communication interface comprises as in the lower interface at least one: the adsl communication interface; Ethernet interface; The GPRS communication interface; The gsm communication interface; The WCDMA communication interface; The TD-SCDMA communication interface; The WIFI communication interface; The WIMAX communication interface; Above-mentioned second communication module comprises in the following submodule at least: the adsl communication submodule is used for by adsl interface described health data being sent to the server end of wireless electron health system; The ethernet communication submodule is used for by Ethernet interface described health data being sent to the server end of wireless electron health system; GPRS communicator module is used for by the GPRS communication interface described health data being sent to the server end of wireless electron health system; The gsm communication submodule is used for by the gsm communication interface described health data being sent to the server end of wireless electron health system; WCDMA communicator module is used for by the WCDMA communication interface described health data being sent to the server end of wireless electron health system; TD-SCDMA communicator module is used for by the TD-SCDMA communication interface described health data being sent to the server end of wireless electron health system; WIFI communicator module is used for by the WIFI communication interface described health data being sent to the server end of wireless electron health system; WIMAX communicator module is sent to described health data by the WIMAX communication interface server end of wireless electron health system.The gateway device of the embodiment of the invention can be by in the above-mentioned communicator module at least one, utilize the communication network of corresponding communication system, health data is sent to Internet, and further is sent to the server end of the wireless electron health system that is connected with Internet by Internet.Exemplarily, as sending on the Internet by GPRS.

Preferably, in the wireless medical gateway equipment of the embodiment of the invention, above-mentioned first communication module comprises: the wireless sensor network base station, and described wireless sensor network base station comprises at least one in the following driver module: Zigbee protocol-driven module; IEEE 802.15.4 protocol-driven module.

Preferably, in the wireless medical gateway equipment of the embodiment of the invention, main control module comprises: the general-purpose interface driver module is used for communicating by predetermined general-purpose interface and described first communication module and second communication module.Exemplarily, above-mentioned predetermined general-purpose interface is a USB interface.

Preferably, in the wireless medical gateway equipment of the embodiment of the invention, main control module comprises: application interface module is used for managing described first communication module and second communication module in the mode of equipment by application programming interfaces.

Fig. 2 is the structural representation of the wireless electron health system of the embodiment of the invention.As Fig. 2, the wireless electron health system of this embodiment comprises: at least one wireless medical equipment terminal 201 is used to gather user's health data, and the health data of described collection is sent; Wireless medical gateway equipment 202 is used to receive and transmit the described health data that described wireless medical equipment terminal sends; Server end 203 is used to receive the described health data that described wireless medical gateway equipment sends.Further, server end is analyzed and is handled above-mentioned health data according to predetermined strategy after receiving above-mentioned health data.Above-mentioned wireless medical gateway equipment comprises again: first communication module, and be used to utilize first communication protocol, communicate by first communication interface and wireless medical equipment terminal, receive the health data that described wireless medical equipment terminal sends; Main control module is used for the health data of described first communication protocol is converted to the health data of second communication agreement, and transmits the health data of described second communication agreement; Second communication module is used to utilize second communication agreement and predetermined communication, by described communication network, the health data of described second communication agreement is sent to server end by the second communication interface.

Fig. 3 is the structural representation of the wireless electron health system of another embodiment.In this example, the wireless electron health system is divided into four parts from structure: medical terminal device; 2) wireless medical gateway equipment; 3) communication system; 4) server end of electronic health care service system.As Fig. 3, medical terminal device can pass through serial ports, UWB, WIFI, USB, bluetooth, wireless sensor network interfaces such as (WSN) and wireless medical pass and be connected, the wireless medical gateway can be by ADSL, 3G, GPRS, GSM, WIFI, WIMAX etc. fixing and/or wireless communication interface be connected on the Internet, and then be connected to the server end of electronic health care service system.

In the wireless electron health system of this embodiment, the wireless medical gateway must consider that on the one hand itself and medical terminal device are the implementation of the multiple complex interface of Medical Devices terminal; Must consider the implementation of the multiple complex interface of itself and Internet on the other hand.

Realization to embodiment of the invention wireless gateway device and wireless electron health system describes for example below.

In the realization of the embodiment of the invention, realize high adaptable wireless medical gateway based on the implementation method of standardized hardware component and high adaptable software configuration.In this example, exemplarily, but not as restrictedly, with the interface of medical terminal device be example with the wireless sensor network, communication system is that example illustrates with GPRS, but this method of the present invention is fit to every other interface mode, has generality.

(1) based on the implementation method of the hardware components of standardization hardware component

Fig. 4 is the structural representation of hardware components of the wireless medical gateway equipment of the embodiment of the invention.As Fig. 4, comprise four parts based on the hardware system of standardization hardware component: 1) medical treatment transducer interface subsystem for being embodied as the WSN base station, comprising in this example: the WSN interface; 2) communication subsystem is embodied as the GPRS data card in this example, comprising: the GPRS interface; 3) main control unit; 4) interface between each hardware module;

Hardware subsystem main function components based on the standardization hardware component is as follows:

(1) as the base station sub-system of wireless medical gateway, be responsible for communicating by letter with medical terminal device in WSN base station, itself and mobile terminal device interface are the IEEE 802.15.4 agreement of standard; And the interface of itself and main control unit is a USB interface.

(2) GPRS data card, the interface standard of itself and mobile communication system is a GPRS communication protocol, and the interface of itself and main control unit is a USB interface.

(3) main control unit is a main control module, exemplarily, can adopt the micro-control making sheet based on the ARM chip; Exemplarily, CPU is the ARM9 chip, has a plurality of USB interface, RS-232 interface, and it connects WSN base station and GPRS data card by USB interface.

(4) USB interface, the USB interface of adopting international standards; The standardized USB interface of the unified employing of the interface of main control unit and other unit subsystems also is the internal standard interface of system.

Based on the wireless medical gateway implementation method of standardization hardware component, it adopts three standardized hardware componenies to be embodied as unified hardware system by the USB interface of standard.Wherein, hardware component can adopt the dissimilar product of a plurality of manufacturers, comprises main control unit, as long as its performance and interface meet the requirement of wireless medical gateway.Therefore the realization of wireless medical gateway hardware subsystem is very simple, and also quite reliable on stability, function.

(2) can adapt to the implementation method of the software section of software configuration based on height

Fig. 5 is the software configuration schematic diagram of the wireless medical gateway equipment of the embodiment of the invention.As Fig. 5, the software systems that can adapt to software configuration based on height of the wireless medical gateway equipment of the embodiment of the invention are divided into three parts: 1) unified distributed software construction; 2) standardized api interface; 3) independent personalized software subsystem based on hardware component.

Hardware component solution based on the wireless medical gateway, wireless medical gateway equipment based on the adaptable software configuration of height, on software systems, adopt unified distributed software construction, be that each hardware component has oneself independently software subsystem, in this example, WSN base station, main control unit, and the GPRS data card all have oneself independently software subsystem.The software subsystem of main control unit is by standardized software parts and its interface, and the interface of itself and WSN base station is the USB interface driver module, and this module can drive by USB interface and realize, the interface of itself and GPRS data card is the GPRS driver based on the USB mode.The software subsystem of each separate hardware parts exemplarily can be specially:

(1) software subsystem on the WSN base station

The software module of WSN base station comprises: TinyOS embedded system, Zigbee agreement, IEEE802.15.4 protocol-driven module, serial interface driver module such as MIB520 driver module and wireless sensor network forwarding module; The wireless sensor network forwarding module is used to transmit the data of WSN node.The software system module of WSN node is as follows:

The nucleus module of WSN base station software system is Zigbee, IEEE802.15 protocol-driven module, to communicate by Zigbee, IEEE802.15 agreement between realization and WSN node.At present, in TinyOS, there have been multiple different Zigbee, IEEE802.15.4 agreement solution, as TKN154, OpenZB, Meshnetics etc.Because OpenZB has good hardware compatibility, therefore,, can in specific implementation, adopt the OpenZB scheme as Fig. 6, it not only realizes the Zigbee agreement, and realizes IEEE 802.15.4 agreement simultaneously.Wherein MIB520 interface processing module is used to realize the communication between WSN base station and the main control unit.

(2) software subsystem on the GPRS data card

The GPRS data card adopts the Vxworks embedded OS to realize software function more, and it realizes GPRS Mac layer protocol and network layer protocol based on Vxworks, and interface control API is provided simultaneously, allows driver module and its interface on the main control unit.But the software systems that the GPRS of different vendor data card may adopt are different fully, and the manufacturer that for example has adopts the Nuclues embedded OS, and the manufacturer that has adopts special-purpose embedded OS.On system realized, the interface drive program of main control unit and GPRS data card adopted unified Linux character device operation-interface to provide control interface to all upper layer application.

(3) main control unit

Main control unit adopts standardized software systems, wherein Linux embedded OS OS realizes the resource scheduling management function, GPRS interface driver module is the control and management interface that communicates with the GPRS data card, the ICP/IP protocol module is provided with the TCP/IP procotol that connects the Internet, the USB interface driver module is the control and management driver that communicates with the WSN base station, and the major function of master control administration module is to transmit the Internet and wireless sensor network data bag mutually.Exemplarily, in realizing, reality can adopt built-in Linux operating system.

Among this embodiment, high adaptable software configuration adopts unified distributed system architecture, and promptly the software subsystem of each hardware component adopts implementation separately, and the software subsystem interface of itself and main control unit adopts the unified api interface of standardization.Main control unit is managed each hardware component in the mode of equipment by api interface, all manages in the character device mode as WSN base station, GPRS data card.

High adaptable software configuration mode allows each hardware component to realize the software subsystem of oneself, therefore has high adaptability on software is realized, adopt Tinyos operating system as the WSN base station, and the GPRS data card adopts operating systems such as Vxworks.Any hardware component in the future all can adopt oneself independently implementation, as long as nuclear interface standardizing.

And the wireless gateway device of the embodiment of the invention, its implementation method based on the adaptable software configuration of height can well solve the software system function of wireless medical gateway and realize, have hardware component the high transplantability of high-adaptability, function, system's high reliability, be easy to realize, advantages such as the exploitation amount is little, structural module; Be fit to very much demand, interface constantly changes and/or system's realization of the wireless medical gateway that upgrades.

There is various complexity in the demand of wireless electron health system, it needs up-to-date best various technology to support, may provide medical treatment transducer interfaces such as already present wireless sensor network, bluetooth, USB by needs according to the user's request wireless gateway device, mobile communication interfaces such as GSM, GPRS, WCDMA, TD-SCDMA need be provided.Need on the other hand constantly to adapt to various new technical interfaces, as WIFI, WIMAX etc.; One of characteristics that it is maximum need provide different hardware interfaces according to different applicable cases exactly, and the software systems of high-adaptability, to satisfy the actual demand of different user system.The gateway device of the embodiment of the invention can be selected the wireless medical equipment communication between terminals of suitable communication module and communication interface realization and near-end according to user's demand, and with the communicating by letter of the server end of the wireless electron supervisory control system of far-end, thereby can realize satisfying the wireless electron health system of user's actual need.

Embodiments of the invention have proposed a kind of wireless medical gateway equipment, and an implementation method based on the wireless medical gateway equipment of hardware standard parts+high adaptable software configuration is proposed, can realize a wireless medical gateway that satisfies wireless electron health system demand according to user's request apace.The wireless medical gateway equipment of the embodiment of the invention, its hardware system adopts the integrated realization of standardized hardware component, comprise standardized master control system, standardized interface hardware, as 3G data card, GPRS data card, WSN node, bluetooth nodes, USB interface etc.; It is based on standardized hardware component Integrated Solution, the software systems of high adaptability adopt unified distributed software structure, standardized interface to add the software subsystem that personalized different modes is realized, realize software function fast, high adaptability is provided simultaneously.It can fast and effeciently adapt to the variation of hardware interface, hardware subsystem.Utilize the implementation method of the wireless medical gateway equipment of the embodiment of the invention, can realize the wireless medical gateway fast, and still the software systems general structure is constant can to adapt to the quick variation of hardware according to user's actual demand.

The present invention also provides a kind of method for supervising of wireless medical equipment terminal, comprising:

Step 701, the first communication module of wireless medical gateway equipment are utilized first communication protocol, are communicated by first communication interface and wireless medical equipment terminal, receive the health data that described wireless medical equipment terminal sends;

Step 702, the main control module of wireless medical gateway equipment is converted to the health data of second communication agreement with the health data of described first communication protocol, and transmits the health data of described second communication agreement;

Step 703, the second communication module of wireless medical gateway equipment utilizes second communication agreement and predetermined communication, by described communication network, the health data of described second communication agreement is sent to the server end of wireless electron health system by the second communication interface.

Preferably, described method for supervising, wherein, in the described step 703, described second communication module is sent to the health data of described second communication agreement by Internet the server end of wireless electron health system.

Preferably, described method for supervising, wherein, in the described step 701, described first communication module by at least a as lower interface and as described in the wireless medical equipment terminal communicate: USB interface; Serial ports; Wireless sensor interface; The WIFI interface; Blue tooth interface; The ultra broadband interface.

Preferably, described method for supervising, wherein, at least one during described step 703 comprises the steps:

The adsl communication submodule is sent to described health data by adsl interface the server end of wireless electron health system;

The ethernet communication submodule is sent to described health data by Ethernet interface the server end of wireless electron health system;

GPRS communicator module is sent to described health data by the GPRS communication interface server end of wireless electron health system;

The gsm communication submodule is sent to described health data by the gsm communication interface server end of wireless electron health system;

WCDMA communicator module is sent to described health data by the WCDMA communication interface server end of wireless electron health system;

TD-SCDMA communicator module is sent to described health data by the TD-SCDMA communication interface server end of wireless electron health system;

WIFI communicator module is sent to described health data by the WIFI communication interface server end of wireless electron health system;

WIMAX communicator module is sent to described health data by the WIMAX communication interface server end of wireless electron health system.

The above is a preferred implementation of the present invention; should be pointed out that for those skilled in the art, under the prerequisite that does not break away from the described principle of the embodiment of the invention; can also make some improvements and modifications, these improvements and modifications also should be considered as protection scope of the present invention.

Claims (15)

1. a wireless medical gateway equipment is characterized in that, comprising:

First communication module is used to utilize first communication protocol, communicates by first communication interface and wireless medical equipment terminal, receives the health data that described wireless medical equipment terminal sends;

Main control module is used for the health data of described first communication protocol is converted to the health data of second communication agreement, and transmits the health data of described second communication agreement;

Second communication module is used to utilize second communication agreement and predetermined communication, by described communication network, the health data of described second communication agreement is sent to the server end of wireless electron health system by the second communication interface.

2. wireless medical gateway equipment according to claim 1 is characterized in that described predetermined communication network is fixed communication network and/or mobile communications network.

3. wireless medical gateway equipment according to claim 1 is characterized in that, described predetermined communication network further is sent to described health data by Internet the server end of described wireless electron health system.

4. wireless medical gateway equipment according to claim 1 is characterized in that, described first communication interface comprises a kind of as in the lower interface at least:

USB interface;

Serial ports;

The wireless sensor network interface;

The WIFI interface;

Blue tooth interface;

The ultra broadband interface.

5. according to each described wireless medical gateway equipment among the claim 1-4, it is characterized in that,

Described second communication interface comprises as in the lower interface at least one:

The adsl communication interface;

Ethernet interface;

The GPRS communication interface;

The gsm communication interface;

The WCDMA communication interface;

The TD-SCDMA communication interface;

The WIFI communication interface;

The WIMAX communication interface;

Described second communication module comprises in the following submodule at least:

The adsl communication submodule is used for by adsl interface described health data being sent to the server end of wireless electron health system;

The ethernet communication submodule is used for by Ethernet interface described health data being sent to the server end of wireless electron health system;

GPRS communicator module is used for by the GPRS communication interface described health data being sent to the server end of wireless electron health system;

The gsm communication submodule is used for by the gsm communication interface described health data being sent to the server end of wireless electron health system;

WCDMA communicator module is used for by the WCDMA communication interface described health data being sent to the server end of wireless electron health system;

TD-SCDMA communicator module is used for by the TD-SCDMA communication interface described health data being sent to the server end of wireless electron health system;

WIFI communicator module is used for by the WIFI communication interface described health data being sent to the server end of wireless electron health system;

WIMAX communicator module is sent to described health data by the WIMAX communication interface server end of wireless electron health system.

6. wireless medical gateway equipment according to claim 1 is characterized in that described first communication module comprises: the wireless sensor network base station, and described wireless sensor network base station comprises at least one in the following driver module:

Zigbee protocol-driven module;

IEEE 802.15.4 protocol-driven module.

7. wireless medical gateway equipment according to claim 1 is characterized in that described main control module comprises:

The general-purpose interface driver module is used for communicating by predetermined general-purpose interface and described first communication module and second communication module.

8. wireless medical gateway equipment according to claim 1 is characterized in that described main control module comprises:

Application interface module is used for managing described first communication module and second communication module in the mode of equipment by application programming interfaces.

9. wireless medical gateway equipment according to claim 5 is characterized in that, described GPRS communicator module is: the GPRS data card.

10. a wireless electron health system is characterized in that, comprising:

At least one wireless medical equipment terminal is used to gather user's health data, and the health data of described collection is sent;

Wireless medical gateway equipment, be used to receive and transmit the described health data that described wireless medical equipment terminal sends, described wireless medical gateway equipment comprises again: first communication module, be used to utilize first communication protocol, communicate, receive the health data that described wireless medical equipment terminal sends by first communication interface and wireless medical equipment terminal; Main control module is used for the health data of described first communication protocol is converted to the health data of second communication agreement, and transmits the health data of described second communication agreement; Second communication module is used to utilize second communication agreement and predetermined communication, by described communication network, the health data of described second communication agreement is sent by the second communication interface;

Server end is used to receive the described health data that described wireless medical gateway equipment sends.

11. wireless electron health system according to claim 10 is characterized in that, described predetermined communication network is fixed communication network and/or mobile communications network.

12. the method for supervising of a wireless medical equipment terminal is characterized in that, comprising:

Steps A, the first communication module of wireless medical gateway equipment are utilized first communication protocol, are communicated by first communication interface and wireless medical equipment terminal, receive the health data that described wireless medical equipment terminal sends;

Step B, the main control module of wireless medical gateway equipment is converted to the health data of second communication agreement with the health data of described first communication protocol, and transmits the health data of described second communication agreement;

Step C, the second communication module of wireless medical gateway equipment utilizes second communication agreement and predetermined communication, by described communication network, the health data of described second communication agreement is sent to the server end of wireless electron health system by the second communication interface.

13. method for supervising according to claim 12 is characterized in that, among the described step C, described second communication module is sent to the health data of described second communication agreement by Internet the server end of wireless electron health system.

14. method for supervising according to claim 12 is characterized in that, in the described steps A, described first communication module by at least a as lower interface and as described in the wireless medical equipment terminal communicate:

USB interface;

Serial ports;

Wireless sensor interface;

The WIFI interface;

Blue tooth interface;

The ultra broadband interface.

15. method for supervising according to claim 12 is characterized in that, at least one during described step C comprises the steps:

The adsl communication submodule is sent to described health data by adsl interface the server end of wireless electron health system;

The ethernet communication submodule is sent to described health data by Ethernet interface the server end of wireless electron health system;

GPRS communicator module is sent to described health data by the GPRS communication interface server end of wireless electron health system;

The gsm communication submodule is sent to described health data by the gsm communication interface server end of wireless electron health system;

WCDMA communicator module is sent to described health data by the WCDMA communication interface server end of wireless electron health system;

TD-SCDMA communicator module is sent to described health data by the TD-SCDMA communication interface server end of wireless electron health system;

WIFI communicator module is sent to described health data by the WIFI communication interface server end of wireless electron health system;

WIMAX communicator module is sent to described health data by the WIMAX communication interface server end of wireless electron health system.

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