KR101451106B1 - Portable healthcare gateway device - Google Patents

Abstract

The portable healthcare gateway device according to embodiments of the present invention receives data through a Bluetooth module between at least one personal healthcare device (PHD) that supports a Bluetooth module, a Health Device Profile (HDP) Bluetooth profile, An HDP gateway controller for processing the received data and sending an instruction to the PHD to control the operation, and a USB controller operating as a USB slave to the USB host device when connected to an external USB host device via the USB interface have. At this time, the USB controller is logically connected to the USB host device connected to the USB interface so that the Bluetooth module is not recognized as a Bluetooth device, receives power from the USB host device through the USB interface, and receives the power from the Bluetooth module and the HDP gateway controller .

Description

[0001] PORTABLE HEALTHCARE GATEWAY DEVICE [0002]

The present invention relates to ubiquitous healthcare technology, and more particularly, to a healthcare gateway.

As a short-range wireless communication technology with low power and high reliability, Bluetooth is a suitable technology for medical applications. Conventionally, a unique ubiquitous health care service has been developed for each company according to the SPP (Serial Port Profile) profile, which is a basic transmission profile of Bluetooth in hospitals, homes, and nursing homes, and personal detection devices and servers have been widely used. These proprietary applications may be incompatible because they are driven by different data formats.

To address this problem, the IEEE 11073 standard was published in the International Standards Organization (ISO). IEEE 11073 introduces the concept of an agent and a manager. The agent is a personal health device (PHD), and the manager can receive data from the agent with a larger operation resource and display it to the user. Each agent can communicate with one manager, and one manager can communicate with multiple agents.

The bluetooth profile established in accordance with the IEEE 11073 standard is a health device profile (HDP). PHD agents that support HDP profiles can be connected to a manager that supports HDP profiles.

Various types of PHD agents can connect to the HDP manager via Bluetooth and send the health information of the PHD users to the HDP manager gateway. The HDP Manager can deliver the received health information back to the hospital or health care service provider's server through a wired or wireless network such as Bluetooth, Wi-Fi, or mobile communication link.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a portable healthcare gateway device that can be mounted on a host device or operated independently.

A portable healthcare gateway device according to an aspect of the present invention includes:

Bluetooth module;

Receiving data via the Bluetooth module between at least one personal healthcare device (PHD) supporting a Health Device Profile (HDP) Bluetooth profile, processing the received data, and controlling operation of the PHD An HDP gateway control unit for transmitting an instruction to the HDP gateway; And

And a USB controller that operates as a USB slave to the USB host device when connected to an external USB host device via the USB interface,

The USB controller is logically connected to a USB host device connected to the USB interface so that the Bluetooth module is not recognized as a Bluetooth device,

The USB controller may be connected to the Bluetooth module and the HDP gateway controller by receiving power from the USB host device through the USB interface.

According to one embodiment, the HDP gateway control unit includes:

An HDP manager for receiving at least one PHD through the Bluetooth module, the Bluetooth packets including health data, event report or request according to an HDP profile, and transmitting Bluetooth packets including an indication;

A packet parser for parsing the Bluetooth packet received by the HDP manager and extracting an APDU (Application Protocol Data Unit);

A request processing unit for generating a response message corresponding to a request regarding creation and release of a session among the parsed APDUs;

A presentation processor for generating a response message corresponding to an event reporting or instruction processing result of the PHD among the parsed APDUs; And

And a setting DB that stores the changed setting state of the PHD according to session creation, release, event generation, instruction processing, and the like.

According to one embodiment, the HDP gateway control unit includes:

An application layer in which a user healthcare application that operates on a user healthcare application capable of analyzing health data transmitted from a PHD having a data format and an attribute defined in the IEEE 11073-104xx series and extracting information on the health state of the user can be further included.

According to one embodiment, the Bluetooth module is connected to the USB controller through a serial communication interface, and the HDP gateway controller can be connected to the USB host device through the serial interface and the USB controller of the Bluetooth module .

According to one embodiment,

Wherein the Bluetooth module further comprises a clock providing a reference time for the at least one PHD,

The HDP gateway controller receives time information from the USB host device using an NTP (network time protocol) protocol or an SNTP (Simple NTP) protocol, and based on the received time information, And a host clock synchronizing unit for updating the host clock synchronizing unit.

According to one embodiment, the Bluetooth module and the HDP gateway controller may be implemented on a single programmable embedded Bluetooth microcontroller (MCU).

According to one embodiment, the USB host device may be at least one of a PC with a USB host controller, a USB OTG (On-the-Go) support device, a USB support external battery device, and a non-PC based USB host support device .

According to one embodiment, the portable healthcare gateway device

battery; And

A power supply for supplying power uninterrupted from the battery to the Bluetooth module and the controller of the HDP gateway even if power supply through the USB controller is interrupted and the battery is charged with an extra power supplied through the USB controller; And may further include a management section.

According to one embodiment, the portable healthcare gateway device comprises:

A display for displaying at least one of the operation state of the portable healthcare gateway device, the PHD state, the Bluetooth communication state, and the battery charge amount information to the user.

According to the portable healthcare gateway device of the present invention, a plurality of HDP-supported PHDs can be collected by the user in use while collecting health measurement data from the PHDs and perform necessary processing.

According to the portable healthcare gateway device of the present invention, when a USB port is provided and connected to a host PC through a PC peripheral device interface, charging and clock synchronization can be performed from the host PC.

According to the portable healthcare gateway device of the present invention, even when it is removed from the USB port of the host PC, it does not operate regardless of the USB connection of the host PC.

1 is a conceptual diagram illustrating a personal portable healthcare gateway device according to an embodiment of the present invention.

For the embodiments of the invention disclosed herein, specific structural and functional descriptions are set forth for the purpose of describing an embodiment of the invention only, and it is to be understood that the embodiments of the invention may be practiced in various forms, The present invention should not be construed as limited to the embodiments described in Figs.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. The same reference numerals are used for the same constituent elements in the drawings and redundant explanations for the same constituent elements are omitted.

In this specification, the source and the sink are terms defined in the Bluetooth HDP Profile Technical Document, and the agent and the manager are terms defined in the IEEE 11073-20601 technical document, , The sink and the manager can be mixed with each other.

In this specification, the term clock does not mean a clock signal for synchronizing the operation of a logic circuit or for synchronizing a signal, but means a clock for expressing a time in the real world.

1 is a conceptual diagram illustrating a portable healthcare gateway device according to an embodiment of the present invention.

1, the portable healthcare gateway device 10 may include a Bluetooth module 11, an HDP gateway control unit 12, a USB controller 13, a power management unit 14, and a battery 15, And may further include a display controller 16 and a display 17 according to an embodiment.

The Bluetooth module 11 has a hardware configuration including a Bluetooth logic 111, a Bluetooth baseband 112, a Bluetooth wireless transceiver 113, an antenna 114 and a clock 115, (HDCP) layer, an MCAP (Multi-Channel Adaptation Protocol) layer, an SDP (Serivce Discovery Protocol) layer, a GAP (Generic Access Profile) And the like.

The HDP gateway control unit 12 receives health data through a Bluetooth module between at least one personal health management device (PHD) that is electrically connected to the Bluetooth module 11 and supports the HDP Bluetooth profile, And sends an instruction to the PHD to control the operation.

To this end, the HDP gateway control unit 12 includes an HDP manager 121, a packet parser 122, a request processing unit 123, a presentation unit 123, and a display unit 124. The HDP manager 121 communicates with the HDP layer of the Bluetooth module 11 according to the IEEE 11073-20601 data exchange protocol standard. The processing unit 124, the setting DB 125, the user healthcare application 126, and the like can be driven in the application layer.

The HDP manager 121 receives Bluetooth packets including health data of the received PHDs and event reports or requests according to the HDP profile through the Bluetooth module 11 and also transmits the Bluetooth packets to the request processing unit 123, And the user healthcare application 126 to the PHD through the Bluetooth module 11 according to the HDP profile.

The Bluetooth packet received by the HDP manager 121 is parsed by the packet parser 121. The request processing unit 123 generates a response message corresponding to a request for creation and release of a session or the like based on the congestion of an APDU (application protocol data unit) obtained through parsing, or when the presentation processing unit 124 It is possible to generate a response message corresponding to the event report or instruction processing result. The setting DB 125 can store the changed PHD setting state according to session creation, release, event generation, instruction processing, and the like.

The user healthcare application 126 may be configured to generate specific PHDs, such as the blood glucose meter (s), for example, in the IEEE 11073-104xx family, in which both data types and attributes are specially defined (see the Device specialization section of the IEEE std 11073-104xx 2008 Health informatics document) It is an application that can analyze the health data transmitted from the blood pressure monitor and extract information about the user's health status.

In addition, the HDP gateway control unit 12 may further include a host clock synchronization unit 127. The host clock synchronizing unit 127 receives from the host PC 20 a network time protocol (NTP) protocol or a simple NTP (SNTP) protocol, for example, when the portable healthcare gateway apparatus 10 is connected to the host PC 20 To receive and update the time information. The Bluetooth module 11 provides a reference time for at least one PHD on the clock 115. The host clock synchronizer 127 synchronizes the Bluetooth module 11 with the SYNC profile on the basis of the received time information, The reference time of the clock 115 of FIG.

In this case, the HDP gateway control unit 12 must communicate with the host PC 20. For this purpose, for example, the Bluetooth module 11 can be connected to the USB controller 13 through the serial communication interface, The control unit 12 may be connected to the host PC 20 through the serial interface of the Bluetooth module 11 and the USB controller 13. [ The USB controller 13 can serve as a repeater between the HDP gateway control unit 12 and the host PC 20 and the HDP gateway control unit 12 can indirectly communicate with the host PC 20. [

Also, according to the embodiment, the HDP gateway control unit 12 instructs the host PC 20 to perform the backup or transmission of the collected health data, the backup of the setting information for the PHDs, And the like, as shown in FIG.

According to an embodiment, the Bluetooth module 11 and the HDP gateway control unit 12 may be implemented in a single programmable embedded Bluetooth microcontroller (MCU).

The USB controller 13 is connected to an external USB host device, for example, a PC having a USB host controller, a USB OTG (On-the-Go) supported device, a USB-supported external battery device, , It can operate as a slave to the connected host device.

At this time, even if the portable healthcare gateway device 10 has a USB interface and connects the USB interface to the USB port of the host PC 20, the host PC 20 recognizes only the USB controller 13 as a slave And does not recognize the existence of the HDP gateway control unit 12 or the Bluetooth module 11. [ Thus, the portable healthcare gateway device 10 can be connected to the host PC 20 via the USB interface, or the host PC 20 can be connected to the HDP sink 20 as long as the power supply is maintained, Or a manager operation of IEEE 11073-20601.

The USB controller 13 can supply power necessary for driving the Bluetooth module 11 and the HDP gateway control unit 12 by receiving power through the USB port of the host PC 20, Power to the power management unit 14.

The power management unit 14 can charge the battery 15 with electric power transmitted through the USB controller 13. [ The power management unit 14 may supply uninterrupted power from the battery 15 to the Bluetooth module 11 and the HDP gateway control unit 12 even if the connection to the host apparatus 20 is disconnected.

In some embodiments, the portable healthcare gateway device 10 may operate substantially stand-alone, so that the user may be informed of the operational state of the portable healthcare gateway device 10, the PHD state, the Bluetooth communication state, You may need a way to display various information such as the battery charge.

To this end, the portable healthcare gateway device 10 may further include a display controller 16 and a display 17.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, Modification is possible. Accordingly, the spirit of the present invention should be understood only in accordance with the following claims, and all of the equivalent or equivalent variations will fall within the scope of the present invention.

10 Portable Healthcare Gateway Device
11 Bluetooth module 12 HDP gateway controller
13 USB controller 14 Power management
15 Battery 16 Display Controller
17 display

Claims (9)

Bluetooth module;
For receiving data via the Bluetooth module between at least one personal healthcare device (PHD) supporting a Health Device Profile (HDP) Bluetooth profile, for processing the received data, and for controlling operations to the PHD An HDP gateway control unit for transmitting an instruction; And
And a USB controller that operates as a USB slave to the USB host device when connected to an external USB host device via the USB interface,
The USB controller is logically connected to a USB host device connected to the USB interface so that the Bluetooth module is not recognized as a Bluetooth device,
The USB controller is connected to the Bluetooth module and the HDP gateway controller by receiving power from the USB host device through a USB interface,
The HDP gateway control unit,
An HDP manager for receiving at least one PHD through the Bluetooth module, the Bluetooth packets including health data, event report or request according to an HDP profile, and transmitting Bluetooth packets including an indication;
A packet parser for parsing the Bluetooth packet received by the HDP manager and extracting an APDU (Application Protocol Data Unit);
A request processing unit for generating a response message corresponding to a request regarding creation and release of a session among the parsed APDUs;
A presentation processor for generating a response message corresponding to an event reporting or instruction processing result of the PHD among the parsed APDUs;
A setting DB for storing a setting state of the PHD changed according to session creation, release, event generation, instruction processing, and the like; And
And an application layer in which a user healthcare application that can extract information on a health state of a user by analyzing health data transmitted from a PHD having a data format and an attribute defined in IEEE 11073-104xx series,
Wherein the Bluetooth module is connected to the USB controller through a serial communication interface so that the HDP gateway controller can communicate with the USB host device through the serial interface and the USB controller of the Bluetooth module,
Wherein the Bluetooth module and the HDP gateway control unit are implemented on a single programmable Embedded Bluetooth Microcontroller Unit (MCU). delete delete delete The method according to claim 1,
Wherein the Bluetooth module further comprises a clock providing a reference time for the at least one PHD,
The HDP gateway controller receives time information from the USB host device using an NTP (network time protocol) protocol or an SNTP (Simple NTP) protocol, and based on the received time information, And a host clock synchronization unit for updating the host clock synchronization unit. delete The USB host device of claim 1, wherein the USB host device is at least one of a PC having a USB host controller, a device supporting a USB OTG (On-the-Go), a USB supporting external battery device, A portable healthcare gateway device. The method according to claim 1,
battery; And
A power supply for supplying power uninterrupted from the battery to the Bluetooth module and the controller of the HDP gateway even if power supply through the USB controller is interrupted and the battery is charged with an extra power supplied through the USB controller; Further comprising a management unit for managing the portable healthcare gateway device. The method according to claim 1,
Further comprising a display for displaying at least one of an operation state of the portable healthcare gateway device, a PHD state, a Bluetooth communication state, and a battery charge amount information to a user.

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