CN114461161B - Method for integrating QAweb with display and medical display applying method - Google Patents

Abstract

The invention provides a method for integrating QAweb into a display and a medical display applying the method, wherein a hardware module supporting a QAweb communication protocol is added in the existing display; the medical display comprises a power supply module, a display screen, a main control module, a QAweb hardware module, an input module and an interface module; the QAweb hardware module is connected with an external workstation host and transmits signals; the external workstation host is connected with the interface module and transmits signals. The QAweb software is integrated on the basis of the existing display system, so that the display is provided with the QAweb software, when the display is used in places such as hospitals, only a general external workstation host is needed to be equipped, the display integrated with the QAweb is connected to the external workstation host, input operation commands and display are generated on the display, and the work such as calculation, processing and storage is generated on the external workstation host, so that the QAweb software can be operated together at multiple ends of the hospitals and the functions of the QAweb software can be used.

Description

Method for integrating QAweb with display and medical display applying method

Technical Field

The invention relates to the field of medical equipment, in particular to a method for integrating QAweb with a display and a medical display applying the method.

Background

In the field of hospital digitization and informatization, the medical diagnosis needs to be performed by means of professional medical display equipment. With long-term use of the medical display apparatus or interference of external factors, the medical display apparatus may no longer conform to DICOM (Digital Imaging and Communications inMedicine, digital imaging and communication in medicine) standards, thereby causing a problem that the medical diagnosis result displayed by the medical display apparatus is not credible, and thus the medical display apparatus needs to be detected and calibrated.

The QAweb is the first software for realizing automatic quality control, calibration and display management in the industry, is the only software widely used by the market, and has the following powerful functions: (1) automatic QA; automatically detecting the brightness and DICOM consistency and automatically setting a QA plan; (2) automatic calibration; automatically detecting problems, pushing problem reports, and recommending solutions; any problem which does not meet the quality control requirement occurs, and the calibration can be automatically performed in real time without intervention; (3) automatic reporting; a plurality of standard reporting modes, and a custom mode; (4) central and remote control; customizing control authority; (5) quick installation and control; the workstation installation speed is about 30 minutes, no additional hardware setting is needed, and software tools or scripts can be customized; (6) asset management; all displays and related policies are managed centrally.

With the continuous development of display touch technology, the display integrated with the android system is increasingly widely applied. In the field of medical appliances, no medical display integrated with QA web exists at present, so that the medical display integrated with QA web is needed, and the purpose of using QA web software at high speed by a plurality of displays in a hospital can be realized by connecting a plurality of medical displays integrated with QA web with an external workstation host.

Disclosure of Invention

The invention aims to solve the defects in the prior art, and provides a method for integrating QAweb in a medical display and a display using the same.

In order to achieve the above purpose, the invention adopts the following technical scheme:

a method of integrating QAweb for medical displays, comprising the steps of:

s1, adding a QAweb hardware module supporting a QAweb communication protocol in a medical display, wherein the QAweb hardware module is based on an embedded processor supporting the QAweb communication protocol;

s2, installing QAweb software in an external workstation host;

s3, connecting the medical display with an external workstation host in a communication way;

s4, inputting a function operation instruction of the QAweb software at the medical display end, and sending the function operation instruction to an external workstation host through the QAweb hardware module;

s5, the external workstation host receives the operation instruction and sends a corresponding execution command to the medical display through the QAweb hardware module;

s6, the medical display executes corresponding actions according to the commands, and the generated results are fed back to the external workstation host;

and S7, after receiving the feedback information, the external workstation host performs calculation operation according to the function of the QAweb software, and the generated result is transmitted to the medical display for display.

Preferably, the QAweb hardware module is connected with a power supply module and a main control module in the display, the power supply module is used for supplying power to the QAweb hardware module, the main control module and the QAweb hardware module perform bidirectional signal transmission, and the external workstation host and the QAweb hardware module perform bidirectional signal transmission.

Preferably, the QAweb hardware module is communicated with the main control module through a serial port, and the main control module receives the instruction sent by the QAweb hardware module and then controls other components on the display to execute corresponding actions.

Preferably, the system to which the medical display is applied is one of an Android system, an IOS system and a hong Meng system.

Preferably, an external workstation host connects and manages a plurality of medical displays.

A medical display applying the display integrated QAweb method of any one of the above, comprising a power supply module, a display screen, a main control module, a QAweb hardware module, an input module and an interface module; the display screen, the main control module, the QAweb hardware module, the input module and the interface module are all connected with the power supply module and powered by the power supply module; the display screen, the QAweb hardware module, the input module and the interface module are all connected with the main control module; the QAweb hardware module is connected with an external workstation host; the external workstation host is connected with the interface module.

Preferably, the QAweb hardware module is based on an embedded processor supporting a QAweb communications protocol.

Preferably, the input module comprises a touch screen or a key.

Preferably, the interface module comprises at least one of HDMI, DP, DVI, VGA, USB.

Preferably, the display embedded application system is based on an Android system or an IOS system or a hong meng system.

Compared with the prior art, the invention has the beneficial effects that:

the hardware module supporting the QAweb communication protocol is added in the existing display, so that the medical display supports the QAweb, and the QAweb hardware module can be in communication connection with the main control module under the control of an external workstation host, thereby the medical display can conveniently realize a series of functions of the QAweb, including automatic detection of the performance of the medical display, automatic calibration of the display, automatic reporting, central and remote control, quick installation and control, asset management and the like, and a PC (personal computer) provided with QAweb software is not required to be additionally connected on the display.

Only a main external workstation host is needed to be equipped, the display integrated with the QAweb is connected to the external workstation host, the input operation command and the display are both generated on the display, the work of calculation, processing, storage and the like are all generated on the external workstation host, and all the displays and related strategies are remotely managed in the center, so that the running and working speed of software can be improved, the efficiency of work management is improved, the configuration of a computer can be effectively reduced, and the management cost is reduced.

Drawings

FIG. 1 is a schematic diagram of the steps of a method for integrating QAweb with a display;

fig. 2 is a block diagram of the architecture of a QAweb integrated medical display.

Detailed Description

For a further understanding of the objects, construction, features, and functions of the invention, reference should be made to the following detailed description of the preferred embodiments.

Referring to fig. 1 and 2 in combination, the present invention provides a method for integrating QAweb with a display, comprising the steps of:

s1, adding a QAweb hardware module 4 supporting a QAweb communication protocol into a medical display, wherein the QAweb hardware module 4 is based on an embedded processor supporting the QAweb communication protocol, such as an MTK processor of a Hera platform, and comprises an image interface and a USB interface besides the processor, wherein the image interface is used for receiving image information of the display, and the USB interface is used for interacting with external equipment;

s2, installing QAweb software in an external workstation host 7;

s3, connecting the medical display with an external workstation host 7 in a communication way; the function of communication connection between the two is realized by a QAweb hardware module 4 supporting a QAweb communication protocol;

s4, inputting a function operation instruction of the QAweb software at the medical display end, and sending the function operation instruction to an external workstation host 7 through the QAweb hardware module 4;

s5, the external workstation host 7 receives the operation instruction and sends a corresponding execution command to the medical display through the QAweb hardware module 4;

s6, the medical display executes corresponding actions according to the commands, and the generated results are fed back to the external workstation host 7;

and S7, after receiving the feedback information, the external workstation host 7 performs calculation operation according to the function of the QAweb software, and the generated result is transmitted to a medical display for display.

In the method for integrating the QAweb in the display, the main computation, storage and other processes of the QAweb software occur in the external workstation host 7, the display executes corresponding actions according to the commands sent by the external workstation host 7, and the executed result information is fed back into the external workstation host 7 for further analysis or correction by the external workstation host 7.

The functions of automatic QA, automatic calibration, automatic report, remote control, management and the like of the medical display are achieved by using QAweb software, but the existing display does not support QAweb communication with an external workstation host 7, and the QAweb hardware module 4 supporting a QAweb communication protocol is added in the existing medical display, so that communication between the medical display and the external workstation host 7 can be achieved through the QAweb hardware module 4, and the software function of the QAweb can be achieved.

The invention directly adds the QAweb hardware module 4 in the medical display to enable the medical display to support the QAweb communication protocol, so that the medical display can directly support the QAweb function after leaving the factory, as long as the QAweb software is installed on the external workstation host 7, the actions required by the QAweb software function can be directly executed under the control of the external workstation host 7 after the external workstation host 7 is connected, and one external workstation host 7 can be connected with a plurality of medical displays, thereby being capable of quickly and effectively realizing the powerful function of the QAweb software, and realizing the quick detection, calibration and management of the medical display without independently checking and correcting a certain medical display.

In one embodiment, the QAweb hardware module 4 is connected to the power module 1 and the main control module 3 in the display, the power module 1 is used for supplying power to the QAweb hardware module 4, the main control module 3 and the QAweb hardware module 4 perform bidirectional signal transmission, and the external workstation host 7 and the QAweb hardware module 4 perform bidirectional signal transmission. The QAweb hardware module 4 and the main control module 3 are communicated through a serial port, and the main control module 3 receives an instruction sent by the QAweb hardware module 4 and then controls other components on the display to execute corresponding actions.

The QAweb hardware module 4 functions as a communication bridge, and can set up a communication channel for the command of the QAweb software between the medical display and the external workstation host 7. The QAweb hardware module 4 supports a QAweb communication protocol, can be connected with an external workstation host 7, can send commands which can be read and written by QAweb software to the external workstation host 7, and can receive QAweb function instructions sent by the external workstation host 7; the QAweb hardware module 4 is connected with the main control module 3 inside the medical display through serial port (but not limited to serial port) communication, and can process the received QAweb instruction sent by the external workstation host 7 and then transmit the processed QAweb instruction to the main control module 3, the main control module 3 processes the processed QAweb instruction and then transmits the processed QAweb instruction to each module of the display, the corresponding action command is executed, the main control module 3 transmits feedback information to the QAweb hardware module 4 after the execution, the QAweb hardware module 4 transmits the feedback information to the external workstation host 7, and the next action is judged through the program of the QAweb software.

In one embodiment, the system to which the medical display is applied is one of an Android system, an IOS system, and a hong system.

In one embodiment, an external workstation host 7 connects and manages a plurality of medical displays; the medical monitor is controlled by the external workstation host 7 to execute actions and feed back information to the external workstation host 7, and the external workstation host 7 can realize simultaneous management of a plurality of medical monitors by relying on the function of QAweb software.

Referring to fig. 1 and 2 in combination, a medical display employing the method of integrating QAweb with any one of the above displays includes a power module 1, a display screen 2, a main control module 3, a QAweb hardware module 4, an input module 5 and an interface module 6; the display screen 2, the main control module 3, the QAweb hardware module 4, the input module 5 and the interface module 6 are all connected with the power supply module 1 and are powered by the power supply module 1; the display screen 2, the QAweb hardware module 4, the input module 5 and the interface module 6 are all connected with the main control module 3; the QAweb hardware module 4 is connected with an external workstation host 7; the external workstation host 7 is connected with the interface module 6.

Preferably, the QAweb hardware module 4 is based on an embedded processor supporting the QAweb communication protocol, and can directly support and execute functions in the QAweb software after being connected with an external workstation.

Preferably, the interface module 6 comprises at least one of HDMI, DP, DVI, VGA, USB. Preferably, the display embedded application system is based on an Android system or an IOS system or a hong mong system.

In an embodiment, the input module 5 includes a touch screen or a key, so that a corresponding software operation can be directly displayed on the medical display port, and a corresponding command can be directly input on the medical display port, and a corresponding QAweb software function is started to detect, calibrate or manage the medical display. Therefore, the method can conveniently and directly carry out targeted detection processing on a certain medical display, can be realized by only needing one external workstation host 7, can effectively simplify configuration, save cost and improve management efficiency.

Therefore, the method for integrating the QAweb in the medical display is skillfully improved based on the current common display, so that the produced medical display has the QAweb software function, is suitable for mass production, and has wide application prospect. The medical display integrated with the QAweb has lower cost than a computer, so that the running environment is simpler and faster, the working efficiency can be effectively improved, the stability of software use is improved, and the management is convenient.

The invention has been described with respect to the above-described embodiments, however, the above-described embodiments are merely examples of practicing the invention. It should be noted that the disclosed embodiments do not limit the scope of the invention. On the contrary, the intention is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

Claims (7)

1. A method for integrating a display into a QAweb, wherein both an input operation command and a display occur on a medical display and the tasks of calculating, processing, storing, etc. occur on an external workstation host, comprising the steps of:

s1, adding a QAweb hardware module supporting a QAweb communication protocol in a medical display, wherein the QAweb hardware module is based on an embedded processor supporting the QAweb communication protocol; the QAweb hardware module is connected with a power supply module and a main control module in the display, the power supply module is used for supplying power to the QAweb hardware module, bidirectional signal transmission is carried out between the main control module and the QAweb hardware module, and bidirectional signal transmission is carried out between an external workstation host and the QAweb hardware module; the QAweb hardware module is communicated with the main control module through a serial port, and the main control module controls other components on the display to execute corresponding actions after receiving the instruction sent by the QAweb hardware module;

s2, installing QAweb software in an external workstation host;

s3, connecting the medical display with an external workstation host in a communication way;

s4, inputting a function operation instruction of the QAweb software at the medical display end, and sending the function operation instruction to an external workstation host through the QAweb hardware module;

s5, the external workstation host receives the operation instruction and sends a corresponding execution command to the medical display through the QAweb hardware module;

s6, the medical display executes corresponding actions according to the commands, and the generated results are fed back to the external workstation host;

s7, after receiving the feedback information, the external workstation host performs calculation operation according to the function of the QAweb software, and the generated result is transmitted to the medical display for display; the system applied by the medical display is one of an Android system, an IOS system and a hong Meng system.

2. The method of integrating the QAweb with a display of claim 1, wherein: an external workstation host connects and manages the plurality of medical displays.

3. A medical display employing the display integration QAweb method of any of claims 1-2, characterized in that: the system comprises a power supply module, a display screen, a main control module, a QAweb hardware module, an input module and an interface module; the display screen, the main control module, the QAweb hardware module, the input module and the interface module are all connected with the power supply module and powered by the power supply module; the display screen, the QAweb hardware module, the input module and the interface module are all connected with the main control module; the QAweb hardware module is connected with an external workstation host; the external workstation host is connected with the interface module.

4. A medical display according to claim 3, wherein: the QAweb hardware module is based on an embedded processor supporting a QAweb communication protocol.

5. A medical display as defined in claim 4, wherein: the input module comprises a touch screen or keys.

6. A medical display as defined in claim 4, wherein: the interface module includes at least one of HDMI, DP, DVI, VGA, USB.

7. A medical display as defined in claim 4, wherein: the display embedded application system is based on an Android system or an IOS system or a hong Meng system.

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