CN110739060A - dynamic color high-brightness display method for operating room area - Google Patents

Abstract

The invention provides dynamic color highlighting display methods for operating room areas, which comprises S1, enabling a computer to be in communication with a microprocessor of a display, S2, transmitting coordinates of input equipment to the microprocessor of the display through the computer, and S3, controlling a display screen of the display to open a highlighting window at the coordinates of the input equipment through the microprocessor of the display.

Description

dynamic color high-brightness display method for operating room area

Technical Field

The invention relates to a display device, in particular to an operating room area dynamic color highlighting display method.

Background

The operating room has strong ambient light, and doctors need to quickly and accurately find operating points in the operating process. This requires dynamic window highlighting.

The existing operating room display displays a full-screen highlight video without a dynamic window highlight, and the operation navigation positioning is difficult.

Disclosure of Invention

To solve the problems of the prior art, the present invention provides dynamic color highlighting method for operating room area.

The invention provides dynamic color highlighting display method for operating room area, comprising the following steps:

s1, communicating the computer with the microprocessor of the display;

s2, transmitting the coordinates of the input device to a microprocessor of the display through a computer;

and S3, controlling a display screen of the display to open a highlight display window at the coordinates of the input device through the microprocessor of the display.

As a further improvement of the present invention at , the microprocessor of the display iteratively obtains the coordinates of the input device at step S3 so that the highlighted window tracks the coordinates of the input device in real time.

As a further improvement of , in step S1, the computer communicates with the microprocessor of the display via the USB cable via the USB to serial module.

As a further improvement of the present invention, step S2 includes the following sub-steps:

s21, reading the brightness, contrast, horizontal size and vertical size of the highlight window saved for times from the memory of the computer, and assigning the brightness, contrast, horizontal size and vertical size to the highlight window of the user parameters;

s22, reading the contrast and brightness data of the highlight window set by the user through the computer and sending the data to the microprocessor of the display;

s23, reading the horizontal coordinate of the screen input device, then calculating the horizontal display starting and ending parameters of the highlight display window, and sending the parameters to the microprocessor of the display; reading the vertical coordinate of the screen input device, then calculating the vertical display starting and ending parameters of the highlight display window, and sending the parameters to a microprocessor of the display;

and S24, informing the microprocessor of the display to open the highlighted window.

As a further improvement of the present invention in step , opening the highlighted window in step S3 includes increasing the brightness and contrast of the window

The invention has the beneficial effects that: by the scheme, dynamic highlight display of the display screen of the display can be realized, and surgical navigation and positioning are facilitated.

Drawings

FIG. 1 is a computer-side software flowchart of methods for dynamic color highlighting of operating room areas according to the present invention.

FIG. 2 is a flow chart of display software for method for dynamic color highlighting of operating room areas according to the present invention.

Detailed Description

The invention is further described with reference to the following description of the drawings and the detailed description.

As shown in fig. 1 to 2, the method for displaying dynamic color highlight in operating room area comprises the following steps:

s1, communicating the computer with a Microprocessor (MCU) of the display;

s2, transmitting the coordinates of the input device (such as a mouse) to the microprocessor of the display through the computer;

and S3, controlling a display screen of the display to open a highlight display window at the coordinates of the input device through the microprocessor of the display.

As shown in fig. 1 to 2, in step S3, the microprocessor of the display repeatedly obtains the coordinates of the input device so that the highlight window tracks the coordinates of the input device in real time.

As shown in fig. 1 to 2, in step S1, the computer performs serial communication with the microprocessor of the display through the USB cable via the USB-to-serial module.

As shown in fig. 1 to 2, step S2 includes the following sub-steps:

s21, reading the brightness, contrast, horizontal size and vertical size of the highlight window saved for times from the memory of the computer, and assigning the brightness, contrast, horizontal size and vertical size to the highlight window of the user parameters;

s22, reading the contrast and brightness data of the highlight window set by the user through the computer and sending the data to the microprocessor of the display;

s23, reading the horizontal coordinate of the screen input device, then calculating the horizontal display starting and ending parameters of the highlight display window, and sending the parameters to the microprocessor of the display; reading the vertical coordinate of the screen input device, then calculating the vertical display starting and ending parameters of the highlight display window, and sending the parameters to a microprocessor of the display;

and S24, informing the microprocessor of the display to open the highlighted window.

The operating principle of the dynamic color highlighting display method for the operating room area provided by the invention is as follows:

the method comprises the steps of 1, connecting a medical display with a computer through a USB cable, converting USB data into serial data by a USB-to-serial conversion module, connecting the serial data with a display MCU video processing module, firstly powering on and resetting the display MCU and initializing the MCU and peripheral equipment, and then carrying out serial communication processing, wherein the serial communication mainly comprises the steps of receiving horizontal display starting parameters of a highlight window at the computer end, horizontally displaying ending parameters of the highlight window, vertically displaying starting parameters of the highlight window and vertically displaying ending parameters of the highlight window, (if the resolution of a display screen is 1920 x 1080, knowing that the range of a display picture is 1920 lines in horizontal display, 1080 lines in vertical display, detecting the horizontal starting display size of the highlight window is 0-1920), then receiving the brightness and contrast of the highlight window, receiving opening and closing instructions of the highlight window, then carrying out video input detection processing, then carrying out key input detection and processing by a user, then carrying out OSD processing, then carrying out processing on the video data displayed on the highlight window, then carrying out power-off processing on the video data, and then carrying out backlight processing under the condition of .

2, the processing method of the computer software comprises the following steps:

the parameters that the user can control are 1, switch the highlight window, 2, set the horizontal size of the highlight window, 3, set the vertical size of the highlight window, 4, set the brightness of the highlight window, 5, set the contrast of the highlight window, 6, start running, 7, stop running.

The software starts to run (a start button), then serial port communication is set, (baud rate, check bit and the like matched with a serial port at a display end are set), ( times of brightness, contrast, horizontal size and vertical size parameters stored in a highlight window of a computer are read and assigned to brightness, contrast, horizontal size and vertical size of the highlight window of a user, then the brightness of the highlight window of the user and the contrast parameters of the highlight window are read and sent to a display MCU through a serial port, then coordinates of a screen mouse are obtained, parameters of the coordinates of the screen mouse, horizontal size parameters of the highlight window, vertical size parameters of the highlight window and parameters of a display screen of the display are obtained through calculation by a formula, the horizontal display start result of the highlight window and the horizontal display end result of the highlight window are sent to the MCU of the display, the vertical display start result of the highlight window and the vertical display end result of the highlight window are sent to the MCU of the display window, the horizontal display start result of the highlight window and the vertical display end result of the highlight window are sent to the MCU of the highlight window of the display window 631920, the highlight window is obtained, the horizontal display of the highlight window is also the mouse, the horizontal display start coordinate of the highlight window is set, the highlight window is the horizontal display of the highlight window, the highlight window is repeatedly set by the horizontal display of the highlight window, the horizontal display of the highlight window is set by the horizontal display window, the horizontal display of the highlight window, the horizontal display window of the highlight window, the.

And thirdly, if the user stops running (stop button), sending a close highlight window to the display. And then storing the parameters of the brightness of the highlight window, the contrast of the highlight window, the horizontal size of the highlight window and the vertical size of the highlight window into a computer memory.

kinds of dynamic color highlighting method for operating room area provided by the invention, the computer obtains the coordinates of the mouse through the communication of the computer and the MCU of the display, then the display is informed to open highlighting window with certain size (the highlighting window can not only improve the brightness of the image, but also improve the outline and color enhancement of the image).

It will be apparent to those skilled in the art that many more modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the following claims .

Claims (5)

1, method for displaying dynamic color and high brightness of operating room area, which is characterized by comprising the following steps:

s1, communicating the computer with the microprocessor of the display;

s2, transmitting the coordinates of the input device to a microprocessor of the display through a computer;

and S3, controlling a display screen of the display to open a highlight display window at the coordinates of the input device through the microprocessor of the display.

2. The method of claim 1, wherein the method comprises: in step S3, the microprocessor of the display repeatedly obtains the coordinates of the input device so that the highlighted window tracks the coordinates of the input device in real time.

3. The method of claim 1, wherein the method comprises: in step S1, the computer performs serial communication with the microprocessor of the display through the USB cable via the USB-to-serial module.

4. The method of claim 1, wherein the method comprises: in step S3, opening the highlighted window includes increasing the brightness and contrast of the window.

5. The method of claim 1, wherein the method comprises: step S2 includes the following substeps:

s21, reading the brightness, contrast, horizontal size and vertical size of the highlight window saved for times from the memory of the computer, and assigning the brightness, contrast, horizontal size and vertical size to the highlight window of the user parameters;

s22, reading the contrast and brightness data of the highlight window set by the user through the computer and sending the data to the microprocessor of the display;

s23, reading the horizontal coordinate of the screen input device, then calculating the horizontal display starting and ending parameters of the highlight display window, and sending the parameters to the microprocessor of the display; reading the vertical coordinate of the screen input device, then calculating the vertical display starting and ending parameters of the highlight display window, and sending the parameters to a microprocessor of the display;

and S24, informing the microprocessor of the display to open the highlighted window.

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