CN112932534B

CN112932534B - Ultrasonic image acquisition processing system and ultrasonic image acquisition processing method

Info

Publication number: CN112932534B
Application number: CN202110111144.4A
Authority: CN
Inventors: 康聪
Original assignee: Shenzhen Wisonic Medical Technology Co ltd
Current assignee: Shenzhen Wisonic Medical Technology Co ltd
Priority date: 2021-01-27
Filing date: 2021-01-27
Publication date: 2022-02-22
Anticipated expiration: 2041-01-27
Also published as: CN112932534A

Abstract

The invention discloses an ultrasonic image acquisition processing system and an ultrasonic image acquisition processing method. The ultrasonic image acquisition processing system comprises ultrasonic equipment and an ultrasonic workstation, wherein the ultrasonic equipment receives an image acquisition instruction and monitors the current interface state based on the image acquisition instruction; when the current interface state of the ultrasonic equipment is the cooperative interface state, the ultrasonic equipment enters a cooperative working mode, cooperates with the ultrasonic workstation, acquires a target ultrasonic image and stores the target ultrasonic image on the ultrasonic equipment and the ultrasonic workstation; the cooperative interface state is a state that the ultrasonic equipment is connected with the ultrasonic workstation through a first video cable, a second video cable and a USB cable. Under the cooperative working mode, the doctor can operate the equipment to control the ultrasonic equipment to work and remotely control the ultrasonic workstation, so that the data transmission process in the ultrasonic image acquisition and storage process is facilitated to be simplified, the processing efficiency of ultrasonic image acquisition and storage is facilitated to be improved, and the processing time is shortened.

Description

Ultrasonic image acquisition processing system and ultrasonic image acquisition processing method

Technical Field

The invention relates to the technical field of ultrasonic imaging, in particular to an ultrasonic image acquisition processing system and an ultrasonic image acquisition processing method.

Background

Present hospital or other medical institutions increasingly adopt ultrasound image collection processing system to carry out ultrasound image collection and storage, and current ultrasound image collection processing system generally includes ultrasonic equipment, supersound workstation and swift operation button, ultrasonic equipment with adopt a standard video cable to link to each other between the supersound workstation, just supersound workstation with swift operation button passes through the USB cable and links to each other, swift operation button is the swift hardware equipment who adopts the USB interface, can be manual button or foot switch for control supersound workstation carries out ultrasound image collection and storage. The ultrasonic workstation is matched with ultrasonic equipment of various models, and is equipment integrating functional modules such as patient registration, image acquisition, diagnosis editing, report printing, image post-processing, medical record inquiry, statistical analysis and the like.

The conventional ultrasound image acquisition and processing system generally comprises the following steps: (1) the operator of the workstation performs operations such as related information login, historical ultrasonic report consultation and historical ultrasonic image consultation through the ultrasonic workstation. (2) The method comprises the steps that an equipment operation doctor controls ultrasonic equipment to conduct ultrasonic scanning to form a target ultrasonic image, the target ultrasonic image is stored on the ultrasonic equipment by operating an equipment operation key on the ultrasonic equipment, or a workstation operator is informed to conduct image acquisition by the shortcut operation key, and the target ultrasonic image is transmitted to an ultrasonic workstation through a standard video cable so as to be stored on the ultrasonic workstation. (3) And if the equipment operation doctor thinks that the ultrasonic report draft has errors, the equipment operation doctor still needs to inform the workstation operator to modify, the process consumes a long time, and the processing efficiency is low. The existing ultrasonic image acquisition and processing system needs a workstation operator to operate an ultrasonic workstation, and an equipment operation doctor operates ultrasonic equipment to cooperate, so that the problems of low processing efficiency, long time consumption and high labor cost exist in the ultrasonic image acquisition and processing process.

Disclosure of Invention

The embodiment of the invention provides an ultrasonic image acquisition processing system and an ultrasonic image acquisition processing method, which aim to solve the problems of low processing efficiency, long time consumption and high labor cost in the process of acquiring an ultrasonic image by matching ultrasonic equipment and an ultrasonic workstation.

The invention provides an ultrasonic image acquisition processing system, which comprises an ultrasonic device and an ultrasonic workstation,

the ultrasonic equipment is used for receiving an image acquisition instruction and monitoring the current interface state based on the image acquisition instruction;

the ultrasonic equipment is used for entering a cooperative working mode when the current interface state is a cooperative interface state, cooperatively cooperating with the ultrasonic workstation, acquiring a target ultrasonic image and storing the target ultrasonic image on the ultrasonic equipment and the ultrasonic workstation;

the cooperative interface state is a state in which the ultrasonic equipment is connected with the ultrasonic workstation through a first video cable, a second video cable and a USB cable.

The invention also provides an ultrasonic image acquisition processing method, which comprises the following steps:

the method comprises the steps that an ultrasonic device receives an image acquisition instruction, and the current interface state is monitored based on the image acquisition instruction;

when the current interface state is a cooperative interface state, the ultrasonic equipment enters a cooperative working mode, cooperates with an ultrasonic workstation, acquires a target ultrasonic image and stores the target ultrasonic image on the ultrasonic equipment and the ultrasonic workstation;

According to the ultrasonic image acquisition processing system and the ultrasonic image acquisition processing method, when the ultrasonic equipment detects that the current interface state is the cooperative interface state, the cooperative working mode is entered, the ultrasonic equipment and the ultrasonic workstation are cooperatively matched to acquire the target ultrasonic image, and the target ultrasonic image is stored in the equipment memory and the workstation memory, so that the purpose of simultaneously storing the target ultrasonic image in the ultrasonic equipment and the ultrasonic workstation is realized, and the target ultrasonic image is prevented from being forgotten to be stored. Under the cooperative working mode, the doctor can operate the equipment to control the ultrasonic equipment to work and remotely control the ultrasonic workstation, so that the data transmission process in the ultrasonic image acquisition and storage process is facilitated to be simplified, the processing efficiency of ultrasonic image acquisition and storage is facilitated to be improved, and the processing time is shortened.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments of the present invention will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without inventive labor.

FIG. 1 is a schematic diagram of an ultrasound image acquisition processing system in accordance with an embodiment of the present invention;

FIG. 2 is a flowchart of a method for processing ultrasound image acquisition according to an embodiment of the present invention;

FIG. 3 is another flowchart of a method for processing ultrasound image acquisition according to an embodiment of the present invention;

FIG. 4 is another flowchart of a method for processing ultrasound image acquisition according to an embodiment of the present invention;

FIG. 5 is another flowchart of a method for processing ultrasound image acquisition according to an embodiment of the present invention;

fig. 6 is another flowchart of an ultrasound image acquisition processing method according to an embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In an ultrasound image acquisition processing system provided by an embodiment of the present invention, the ultrasound image acquisition processing system includes an ultrasound device and an ultrasound workstation, and the ultrasound device and the ultrasound workstation are connected through a first video cable, a second video cable and a USB cable.

In this example, the ultrasound device is provided with a first video input interface, a first video output interface and a first USB interface; the ultrasonic workstation is provided with a second video input interface, a second video output interface and a second USB interface; the first video output interface is connected with the second video input interface through a first video cable, the first video input interface is connected with the second video output interface through a second video cable, and the first USB interface is connected with the second USB interface through a USB cable.

Wherein, the first video input interface is an interface which is arranged on the ultrasonic equipment and is used for receiving video. The first video output interface is an interface for transmitting video provided on the ultrasound apparatus. The first USB interface is a USB interface arranged on the ultrasound device for receiving or transmitting a control signal.

Wherein the second video input interface is an interface arranged on the ultrasonic workstation and used for receiving video. The second video output interface is an interface for transmitting video provided on the ultrasound workstation. The second USB interface is a USB interface which is arranged on the ultrasonic workstation and used for receiving or sending control signals.

In this example, a first video output interface on the ultrasound device and a second video input interface on the ultrasound workstation are connected by a first video cable, so that the ultrasound device can send the ultrasound image to the ultrasound workstation by the first video cable. The first video input interface on the ultrasonic equipment is connected with the second video output interface on the ultrasonic workstation through a second video cable, so that the ultrasonic workstation can send the ultrasonic image to the ultrasonic equipment through the second video cable. The first USB interface on the ultrasonic equipment is connected with the second USB interface on the ultrasonic workstation through a USB cable, so that the ultrasonic equipment and the ultrasonic workstation can transmit control signals through the USB cable, and hardware guarantee is provided for cooperative work between the ultrasonic workstation of the ultrasonic equipment.

The ultrasonic equipment comprises an equipment processor, an equipment control display card connected with the equipment processor, an equipment video processing module and an equipment memory, wherein the equipment control display card is connected with an equipment display screen and used for controlling the equipment display screen to display, and the equipment video processing module is connected with a first video input interface and a first video output interface and used for controlling the receiving or sending of ultrasonic images. In this example, the device video processing module may be a video capture card or a video stitching module, and processing software for capturing video or performing multi-path video stitching processing is provided on the video capture card or the video stitching module.

The ultrasonic workstation comprises a workstation processor, a workstation control display card connected with the workstation processor, a workstation video processing module and a workstation memory, wherein the workstation control display card is connected with a workstation display screen and used for controlling the workstation display screen to display, and the workstation video processing module is connected with a second video input interface and a second video output interface and used for controlling the receiving or sending of ultrasonic images. In this example, the workstation video processing module may be a video capture card or a video stitching module, and processing software for capturing video or performing multi-path video stitching processing is provided on the video capture card or the video stitching module.

In an embodiment, an ultrasound image acquisition processing system is provided, comprising an ultrasound device and an ultrasound workstation:

the cooperative interface state is a state that the ultrasonic equipment is connected with the ultrasonic workstation through a first video cable, a second video cable and a USB cable.

Wherein the image acquisition instruction is a request for acquiring an ultrasound image. The current interface state is the state of the ultrasound device and ultrasound workstation current interface connection. The target ultrasound image is an ultrasound image finally acquired by executing an image acquisition instruction.

As an example, the device operating doctor may input an image acquisition instruction by clicking an image acquisition button on the ultrasound device, and after receiving the image acquisition instruction, the ultrasound device needs to detect the current interface states of the ultrasound device and the ultrasound workstation. In this example, when the current interface state is a normal interface state or a cooperative interface state, the image capturing operation may be performed, where the normal interface state is a state where the first video cable passes between the ultrasound device and the ultrasound workstation. The cooperative interface state is a state that the ultrasonic equipment is connected with the ultrasonic workstation through a first video cable, a second video cable and a USB cable.

In this example, the cooperative interface state is a state in which the ultrasonic device and the ultrasonic workstation are connected to each other through the first video cable, the second video cable, and the USB cable. Because the cooperative interface state is a state in which the first video output interface of the ultrasonic device and the second video input interface of the ultrasonic workstation are connected through the first video cable, and the first video input interface of the ultrasonic device and the second video output interface of the ultrasonic workstation are connected through the second video cable, the ultrasonic device can send the ultrasonic image to the ultrasonic workstation through the first video cable and the ultrasonic workstation can also send the ultrasonic image to the ultrasonic device through the second video cable in the cooperative interface state. Due to the fact that the first USB interface of the ultrasonic equipment and the second USB interface of the ultrasonic workstation are connected through the USB cable in the cooperative interface state, control signals can be transmitted between the ultrasonic equipment and the ultrasonic workstation, and technical support is provided for controlling the ultrasonic workstation to work through the ultrasonic equipment.

As an example, when the current interface state is the cooperative interface state, the ultrasound device enters the cooperative working mode, cooperates with the ultrasound workstation, acquires a target ultrasound image, and stores the target ultrasound image on the ultrasound device and the ultrasound workstation, which may specifically include: when the ultrasonic equipment detects that the current interface state is the cooperative interface state, the ultrasonic equipment and the ultrasonic workstation in the ultrasonic image acquisition processing system enter a cooperative working mode, an ultrasonic probe in the ultrasonic equipment is used for scanning human tissues to obtain a target ultrasonic image, and the target ultrasonic image is stored in an equipment memory. And then, the ultrasonic equipment sends the target ultrasonic image to the ultrasonic workstation, and sends a target control signal to the ultrasonic workstation through the USB cable so as to control the ultrasonic workstation to execute the target control signal, and the target ultrasonic image is stored in a workstation memory, so that the purpose of simultaneously storing the target ultrasonic image on the ultrasonic equipment and the ultrasonic workstation is realized. The target control signal is a control signal for enabling remote control of the ultrasound workstation. Finally, the ultrasonic equipment can also control the ultrasonic workstation to map a target ultrasonic image received by the ultrasonic workstation to the ultrasonic equipment in a full screen mode through a second video cable, so that an equipment operation doctor can map and display a display interface of the ultrasonic workstation on the ultrasonic equipment, and remote control over the ultrasonic workstation is realized through the ultrasonic equipment, so that the equipment operation doctor can finish acquisition and processing operation of the target ultrasonic image through the ultrasonic equipment, and the ultrasonic equipment is remotely controlled to finish acquisition and storage operation of the target ultrasonic image, so that the single operation ultrasonic equipment and the ultrasonic workstation are realized, the process of data transmission in the acquisition and storage process of the ultrasonic image is facilitated to be simplified, the processing efficiency of acquisition and storage of the ultrasonic image is facilitated to be improved, and the processing time is shortened.

In the ultrasound image acquisition processing system provided in this embodiment, when the ultrasound device detects that the current interface state is the cooperative interface state, the ultrasound device enters the cooperative working mode, and the ultrasound device and the ultrasound workstation cooperate with each other to acquire the target ultrasound image, and store the target ultrasound image in the device memory and the workstation memory, thereby achieving the purpose of simultaneously storing the target ultrasound image in the ultrasound device and the ultrasound workstation, and avoiding forgetting to store the target ultrasound image. Under the cooperative working mode, the doctor can operate the equipment to control the ultrasonic equipment to work and remotely control the ultrasonic workstation, so that the data transmission process in the ultrasonic image acquisition and storage process is facilitated to be simplified, the processing efficiency of ultrasonic image acquisition and storage is facilitated to be improved, and the processing time is shortened.

In an embodiment, the ultrasound device is further configured to enter a normal operating mode when the current interface state is a normal interface state, acquire and store a target ultrasound image, and send the target ultrasound image to the ultrasound workstation, so that the ultrasound workstation stores the target ultrasound image.

Wherein, the common interface state is the state of passing through the first video cable between ultrasonic equipment and the ultrasonic workstation.

In this example, the normal interface state is a state between the ultrasound device and the ultrasound workstation via the first video cable. Because the common interface state is a state in which the first video output interface of the ultrasonic device and the second video input interface of the ultrasonic workstation are connected through the first video cable, the ultrasonic device can send the ultrasonic image to the ultrasonic workstation through the first video cable in the common interface state, but the ultrasonic workstation cannot send the ultrasonic device to the ultrasonic device through the first video cable.

As an example, when the ultrasound device detects that the current interface state is the common interface state, the ultrasound device and the ultrasound workstation in the ultrasound image acquisition processing system enter a common working mode, acquire a target ultrasound image by using the ultrasound device and store the target ultrasound image in the device memory, and then send the target ultrasound image to the ultrasound workstation through the first video cable, so that an operator of the workstation stores the target ultrasound image in the workstation memory, thereby realizing storage of the target ultrasound image on both the ultrasound device and the ultrasound workstation. Understandably, when the current interface state of the ultrasonic equipment is the common interface state, the ultrasonic equipment and the ultrasonic workstation enter a common working mode, and the processing process of the ultrasonic equipment and the ultrasonic workstation is the processing mode of the conventional ultrasonic equipment and the ultrasonic workstation.

In an embodiment, when the current interface state is the normal interface state, the ultrasound device enters the normal operating mode, acquires and stores a target ultrasound image, and sends the target ultrasound image to the ultrasound workstation, including: when the current interface state of the ultrasonic equipment is the common interface state, the ultrasonic equipment enters a common working mode, acquires and stores a target ultrasonic image, and sends the target ultrasonic image to the ultrasonic workstation, so that the ultrasonic workstation stores the target ultrasonic image, and the ultrasonic equipment comprises: and when the current interface state of the ultrasonic equipment is the common interface state, displaying a single-screen display interface, and intercepting the target ultrasonic image from the original ultrasonic image displayed in the single-screen display interface. The ultrasound device stores the target ultrasound image on the device memory and transmits the target ultrasound image to the ultrasound workstation via the first video cable. The ultrasound workstation receives the target ultrasound image and stores the target ultrasound image on the workstation memory.

The single-screen display interface is a display interface with only one display area. The original ultrasonic image is an ultrasonic image which is not subjected to interception processing and is formed by operating an ultrasonic probe to scan human tissues by equipment operation doctors.

As an example, when the current interface state of the ultrasound device is the normal interface state, the device may control the display card to control the display screen of the device to display a single-screen display interface, and an original ultrasound image formed by operating the ultrasound probe by a doctor is displayed on the single-screen display interface. Then, the device operator may intercept a target ultrasound image from the original ultrasound image displayed on the single-screen display interface, where the target ultrasound image may be understood as an ultrasound image formed by the device operator analyzing the original ultrasound image and finding a standard or appropriate section to intercept the original ultrasound image. The device operating physician may then control the ultrasound device to store the target ultrasound image in a device memory of the ultrasound device and transmit the target ultrasound image to the ultrasound workstation via the first video cable. Finally, the ultrasound workstation may receive the target ultrasound image, which may be stored in a workstation memory by a workstation operator for the purpose of storing the target ultrasound image on both the ultrasound device and the ultrasound workstation.

In one embodiment, the method for intercepting a target ultrasound image from an original ultrasound image displayed in a single-screen display interface comprises the following steps: the ultrasonic equipment controls the single-screen display interface to display the original ultrasonic image and receives an image intercepting instruction, wherein the image intercepting instruction comprises a target intercepting area determined based on the single-screen display interface. The ultrasonic equipment executes an image interception instruction, and intercepts a target ultrasonic image corresponding to a target interception area from the original ultrasonic image.

Wherein the image interception instruction is an instruction for controlling the ultrasound equipment to intercept the target ultrasound image. The target interception area is an interception area determined by the device operation doctor from the original ultrasonic image displayed on the single-screen display interface, and can be a rectangular area, namely the device operation doctor can determine the target interception area by determining two vertexes on a diagonal line of the rectangular area through input or a cursor.

As an example, the ultrasound device controls the display card through the device, controls the device to display a single-screen display interface on the display screen, and displays the original ultrasound image on the single-screen display interface. Then, the ultrasound device can receive an upper left vertex a and a lower right vertex B of a target interception area which needs to be intercepted in the original ultrasound image, a rectangular area formed by the upper left vertex a and the lower right vertex B is used as a target interception area, and an ultrasound image corresponding to the target interception area intercepted from the original ultrasound image is determined as a target ultrasound image. Understandably, the original ultrasonic image is displayed on a single-screen display interface of the ultrasonic equipment, so that a doctor operating the equipment can input an image intercepting instruction by operating the ultrasonic equipment to realize the purpose of quickly intercepting the target ultrasonic image from the original ultrasonic image on the single-screen display interface.

In an embodiment, the ultrasound apparatus is further configured to display a dual-screen display interface when the current interface state is the cooperative interface state, where the dual-screen display interface includes a first display area and a second display area.

The ultrasonic equipment is further used for intercepting a first ultrasonic image from the original ultrasonic image displayed in the first display area, storing the first ultrasonic image in an equipment memory, sending the first ultrasonic image to the ultrasonic workstation through a first video cable, and sending the image processing instruction to the ultrasonic workstation through a USB cable.

And the ultrasonic workstation is used for receiving the first ultrasonic image and the image processing instruction, executing the image processing instruction, storing the first ultrasonic image in a workstation memory, and sending the first ultrasonic image to the ultrasonic equipment through the second video cable.

The ultrasound equipment is further used for determining the received first ultrasound image as a second ultrasound image, controlling the first display area to display the first ultrasound image and controlling the second display area to display the second ultrasound image.

Wherein the target ultrasound image includes a first ultrasound image and a second ultrasound image.

The double-screen display interface is a display interface with two display areas. The first display area and the second display area refer to two display areas in the dual-screen display interface, the first display area is a display area for displaying a control interface of the ultrasonic equipment, and the second display area is a display area for displaying a control interface of the ultrasonic workstation. The image processing instruction refers to a processing instruction for controlling the ultrasound workstation to store and forward images.

As an example, when the ultrasound device detects that the current interface state is the cooperative interface state, the device may control the display card to control the device to display a dual-screen display interface on the display screen, where a first display area and a second display area are formed on the dual-screen display interface, and an original ultrasound image formed by operating the ultrasound probe by the doctor is displayed on the first display area. Then, the device operator may cut a first ultrasound image from the original ultrasound image displayed on the first display area of the dual-screen display interface, where the first ultrasound image may be understood as an ultrasound image formed by the device operator analyzing the original ultrasound image and cutting the original ultrasound image to find a standard or appropriate section. The device operating physician may then control the ultrasound device to store the first ultrasound image in a device memory of the ultrasound device and transmit the first ultrasound image to the ultrasound workstation via the first video cable. Moreover, the device operating doctor can also form image processing instructions by operating the ultrasound device and send the image processing instructions to the ultrasound workstation through the USB cable.

As an example, the ultrasound workstation may receive a first ultrasound image via the first video cable and receive image processing instructions via the USB cable, and the ultrasound workstation may then execute the image processing instructions to store the first ultrasound image in the workstation memory and transmit the first ultrasound image to the ultrasound device to cause the ultrasound device to determine the received first ultrasound image transmitted by the ultrasound workstation as a second ultrasound image, which is displayed on a device display screen of the ultrasound device to facilitate a device operator to process the second ultrasound image received by the ultrasound workstation. Understandably, the ultrasonic workstation can store and forward images according to image processing instructions input by the equipment operation doctor through the ultrasonic equipment, so that the cooperative processing process of the ultrasonic equipment and the ultrasonic workstation can be completed by the equipment operation doctor through controlling the ultrasonic equipment without being completed by multiple persons in a matched manner, the processing efficiency of ultrasonic image acquisition and storage is improved, the processing time is reduced, and the processing cost is saved.

As an example, the ultrasound device may receive a second ultrasound image transmitted by the ultrasound workstation through the second video cable, and display the second ultrasound image on the second display area, so that the dual-screen display interface of the ultrasound image respectively displays the first ultrasound image on the ultrasound image and the second ultrasound image on the ultrasound workstation, so that the device operation doctor processes the first ultrasound image on the first display area and the second ultrasound image on the second display area, thereby implementing cooperative control over the ultrasound device and the ultrasound workstation, which is beneficial to improving processing efficiency of ultrasound image acquisition and storage, reducing processing time consumption, and saving processing cost.

In an embodiment, the ultrasound apparatus is further configured to control the first display area to display the original ultrasound image, and receive an image capture instruction, where the image capture instruction includes a target capture area determined based on the first display area.

And the ultrasonic equipment is also used for executing an image interception instruction and intercepting a first ultrasonic image corresponding to the target interception area from the original ultrasonic image.

Wherein the image interception instruction is an instruction for controlling the ultrasound apparatus to intercept the target ultrasound image, which is the first ultrasound image. The target interception area is an interception area determined by the device operator from the original ultrasound image displayed on the first display area, and may be a rectangular area, that is, the device operator may determine the target interception area by determining two vertexes on a diagonal of the rectangular area through an input or a cursor.

As an example, the ultrasound device controls the display card through the device, controls the device to display a dual-screen display interface on a display screen, and displays the original ultrasound image on a first display area of the dual-screen display interface. Then, the ultrasound device can receive the upper left vertex C and the lower right vertex D of the target interception area that needs to be intercepted in the original ultrasound image, a rectangular area formed by the upper left vertex C and the lower right vertex D is used as a target interception area, and the ultrasound image corresponding to the target interception area intercepted from the original ultrasound image is determined as the target ultrasound image. Understandably, the original ultrasonic image is displayed on the first display area of the double-screen display interface of the ultrasonic equipment, so that the equipment operation doctor can input an image interception instruction by operating the ultrasonic equipment to realize the purpose of quickly intercepting the target ultrasonic image from the original ultrasonic image on the first display area.

In an embodiment, the ultrasound device is further configured to perform image comparison on the first ultrasound image and the second ultrasound image, obtain an image comparison result, and display a transmission distortion message if the image comparison result is image distortion.

As an example, an image recognition algorithm for performing image contrast analysis processing may be further preconfigured on the ultrasound device, and after the ultrasound device controls the first display area to display the first ultrasound image and controls the second display area to display the second ultrasound image, the image recognition algorithm may be further invoked to perform image contrast on the first ultrasound image and the second ultrasound image to determine whether an image distortion phenomenon exists in the second ultrasound image relative to the first ultrasound image or whether the image distortion degree reaches a specific standard, and obtain an image contrast result, so as to determine the distortion degree of the second ultrasound image in the transmission process of passing through the first video cable and the second video cable according to the image contrast result. In this example, when the image comparison result is an image distortion, the ultrasound image may control the first display area and/or the second display area to display a transmission distortion message, where the transmission distortion message is used to remind the device operator of the fact that the ultrasound image has an image distortion phenomenon during the transmission of the first video cable and/or the second video cable, so as to remind the device operator of the fact that the ultrasound image is reprocessed, and update the first ultrasound image stored in the device memory and the workstation memory.

In an embodiment, the ultrasound device is further configured to receive a target control command in the current working mode, and determine a control object corresponding to the target control command.

And the ultrasonic equipment is also used for sending the target control instruction to the ultrasonic workstation through the USB cable when the current working mode is the cooperative working mode and the control object is the ultrasonic workstation.

The ultrasonic workstation is also used for receiving the target control instruction, executing the target control instruction, acquiring a target execution result and transmitting the target execution result to the ultrasonic equipment through a second video cable.

And the ultrasonic equipment is also used for receiving the target execution result and controlling the second display area to display the target execution result.

The current working mode refers to a current working mode of the ultrasound image acquisition and processing system, and the current working mode can be a cooperative working mode and a common working mode. The target control instruction is an instruction for controlling the operation of the ultrasound apparatus or the ultrasound workstation. The control object corresponding to the target control instruction refers to a terminal for finally executing the target control instruction, that is, the control object may be an ultrasonic device or an ultrasonic workstation.

As an example, in the current working mode, the ultrasound device may receive a target control instruction input by a device operation doctor through a shortcut key, a cursor, or another input device, and determine a control object corresponding to the target control instruction, that is, determine whether the target control instruction is executed by the ultrasound device or the ultrasound workstation.

In this example, when the current working mode of the ultrasonic device is the cooperative working mode and the control object of the target control instruction is the ultrasonic workstation, it is described that the ultrasonic device is connected to the ultrasonic workstation through the first video cable, the second video cable and the USB cable to provide hardware security for the ultrasonic workstation remotely controlled by the ultrasonic device, and at this time, the ultrasonic device may send the received target control instruction to the ultrasonic workstation through the USB cable. After receiving the target control instruction, the ultrasonic workstation needs to execute the target control instruction so as to transmit a target execution result obtained by executing the target control instruction to the ultrasonic equipment through the second video cable and/or the USB cable. When the ultrasonic equipment receives the target execution result, the second display area is controlled by the equipment control display card to display the target execution result, so that the aim of executing a target control instruction by using the ultrasonic equipment remote control ultrasonic workstation is fulfilled, the control process of the ultrasonic equipment and the ultrasonic workstation is only completed by the operation of an equipment operation doctor without being matched with an operator of the workstation, the processing efficiency of the ultrasonic equipment is improved, and the labor cost in the processing process is reduced.

In an embodiment, the ultrasound device is further configured to execute the target control instruction, acquire the target execution result, and control the first display area to display the target execution result when the current working mode is the normal working mode or the control object is the ultrasound device.

In this example, when the current working mode of the ultrasound device is the normal working mode, it is described that the ultrasound device and the ultrasound workstation are still transmitted through the first video cable, only the target ultrasound image can be sent to the ultrasound workstation through the first video cable, and other control operations cannot be performed, and the control object corresponding to the target control instruction is determined as the ultrasound device.

In this example, when the current working mode of the ultrasound device is the cooperative working mode and the control object corresponding to the target control instruction of the ultrasound device is the ultrasound device, the ultrasound device directly executes the target control instruction, obtains a target execution result, and controls the first display area to display the target execution result, so as to complete the execution and display processes of the target control instruction.

In one embodiment, the ultrasound device is further configured to receive an image review command in the cooperative operating mode, and send the image review command to the ultrasound workstation via the USB cable, where the image review command includes the user identifier.

And the ultrasonic workstation is also used for receiving an image reference instruction, querying a workstation memory based on the image reference instruction, acquiring a historical ultrasonic image corresponding to the user identifier, and sending the historical ultrasonic image to the ultrasonic equipment through a second video cable.

The ultrasonic equipment is also used for controlling the first display area to display the first ultrasonic image and controlling the second display area to display the historical ultrasonic image.

Wherein the image review instruction is an instruction for controlling review of a historical ultrasound image in the ultrasound workstation. The user identifier is an identifier for uniquely identifying a user, and may be an identifier of a user who is scanned for human tissue. Historical ultrasound images refer to ultrasound images that are formed at the current time of the system and stored on the ultrasound workstation.

As an example, the ultrasound image receiving apparatus may operate a specific button in the second display area operated by the doctor, input a user identification in an input box displayed on the second display area to form an image review instruction for querying the historical ultrasound image corresponding to the user identification, and then, the ultrasound apparatus may transmit the image review instruction to the ultrasound workstation through the USB cable. After the ultrasonic workstation receives an image consulting instruction sent by the USB cable, the workstation memory is queried according to the user identifier in the image consulting instruction, a historical ultrasonic image corresponding to the user identifier is obtained from the workstation memory, and then the historical ultrasonic image is sent to the ultrasonic equipment through the second video cable. The ultrasonic equipment can control a first display area of the double-screen display interface to display the first ultrasonic image and a second display area to display the historical ultrasonic image under the operation of an equipment operation doctor. Understandably, the first ultrasonic image is an ultrasonic image formed by the ultrasonic equipment performing ultrasonic scanning on the user corresponding to the user identification at the current time of the system, and the historical ultrasonic image is an ultrasonic image formed by performing ultrasonic scanning on the user corresponding to the user identification before the current time of the system, so that the first ultrasonic image and the historical ultrasonic image are simultaneously displayed on a double-screen display interface of the ultrasonic equipment, and a doctor operating the equipment can conveniently perform contrast observation.

In an embodiment, the ultrasound device is further configured to perform feature comparison on the first ultrasound image and the historical ultrasound image, acquire a feature distinguishing region, control the first ultrasound image to highlight the feature distinguishing region, and control the historical ultrasound image to highlight the feature distinguishing region.

As an example, an image recognition algorithm for performing image contrast analysis processing may be further configured in advance on the ultrasound image, and after the ultrasound device receives the historical ultrasound image, the ultrasound device may further perform feature contrast on the first ultrasound image and the historical ultrasound image corresponding to the same user identifier by using the image recognition algorithm to obtain a feature difference region, where the feature difference region is a region corresponding to a relatively obvious difference feature in the first ultrasound image and the historical ultrasound image. For example, if the difference between the gray levels of pixels corresponding to the same tissue position between the first ultrasound image and the historical ultrasound image is large, the feature corresponding to the pixel point is determined as a distinguishing feature, and the feature corresponding to the pixel point in a certain region is determined as a feature distinguishing region when the ratio of the distinguishing feature is larger than a preset ratio threshold. Then, the ultrasonic equipment can control the first ultrasonic image highlighting feature distinguishing region and control the historical ultrasonic image highlighting feature distinguishing region, so that an equipment operation doctor can perform key observation on the feature distinguishing regions in the first ultrasonic image and the historical ultrasonic image, the equipment operation doctor can perform analysis processing conveniently, and the analysis processing efficiency is improved.

In an embodiment, the ultrasound device is further configured to receive a mode switching instruction when the current interface state is the cooperative interface state, and switch to enter the cooperative working mode or the normal working mode based on the mode switching instruction.

The mode switching instruction is used for controlling the ultrasonic equipment to switch into different working modes.

As an example, when the ultrasound device detects that the current interface state is the cooperative interface state, that is, the cooperative interface state is that the ultrasound device and the ultrasound workstation are connected through the first video cable, the second video cable and the USB cable, a mode switching interface may be displayed on a device display interface of the ultrasound device, so that a device operation doctor may perform a selection operation on the mode switching interface to input a mode switching instruction, thereby switching to enter the cooperative working mode or the normal working mode, so that the device operation doctor autonomously switches different working modes according to actual requirements.

In an embodiment, the ultrasound device is further configured to receive a display switching instruction when the current interface state is the cooperative interface state, and switch and control to display the dual-screen display interface or the single-screen display interface based on the display switching instruction.

The display switching instruction is used for controlling the ultrasonic equipment to switch into a request of different display interfaces.

As an example, when the ultrasound device detects that the current interface state is the cooperative interface state, that is, when the cooperative interface state is that the ultrasound device and the ultrasound workstation are connected through the first video cable, the second video cable and the USB cable, the device operation doctor may click a display switching button on the device display interface or a display switching button pre-configured for the ultrasound device, so that the ultrasound device receives the display switching instruction, and control the display card to switch the display dual-screen display interface or the single-screen display interface through the device.

An ultrasound image acquisition processing method according to an embodiment of the present invention is described by applying the ultrasound device and the ultrasound working example in the above embodiments, and as shown in fig. 2, the ultrasound image acquisition processing method includes:

s201: the ultrasonic equipment receives the image acquisition instruction and monitors the current interface state based on the image acquisition instruction.

S202: and when the current interface state of the ultrasonic equipment is the cooperative interface state, the ultrasonic equipment enters a cooperative working mode, cooperates with the ultrasonic workstation, acquires a target ultrasonic image and stores the target ultrasonic image on the ultrasonic equipment and the ultrasonic workstation.

Understandably, when the ultrasonic equipment detects that the current interface state is the cooperative interface state, the ultrasonic equipment enters a cooperative working mode, the ultrasonic equipment and the ultrasonic workstation are cooperatively used to realize the acquisition of a target ultrasonic image, the target ultrasonic image is stored in the equipment memory and the workstation memory, the purpose of simultaneously storing the target ultrasonic image in the ultrasonic equipment and the ultrasonic workstation is realized, and the target ultrasonic image is prevented from being forgotten to be stored. Under the cooperative working mode, the doctor can operate the equipment to control the ultrasonic equipment to work and remotely control the ultrasonic workstation, so that the data transmission process in the ultrasonic image acquisition and storage process is facilitated to be simplified, the processing efficiency of ultrasonic image acquisition and storage is facilitated to be improved, and the processing time is shortened.

S203: when the current interface state is the common interface state, the ultrasonic equipment enters a common working mode, acquires and stores a target ultrasonic image, and sends the target ultrasonic image to the ultrasonic workstation, so that the ultrasonic workstation stores the target ultrasonic image.

In one example, when the current interface state is a normal interface state, the ultrasound device enters a normal operation mode, acquires and stores a target ultrasound image, and sends the target ultrasound image to the ultrasound workstation, including: when the current interface state of the ultrasonic equipment is the common interface state, the ultrasonic equipment enters a common working mode, acquires and stores a target ultrasonic image, and sends the target ultrasonic image to the ultrasonic workstation, so that the ultrasonic workstation stores the target ultrasonic image, and the ultrasonic equipment comprises: and when the current interface state of the ultrasonic equipment is the common interface state, displaying a single-screen display interface, and intercepting the target ultrasonic image from the original ultrasonic image displayed in the single-screen display interface. The ultrasound device stores the target ultrasound image on the device memory and transmits the target ultrasound image to the ultrasound workstation via the first video cable. The ultrasound workstation receives the target ultrasound image and stores the target ultrasound image on the workstation memory.

In another example, when the current interface state of the ultrasound device is the normal interface state, the device may control the display card to control the display screen of the device to display a single-screen display interface, and an original ultrasound image formed by operating the ultrasound probe by the doctor with the device is displayed on the single-screen display interface. Then, the device operator may intercept a target ultrasound image from the original ultrasound image displayed on the single-screen display interface, where the target ultrasound image may be understood as an ultrasound image formed by the device operator analyzing the original ultrasound image and finding a standard or appropriate section to intercept the original ultrasound image. The device operating physician may then control the ultrasound device to store the target ultrasound image in a device memory of the ultrasound device and transmit the target ultrasound image to the ultrasound workstation via the first video cable. Finally, the ultrasound workstation may receive the target ultrasound image, which may be stored in a workstation memory by a workstation operator for the purpose of storing the target ultrasound image on both the ultrasound device and the ultrasound workstation.

In another example, a target ultrasound image is intercepted from an original ultrasound image displayed in a single-screen display interface, comprising: the ultrasonic equipment controls the single-screen display interface to display the original ultrasonic image and receives an image intercepting instruction, wherein the image intercepting instruction comprises a target intercepting area determined based on the single-screen display interface. The ultrasonic equipment executes an image interception instruction, and intercepts a target ultrasonic image corresponding to a target interception area from the original ultrasonic image.

In an embodiment, as shown in fig. 3, step S202, when the current interface state is the cooperative interface state, the ultrasound device enters the cooperative working mode, cooperates with the ultrasound workstation, acquires a target ultrasound image, and stores the target ultrasound image on the ultrasound device and the ultrasound workstation, including:

s301: when the current interface state of the ultrasonic equipment is the cooperative interface state, a double-screen display interface is displayed, and the double-screen display interface comprises a first display area and a second display area.

S302: the ultrasonic equipment intercepts a first ultrasonic image from the original ultrasonic image displayed in the first display area, stores the first ultrasonic image in an equipment memory, sends the first ultrasonic image to the ultrasonic workstation through a first video cable, and sends an image processing instruction to the ultrasonic workstation through a USB cable.

S303: the ultrasonic workstation receives the first ultrasonic image and the image processing instruction, executes the image processing instruction, stores the first ultrasonic image in a workstation memory, and sends the first ultrasonic image to the ultrasonic equipment through the second video cable.

S304: the ultrasound equipment determines the received first ultrasound image as a second ultrasound image, controls the first display area to display the first ultrasound image, and controls the second display area to display the second ultrasound image.

As an example, in step S301, when the ultrasound apparatus detects that the current interface state is the cooperative interface state, the apparatus may control the display card to control the apparatus to display a dual-screen display interface on the display screen, where a first display area and a second display area are formed on the dual-screen display interface, and an original ultrasound image formed by the operation of the doctor on the ultrasound apparatus is displayed on the first display area.

As an example, in step S302, the device operator may cut a first ultrasound image from the original ultrasound image displayed on the first display area of the dual-screen display interface, where the first ultrasound image may be understood as an ultrasound image formed by the device operator analyzing the original ultrasound image, finding a standard or suitable section and cutting the section. The device operating physician may then control the ultrasound device to store the first ultrasound image in a device memory of the ultrasound device and transmit the first ultrasound image to the ultrasound workstation via the first video cable. Moreover, the device operating doctor can also form image processing instructions by operating the ultrasound device and send the image processing instructions to the ultrasound workstation through the USB cable.

As an example, in step S303, the ultrasound workstation may receive a first ultrasound image through the first video cable and receive an image processing instruction through the USB cable, and then the ultrasound workstation may execute the image processing instruction to store the first ultrasound image in the workstation memory and send the first ultrasound image to the ultrasound device, so that the ultrasound device determines the received first ultrasound image sent by the ultrasound workstation as a second ultrasound image, and displays the second ultrasound image on a device display screen of the ultrasound device, which is helpful for a device operator to process the second ultrasound image received by the ultrasound workstation. Understandably, the ultrasonic workstation can store and forward images according to image processing instructions input by the equipment operation doctor through the ultrasonic equipment, so that the cooperative processing process of the ultrasonic equipment and the ultrasonic workstation can be completed by the equipment operation doctor through controlling the ultrasonic equipment without being completed by multiple persons in a matched manner, the processing efficiency of ultrasonic image acquisition and storage is improved, the processing time is reduced, and the processing cost is saved.

As an example, in step S304, the ultrasound device may receive a second ultrasound image transmitted by the ultrasound workstation through the second video cable, and display the second ultrasound image on the second display area, so that the two-screen display interface of the ultrasound image respectively displays the first ultrasound image on the ultrasound image and the second ultrasound image on the ultrasound workstation, so that the device operation doctor processes the first ultrasound image on the first display area and the second ultrasound image on the second display area, thereby implementing cooperative control over the ultrasound device and the ultrasound workstation, which is helpful to improve processing efficiency of ultrasound image acquisition and storage, reduce processing time consumption, and save processing cost.

In an embodiment, as shown in fig. 4, the ultrasound apparatus in step S302 cuts out the first ultrasound image from the original ultrasound image displayed in the first display area, including:

s401: the ultrasonic equipment controls the first display area to display the original ultrasonic image and receives an image intercepting instruction, wherein the image intercepting instruction comprises a target intercepting area determined based on the first display area.

S402: the ultrasonic equipment executes an image interception instruction, and intercepts a first ultrasonic image corresponding to the target interception area from the original ultrasonic image.

In an embodiment, after step S304, that is, after the ultrasound apparatus determines the received first ultrasound image as the second ultrasound image, controls the first display area to display the first ultrasound image, and controls the second display area to display the second ultrasound image, the ultrasound image acquisition processing method further includes:

the ultrasonic equipment carries out image comparison on the first ultrasonic image and the second ultrasonic image, obtains an image comparison result, and displays a transmission distortion message if the image comparison result is image distortion.

In an embodiment, as shown in fig. 5, the ultrasound image acquisition processing method further includes:

s501: and the ultrasonic equipment receives the target control instruction in the current working mode and determines a control object corresponding to the target control instruction.

S502: and when the current working mode of the ultrasonic equipment is the cooperative working mode and the control object is the ultrasonic workstation, sending the target control instruction to the ultrasonic workstation through the USB cable.

S503: and the ultrasonic workstation receives the target control instruction, executes the target control instruction, acquires a target execution result, and transmits the target execution result to the ultrasonic equipment through the second video cable.

S504: the ultrasonic equipment receives the target execution result and controls the second display area to display the target execution result.

S505: when the current working mode of the ultrasonic equipment is the common working mode or the control object is the ultrasonic equipment, executing a target control instruction, acquiring a target execution result, and controlling the first display area to display the target execution result.

As an example, in steps S502-S504, when the current operation mode of the ultrasound device is the cooperative operation mode and the control object of the target control command is the ultrasound workstation, it is described that the ultrasound device is connected to the ultrasound workstation through the first video cable, the second video cable and the USB cable to provide hardware security for the ultrasound device to remotely control the ultrasound workstation, and at this time, the ultrasound device may send the received target control command to the ultrasound workstation through the USB cable. After receiving the target control instruction, the ultrasonic workstation needs to execute the target control instruction so as to transmit a target execution result obtained by executing the target control instruction to the ultrasonic equipment through the second video cable and/or the USB cable. When the ultrasonic equipment receives the target execution result, the second display area is controlled by the equipment control display card to display the target execution result, so that the aim of executing a target control instruction by using the ultrasonic equipment remote control ultrasonic workstation is fulfilled, the control process of the ultrasonic equipment and the ultrasonic workstation is only completed by the operation of an equipment operation doctor without being matched with an operator of the workstation, the processing efficiency of the ultrasonic equipment is improved, and the labor cost in the processing process is reduced.

As an example, in step S505, when the current working mode of the ultrasound device is the normal working mode, it indicates that the ultrasound device and the ultrasound workstation are still transmitting through the first video cable, and only the target ultrasound image can be sent to the ultrasound workstation through the first video cable, and other control operations cannot be performed, and a control object corresponding to the target control instruction is determined as the ultrasound device, at this time, the ultrasound device may execute the target control instruction, obtain a target execution result, and control the first display area to display the target execution result, so as to complete the execution and display process of the target control instruction.

As an example, in step S505, when the current working mode of the ultrasound apparatus is the cooperative working mode and the control object corresponding to the target control instruction of the ultrasound apparatus is the ultrasound apparatus, the ultrasound apparatus directly executes the target control instruction, acquires the target execution result, and controls the first display area to display the target execution result, so as to complete the execution and display process of the target control instruction.

In an embodiment, as shown in fig. 6, the ultrasound image acquisition processing method further includes:

s601: the ultrasonic equipment receives an image consulting instruction in a cooperative working mode, and sends the image consulting instruction to the ultrasonic workstation through the USB cable, wherein the image consulting instruction comprises a user identifier.

S602: the ultrasonic workstation receives the image consulting instruction, inquires a workstation memory based on the image consulting instruction, acquires a historical ultrasonic image corresponding to the user identification, and sends the historical ultrasonic image to the ultrasonic equipment through the second video cable.

S603: the ultrasound device controls the first display area to display the first ultrasound image and controls the second display area to display the historical ultrasound image.

In an embodiment, after step S603, that is, after the ultrasound apparatus controls the first display area to display the first ultrasound image and controls the second display area to display the historical ultrasound image, the ultrasound image acquisition processing method further includes:

the ultrasonic equipment carries out feature comparison on the first ultrasonic image and the historical ultrasonic image, obtains a feature distinguishing area, controls the first ultrasonic image to highlight the feature distinguishing area, and controls the historical ultrasonic image to highlight the feature distinguishing area.

In an embodiment, after step S201, that is, after the ultrasound device receives an image acquisition instruction and monitors the current interface state based on the image acquisition instruction, the ultrasound image acquisition processing method further includes:

and when the current interface state of the ultrasonic equipment is the cooperative interface state, receiving a mode switching instruction, and switching to enter a cooperative working mode or a common working mode based on the mode switching instruction.

The above-mentioned embodiments are only used for illustrating the technical solutions of the present invention, and not for limiting the same; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not substantially depart from the spirit and scope of the embodiments of the present invention, and are intended to be included within the scope of the present invention.

Claims

1. An ultrasonic image acquisition processing system comprises an ultrasonic device and an ultrasonic workstation, and is characterized in that,

wherein the cooperative interface state is a state in which the ultrasonic equipment and the ultrasonic workstation are connected through a first video cable, a second video cable and a USB cable,

wherein, in the state of the cooperative interface, the first video output interface of the ultrasonic equipment is connected with the second video input interface of the ultrasonic workstation through the first video cable, the first video input interface of the ultrasonic equipment is connected with the second video output interface of the ultrasonic workstation through the second video cable, so that the ultrasound device can send ultrasound images to the ultrasound workstation via the first video cable, and the ultrasound workstation may also send the ultrasound images to the ultrasound device via a second video cable, and the state that the first USB interface of the ultrasonic equipment and the second USB interface of the ultrasonic workstation are connected through a USB cable, so that the control signals can be transmitted between the ultrasonic equipment and the ultrasonic workstation, the ultrasonic equipment is further used for displaying a double-screen display interface when the current interface state is the cooperative interface state, wherein the double-screen display interface comprises a first display area and a second display area;

the ultrasonic equipment is further configured to intercept a first ultrasonic image from the original ultrasonic image displayed in the first display area, store the first ultrasonic image in an equipment memory, send the first ultrasonic image to the ultrasonic workstation through the first video cable, and send an image processing instruction to the ultrasonic workstation through the USB cable;

the ultrasonic workstation is used for receiving the first ultrasonic image and the image processing instruction, executing the image processing instruction, storing the first ultrasonic image in the workstation memory, and sending the first ultrasonic image to the ultrasonic equipment through the second video cable;

the ultrasound device is further configured to determine the received first ultrasound image as a second ultrasound image, control the first display area to display the first ultrasound image, and control the second display area to display the second ultrasound image;

wherein the target ultrasound image comprises the first ultrasound image and the second ultrasound image.

2. The ultrasound image acquisition processing system of claim 1,

the ultrasonic equipment is further configured to enter a common working mode when the current interface state is a common interface state, acquire and store a target ultrasonic image, and send the target ultrasonic image to the ultrasonic workstation, so that the ultrasonic workstation stores the target ultrasonic image;

wherein the common interface state is a state between the ultrasound device and the ultrasound workstation via a first video cable.

3. The ultrasound image acquisition processing system of claim 1,

the ultrasonic equipment is further used for controlling the first display area to display the original ultrasonic image and receiving an image interception instruction, wherein the image interception instruction comprises a target interception area determined based on the first display area;

the ultrasound equipment is further used for executing the image interception instruction and intercepting a first ultrasound image corresponding to the target interception area from the original ultrasound image.

4. The ultrasound image acquisition processing system of claim 1,

the ultrasonic device is further configured to perform image comparison on the first ultrasonic image and the second ultrasonic image, acquire an image comparison result, and display a transmission distortion message if the image comparison result is image distortion.

5. The ultrasound image acquisition processing system of claim 1,

the ultrasonic equipment is also used for receiving a target control instruction in the current working mode and determining a control object corresponding to the target control instruction;

the ultrasonic equipment is further configured to send the target control instruction to the ultrasonic workstation through the USB cable when the current working mode is the cooperative working mode and the control object is the ultrasonic workstation;

the ultrasonic workstation is further used for receiving the target control instruction, executing the target control instruction, acquiring a target execution result, and transmitting the target execution result to the ultrasonic equipment through the second video cable;

the ultrasonic equipment is further used for receiving the target execution result and controlling a second display area to display the target execution result.

6. The ultrasound image acquisition processing system of claim 5,

the ultrasonic equipment is further configured to execute the target control instruction, acquire a target execution result, and control the first display area to display the target execution result when the current working mode is a common working mode or the control object is the ultrasonic equipment.

7. The ultrasound image acquisition processing system of claim 5,

the ultrasonic equipment is further used for receiving an image lookup instruction in a cooperative working mode, and sending the image lookup instruction to the ultrasonic workstation through the USB cable, wherein the image lookup instruction comprises a user identifier;

the ultrasonic workstation is further configured to receive the image lookup instruction, query a workstation memory based on the image lookup instruction, acquire a historical ultrasonic image corresponding to the user identifier, and send the historical ultrasonic image to the ultrasonic device through the second video cable;

the ultrasonic equipment is further configured to control the first display area to display the first ultrasonic image, and control the second display area to display the historical ultrasonic image.

8. The ultrasound image acquisition processing system of claim 7,

the ultrasonic device is further configured to perform feature comparison on the first ultrasonic image and the historical ultrasonic image, acquire a feature distinguishing region, control the first ultrasonic image to highlight the feature distinguishing region, and control the historical ultrasonic image to highlight the feature distinguishing region.

9. The ultrasound image acquisition processing system of claim 1,

the ultrasonic equipment is further used for receiving a mode switching instruction when the current interface state is the cooperative interface state, and switching to enter a cooperative working mode or a common working mode based on the mode switching instruction.

10. An ultrasound image acquisition processing method is characterized by comprising the following steps:

wherein the cooperative interface state is a state in which the ultrasonic device and the ultrasonic workstation are connected through a first video cable, a second video cable and a USB cable, and in the cooperative interface state, a first video output interface of the ultrasonic device and a second video input interface of the ultrasonic workstation are connected through the first video cable, and a first video input interface of the ultrasonic device and a second video output interface of the ultrasonic workstation are connected through the second video cable, so that the ultrasonic device can send an ultrasonic image to the ultrasonic workstation through the first video cable, and the ultrasonic workstation can also send an ultrasonic image to the ultrasonic device through the second video cable, and the first USB interface of the ultrasonic device and the second USB interface of the ultrasonic workstation are connected through the USB cable, so that a control signal can be transmitted between the ultrasonic device and the ultrasonic workstation, when the current interface state is a cooperative interface state, the ultrasound device enters a cooperative working mode, cooperates with an ultrasound workstation, acquires a target ultrasound image, and stores the target ultrasound image on the ultrasound device and the ultrasound workstation, including:

when the current interface state is a cooperative interface state, the ultrasonic equipment displays a double-screen display interface, wherein the double-screen display interface comprises a first display area and a second display area;

the ultrasonic equipment intercepts a first ultrasonic image from the original ultrasonic image displayed in the first display area, stores the first ultrasonic image in an equipment memory, sends the first ultrasonic image to the ultrasonic workstation through the first video cable, and sends an image processing instruction to the ultrasonic workstation through the USB cable;

the ultrasonic workstation receives the first ultrasonic image and the image processing instruction, executes the image processing instruction, stores the first ultrasonic image in the workstation memory, and sends the first ultrasonic image to the ultrasonic equipment through the second video cable;

the ultrasonic equipment determines the received first ultrasonic image as a second ultrasonic image, controls the first display area to display the first ultrasonic image and controls the second display area to display the second ultrasonic image;

11. The ultrasound image acquisition processing method according to claim 10, wherein after the ultrasound device receives an image acquisition instruction and monitors a current interface state based on the image acquisition instruction, the ultrasound image acquisition processing method further comprises:

when the current interface state is a common interface state, the ultrasonic equipment enters a common working mode, acquires and stores a target ultrasonic image, and sends the target ultrasonic image to the ultrasonic workstation so that the ultrasonic workstation stores the target ultrasonic image;

12. The ultrasound image acquisition processing method of claim 10, wherein the ultrasound device intercepts a first ultrasound image from an original ultrasound image displayed in the first display area, comprising:

the ultrasonic equipment controls the first display area to display the original ultrasonic image, and receives an image intercepting instruction, wherein the image intercepting instruction comprises a target intercepting area determined based on the first display area;

the ultrasonic equipment executes the image intercepting instruction, and a first ultrasonic image corresponding to the target intercepting area is intercepted from the original ultrasonic image.

13. The ultrasound image acquisition processing method according to claim 10, wherein after the ultrasound device determines the received first ultrasound image as a second ultrasound image, controls the first display area to display the first ultrasound image, and controls the second display area to display the second ultrasound image, the ultrasound image acquisition processing method further comprises:

and the ultrasonic equipment performs image comparison on the first ultrasonic image and the second ultrasonic image to obtain an image comparison result, and if the image comparison result is image distortion, a transmission distortion message is displayed.

14. The ultrasound image acquisition processing method according to claim 10, further comprising:

the ultrasonic equipment receives a target control instruction in a current working mode and determines a control object corresponding to the target control instruction;

when the current working mode of the ultrasonic equipment is the cooperative working mode and the control object is the ultrasonic workstation, sending the target control instruction to the ultrasonic workstation through the USB cable;

the ultrasonic workstation receives the target control instruction, executes the target control instruction, acquires a target execution result, and transmits the target execution result to the ultrasonic equipment through the second video cable;

and the ultrasonic equipment receives the target execution result and controls a second display area to display the target execution result.

15. The method for processing ultrasound image acquisition according to claim 14, wherein after the ultrasound device receives a target control command in the current operation mode and determines a control object corresponding to the target control command, the method further comprises:

and when the current working mode of the ultrasonic equipment is a common working mode or the control object is the ultrasonic equipment, executing the target control instruction, acquiring a target execution result, and controlling the first display area to display the target execution result.

16. The ultrasound image acquisition processing method according to claim 14, further comprising:

the ultrasonic equipment receives an image consulting instruction in a cooperative working mode, and sends the image consulting instruction to the ultrasonic workstation through the USB cable, wherein the image consulting instruction comprises a user identifier;

the ultrasonic workstation receives the image consulting instruction, inquires a workstation memory based on the image consulting instruction, acquires a historical ultrasonic image corresponding to the user identifier, and sends the historical ultrasonic image to the ultrasonic equipment through the second video cable;

the ultrasonic equipment controls the first display area to display the first ultrasonic image and controls the second display area to display the historical ultrasonic image.

17. The ultrasound image acquisition processing method according to claim 16, further comprising:

the ultrasonic equipment performs feature comparison on the first ultrasonic image and the historical ultrasonic image to acquire a feature distinguishing area, controls the first ultrasonic image to highlight the feature distinguishing area, and controls the historical ultrasonic image to highlight the feature distinguishing area.

18. The ultrasound image acquisition processing method according to claim 10, further comprising:

and when the current interface state is the cooperative interface state, the ultrasonic equipment receives a mode switching instruction, and switches to enter a cooperative working mode or a common working mode based on the mode switching instruction.