CN112086184A - Endogenous data remote monitoring system of clinical laboratory based on hospital information platform - Google Patents
Endogenous data remote monitoring system of clinical laboratory based on hospital information platform Download PDFInfo
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Abstract
The invention discloses a hospital information platform-based remote monitoring system for endogenous data of a clinical laboratory, which comprises a camera monitoring system, a split-screen operating system, a scene snapshot system, a picture analysis system, a data processing system and a high-definition display system, wherein the camera monitoring system is used for fixed-point monitoring of the endogenous data of the hospital; the split-screen operating system is used for performing split-screen control on all monitoring areas of clinical test points in a hospital; the scene snapshot system is used for regularly shooting the source data of each clinical test point in the hospital at intervals, and knowing the source data conditions of all places in the hospital at any time. In the invention, the information contained in the data source is determined by utilizing the monitored and shot data source picture information, and the camera shooting unit is continuously switched in real time and the data source is continuously tracked in real time according to the requirement, so that the processing efficiency of the data source can be effectively improved, and the query time wasted by displaying the information in a split screen mode is avoided.
Description
Technical Field
The invention relates to the technical field of data inspection, in particular to a remote inspection system for endogenous data of a clinical laboratory based on a hospital information platform.
Background
With the continuous trend of the technology toward intellectualization, the remote monitoring of endogenous data in clinical laboratories of hospital information platforms is also becoming more intellectualized, and the monitoring of clinical test sites at various locations in hospitals can effectively improve the regulatory level in hospitals, and in recent years, in particular, when analyzing samples in research facilities related to foods, pharmaceuticals, medical instruments, and the like, references (guidelines) for supporting manufacturing management and quality management specified by GLP or GMP or references for supporting electronic documents specified by 21CFR PART11 (regulations for electronic records and electronic signatures in the united states) have been sought. In order to support these references, it is necessary to provide a system for monitoring that these systems are appropriately managed, that control data and analysis data used in these systems are appropriately managed, and the like, in addition to the analysis control system and the analysis data processing system.
When the existing remote monitoring system for the clinical laboratory endogenous data of the hospital information platform monitors and manages each clinical test point in the hospital, a worker needs to call a large amount of video resources to confirm a data source of a test, which is very inconvenient.
In order to solve the problems, the invention provides a remote monitoring system for endogenous data of a clinical laboratory based on a hospital information platform.
Disclosure of Invention
The invention aims to overcome the defect that in the prior art, when the existing remote inspection system for the endogenous data of the clinical laboratory of the hospital information platform monitors and manages each clinical test point in the hospital, a worker can confirm the data source of a test only by taking a large amount of video resources, so that the system is very inconvenient, and therefore, the remote inspection system for the endogenous data of the clinical laboratory based on the hospital information platform is provided.
In order to achieve the purpose, the invention adopts the following technical scheme:
the remote monitoring system for the endogenous data of the clinical laboratory based on the hospital information platform comprises a camera monitoring system, a split screen operating system, a scene snapshot system, a picture analysis system, a data processing system and a high-definition display system, wherein the camera monitoring system is used for fixed-point monitoring of the endogenous data of the hospital; the split-screen operating system is used for performing split-screen control on all the monitoring areas of the clinical test points in the hospital; the scene snapshot system is used for regularly shooting the source data of each clinical test point in the hospital at intervals and knowing the source data conditions of all the points in the hospital at any time; the picture analysis system is used for analyzing the source data pictures shot at each clinical test point in the hospital and automatically collecting data; the data processing system is used for processing the data automatically collected by the picture analysis system and the camera shooting data information of the camera shooting monitoring system; and the high-definition display system is used for displaying the image information of all the monitoring areas of the clinical test points in the hospital.
Preferably, the camera monitoring system consists of a plurality of groups of camera units, and each group of camera units is an electrically controlled rotatable camera and is used for shooting and recording source data of all clinical test points in a hospital.
Preferably, the split-screen operating system comprises a lens switching module and a monitoring data query module, wherein the lens switching module is used for rapidly switching to a test point to be monitored, and the monitoring data query module can rapidly query all data of the test point to be monitored.
Preferably, the scene snapshot system includes a plurality of snapshot camera units, and the plurality of snapshot camera units are a plurality of snapshot cameras and are used for snapshot of an instantaneous source data image.
Preferably, the picture analysis system includes a picture reading module and a data analysis module, the picture reading module is used for identifying source data in the picture, and the data analysis module is used for analyzing information contained in the data.
Preferably, the data processing system comprises a data collection module, a data sorting module and a data synthesis module, wherein the data collection module is used for collecting source data of all clinical test points, the data sorting module is used for classifying and integrating the collected source data, and the data synthesis module is used for synthesizing and compiling the source data.
Preferably, the high-definition display system comprises a display and a power line, and the display is connected with the power switch through the power line.
Preferably, the camera monitoring system, the split screen operating system, the scene snapshot system, the picture analysis system and the data processing system are all electrically connected with the high-definition display system.
The invention also discloses a working process of the clinical laboratory endogenous data remote monitoring system based on the hospital information platform, which comprises the following steps:
s1: the camera monitoring system shoots and records the hospital endogenous data of each clinical test point of the hospital information platform in real time through a plurality of camera units and uploads the video to the picture analysis system; meanwhile, the scene snapshot system can also take pictures of the hospital endogenous data of each clinical test point every period of time and upload the pictures to the picture analysis system;
s2: the picture analysis system identifies source data in the uploaded picture, analyzes information contained in the data and uploads the analyzed information to the data processing system;
s3: the data processing system is used for collecting source data of all clinical test points through the collection module, classifying and integrating the collected source data through the data sorting module, synthesizing and assembling the source data through the data synthesis module, and uploading the compiled data to the split-screen operating system;
s4: the split screen operating system can roughly analyze and judge the uploaded data, quickly switches to a test point needing to be monitored through the lens switching module, and then can quickly inquire all data of the test point needing to be monitored according to the monitoring data inquiring module so as to make final judgment and upload a judgment result to a high-definition display system;
s5: the high-definition display system can display the judgment made by the split-screen operating system, and a worker makes an analysis, judgment and instruction issuing to control and adjust the camera monitoring system and the scene grabbing system.
Compared with the prior art, the invention has the beneficial effects that:
when the monitoring is executed, the information contained in the data source is determined by utilizing the image information of the data source shot by monitoring, and the camera shooting unit is continuously switched in real time and tracked in real time as required, so that the processing efficiency of the data source can be effectively improved, and the query time wasted by displaying the information in a split screen manner is avoided; the system comprises a camera monitoring system, a data acquisition system and a data processing system, wherein the camera monitoring system is used for fixed-point monitoring of endogenous data in a hospital and consists of a plurality of groups of camera units, and each group of camera units is an electrically-controlled rotatable camera and is used for shooting and recording source data with clinical test points in the hospital; the system comprises a screen splitting operation system, a lens switching module and a monitoring data query module, wherein the screen splitting operation system is used for carrying out screen splitting control on a monitoring area with clinical test points in a hospital; the scene snapshot system is used for regularly shooting source data of each clinical test point in a hospital at intervals and knowing the source data condition of each position in the hospital at any time, and comprises a plurality of snapshot shooting units, wherein the plurality of snapshot shooting units are a plurality of snapshot cameras and are used for snapshot of instant source data images; the image analysis system is used for analyzing the source data images shot by each clinical test point in the hospital and automatically collecting data, and comprises an image reading module and a data analysis module, wherein the image reading module is used for identifying source data in the images, and the data analysis module is used for analyzing information contained in the data; the data processing system is used for processing data automatically collected by the picture analysis system and camera shooting data information of the camera shooting monitoring system, and comprises a data collection module, a data sorting module and a data synthesis module, wherein the data collection module is used for collecting source data with clinical test points, the data sorting module is used for classifying and integrating the collected source data, and the data synthesis module is used for synthesizing the source data; the high-definition display system is used for displaying image information of a monitoring area with a clinical test point in a hospital and comprises a display and a power line, wherein the display is connected with a power switch through the power line; the camera monitoring system, the split screen operating system, the scene snapshot system, the picture analysis system and the data processing system are all electrically connected with the high-definition display system.
Drawings
FIG. 1 is a flow chart of the work flow of the remote inspection system for endogenous data of clinical laboratory based on hospital information platform according to the present invention;
FIG. 2 is a schematic structural diagram of an image monitoring system in a remote monitoring system for endogenous data of a clinical laboratory based on a hospital information platform according to the present invention;
FIG. 3 is a schematic structural diagram of a scene snapshot system in a clinical laboratory endogenous data remote monitoring system based on a hospital information platform according to the present invention;
FIG. 4 is a schematic structural diagram of a split-screen operating system in a remote clinical laboratory endogenous data inspection system based on a hospital information platform according to the present invention;
FIG. 5 is a schematic structural diagram of a picture analysis system of a clinical laboratory endogenous data remote monitoring system based on a hospital information platform according to the present invention;
FIG. 6 is a schematic structural diagram of a data processing system in a remote clinical laboratory endogenous data monitoring system based on a hospital information platform according to the present invention;
FIG. 7 is a schematic structural diagram of a high-definition display system in a remote clinical laboratory endogenous data monitoring system based on a hospital information platform according to 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 only a part of the embodiments of the present invention, and not all of the embodiments.
In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.
Referring to fig. 1-7, the hospital information platform-based clinical laboratory endogenous data remote monitoring system comprises a camera monitoring system, a split screen operating system, a scene snapshot system, a picture analysis system, a data processing system and a high-definition display system, wherein the camera monitoring system is used for fixed-point monitoring of hospital endogenous data; the screen splitting operation system is used for carrying out screen splitting control on a monitoring area with clinical test points in a hospital; the scene snapshot system is used for regularly shooting the source data of each clinical test point in the hospital at intervals and knowing the source data conditions of all the points in the hospital at any time; the picture analysis system is used for analyzing the source data pictures shot at each clinical test point in the hospital and automatically collecting data; the data processing system is used for processing the data automatically collected by the picture analysis system and the camera shooting data information of the camera shooting monitoring system; the high-definition display system is used for displaying image information of a monitoring area with a clinical test point in a hospital; the camera monitoring system consists of a plurality of groups of camera units, each group of camera units is an electrically controlled rotatable camera and is used for shooting and recording source data of clinical test points in a hospital; the split screen operating system comprises a lens switching module and a monitoring data query module, wherein the lens switching module is used for rapidly switching to a test point to be monitored, and the monitoring data query module can rapidly query all data of the test point to be monitored; the scene snapshot system comprises a plurality of snapshot camera units, wherein the plurality of snapshot camera units are a plurality of snapshot cameras and are used for snapshot of instant source data images; the picture analysis system comprises a picture reading module and a data analysis module, wherein the picture reading module is used for identifying source data in a picture, and the data analysis module is used for analyzing information contained in the data; the data processing system comprises a data collection module, a data sorting module and a data synthesis module, wherein the data collection module is used for collecting source data with clinical test points, the data sorting module is used for carrying out classification and integration on the collected source data, and the data synthesis module is used for synthesizing and compiling the source data; the high-definition display system comprises a display and a power line, wherein the display is connected with a power switch through the power line; the camera monitoring system, the split screen operating system, the scene snapshot system, the picture analysis system and the data processing system are all electrically connected with the high-definition display system
The specific workflow of the system is as follows:
s1: the camera monitoring system shoots and records the hospital endogenous data of each clinical test point of the hospital information platform in real time through a plurality of camera units and uploads the video to the picture analysis system; meanwhile, the scene snapshot system can also take pictures of the hospital endogenous data of each clinical test point every period of time and upload the pictures to the picture analysis system;
s2: the picture analysis system identifies source data in the uploaded picture, analyzes information contained in the data and uploads the analyzed information to the data processing system;
s3: the data processing system is used for collecting source data of all clinical test points through the collection module, classifying and integrating the collected source data through the data sorting module, synthesizing and assembling the source data through the data synthesis module, and uploading the compiled data to the split-screen operating system;
s4: the split screen operating system can roughly analyze and judge the uploaded data, quickly switches to a test point needing to be monitored through the lens switching module, and then can quickly inquire all data of the test point needing to be monitored according to the monitoring data inquiring module so as to make final judgment and upload a judgment result to a high-definition display system;
s5: the high-definition display system can display the judgment made by the split-screen operating system, and a worker makes an analysis, judgment and instruction issuing to control and adjust the camera monitoring system and the scene grabbing system.
When the monitoring is executed, the information contained in the data source is determined by utilizing the image information of the data source shot by monitoring, and the camera system is continuously switched and tracked in real time according to the requirement, so that the processing efficiency of the data source can be effectively improved, and the query time wasted by displaying information in a split screen manner is avoided; the system comprises a camera monitoring system, a data acquisition system and a data processing system, wherein the camera monitoring system is used for fixed-point monitoring of endogenous data in a hospital and consists of a plurality of groups of camera units, and each group of camera units is an electrically-controlled rotatable camera and is used for shooting and recording source data with clinical test points in the hospital; the system comprises a screen splitting operation system, a lens switching module and a monitoring data query module, wherein the screen splitting operation system is used for carrying out screen splitting control on a monitoring area with clinical test points in a hospital; the scene snapshot system is used for regularly shooting source data of each clinical test point in a hospital at intervals and knowing the source data condition of each position in the hospital at any time, and comprises a plurality of snapshot shooting units, wherein the plurality of snapshot shooting units are a plurality of snapshot cameras and are used for snapshot of instant source data images; the image analysis system is used for analyzing the source data images shot by each clinical test point in the hospital and automatically collecting data, and comprises an image reading module and a data analysis module, wherein the image reading module is used for identifying source data in the images, and the data analysis module is used for analyzing information contained in the data; the data processing system is used for processing data automatically collected by the picture analysis system and camera shooting data information of the camera shooting monitoring system, and comprises a data collection module, a data sorting module and a data synthesis module, wherein the data collection module is used for collecting source data with clinical test points, the data sorting module is used for classifying and integrating the collected source data, and the data synthesis module is used for synthesizing the source data; the high-definition display system is used for displaying image information of a monitoring area with a clinical test point in a hospital and comprises a display and a power line, wherein the display is connected with a power switch through the power line; the camera monitoring system, the split screen operating system, the scene snapshot system, the picture analysis system and the data processing system are all electrically connected with the high-definition display system.
The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.
Claims (8)
1. The remote monitoring system for the endogenous data of the clinical laboratory based on the hospital information platform comprises a camera monitoring system, a split screen operating system, a scene snapshot system, a picture analysis system, a data processing system and a high-definition display system, and is characterized in that the camera monitoring system is used for fixed-point monitoring of the endogenous data of the hospital; the split-screen operating system is used for performing split-screen control on all monitoring areas of clinical test points in a hospital; the scene snapshot system is used for regularly shooting source data of each clinical test point in a hospital at intervals and knowing the source data conditions of all the sites in the hospital at any time; the picture analysis system is used for analyzing the source data pictures shot at each clinical test point in the hospital and automatically collecting data; the data processing system is used for processing the data automatically collected by the picture analysis system and the camera shooting data information of the camera shooting monitoring system; the high-definition display system is used for displaying image information of all clinical test point monitoring areas in a hospital.
2. The hospital information platform-based remote inspection system for endogenous data of clinical laboratory according to claim 1, wherein the camera monitoring system is composed of a plurality of groups of camera units, each group of camera units is an electrically controlled rotatable camera for shooting and recording source data of all clinical laboratory sites in hospital.
3. The hospital information platform-based remote clinical laboratory endogenous data inspection system according to claim 1, wherein the split-screen operating system comprises a lens switching module and a monitoring data query module, the lens switching module is used for rapidly switching to a test point to be monitored, and the monitoring data query module can rapidly query all data of the test point to be monitored.
4. The hospital information platform-based remote clinical laboratory endogenous data monitoring system according to claim 1, wherein the scene capturing system comprises a plurality of capturing camera units, and the capturing camera units are a plurality of capturing cameras and are used for capturing instantaneous source data images.
5. The hospital information platform-based remote clinical laboratory endogenous data inspection system according to claim 1, wherein the picture analysis system comprises a picture reading module for identifying source data in a picture and a data analysis module for analyzing information contained in the data.
6. The hospital information platform-based remote clinical laboratory endogenous data monitoring system according to claim 1, wherein the data processing system comprises a data collection module, a data sorting module and a data synthesis module, the data collection module is used for collecting source data of all clinical test points, the data sorting module is used for sorting the collected source data, and the data synthesis module is used for synthesizing and compiling the source data.
7. The hospital information platform-based remote clinical laboratory endogenous data inspection system according to claim 1, wherein the high-definition display system comprises a display and a power cord, and the display is electrically connected with a power switch through the power cord.
8. The hospital information platform-based remote inspection system for endogenous data of clinical laboratories according to claim 1, wherein the camera monitoring system, the split-screen operating system, the scene capturing system, the picture analyzing system and the data processing system are all electrically connected to the high-definition display system.
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