Rapid Extraction of Target Information in Messy Multimedia Medical Data ()
1. Introduction
With the advancement of times, people’s requirements for office efficiency are getting higher and higher [1] , which makes the level of office automation systems correspondingly higher [2] .
In the daily information statistics of large hospitals, there are often huge folders of messy storage. It is very troublesome to organize such folders and obtain specific information in need [3] . When the data are stored in multimedia style, the file retrieval function of the operating system alone is difficult to meet the demand [4] [5] [6] . Using the search system that comes with the computer system, you can only retrieve files simply with inefficient [7] . If the corresponding data is damaged or cannot be used, it requires manual discrimination.
Designing a kind of software which can quickly retrieve and access the contents of multimedia files to improve the retrieval efficiency before manual discrimination is very necessary in office practice.
Through further research work, we fully understood the needs of our staff. After that, work progress has been made and each task node has been controlled. On the basis of active communication and collaboration among all personnel, we conscientiously implemented relevant work.
2. Construction of This System
The process is shown in Figure 1: By setting the retrieved folder as a file path, we use the software written to do the following work. The files in the folder are matched according to the requirements of the retrieved fields, and then the files in various formats containing the retrieved fields are called for review.
After that, they are directly opened by the default matching software for the operator to filter and decide the trade-off. It saves the manual verification process, which needs to open one by one. Using this method, we greatly improve the work efficiency.
Considering that the designed system should have the requirements of cross-platform, simplicity and rapidity, Labview2017 with good portability and operability is used as the development platform to design the software system. The designed operation interface and program interface are shown in Figure 2 and Figure 3.
3. Experimental Argumentation
The following is a demonstration by experiment. The searched folder is input in accordance with the search path shown in Figure 2, and the types of files corresponding to “Type 2” in the folder shown in Figure 4 which are matched and searched. We do it in this way to determine which information about type 2 diabetes is needed and which is useless, then get useful information and organize messy folders.
The results of various formats, which meet the search conditions, are all listed quickly and opened by their default software for the searcher to view, as shown in Figure 5.
4. Conclusions
It can be seen from the results shown in Figure 5 that the system can smoothly achieve the desired target, and also can quickly call data in various formats to realize the function of searching and retrieving data.
Figure 4. Cluttered folder to be retrieved.
Thereby, the management efficiency of the file data is greatly improved, and the consumption of the operator’s energy in the data sorting and data management is effectively reduced.
Acknowledgements
At that period, we nearly spent all our time in hospital. We did a lot of work in this field. At last, we achieve our goal and get progress. Thanks to all ones of our team, we finish this work successfully.