Performance Evaluation Analysis of Natural Science Foundation of Jiangxi Province
This study takes the Provincial Natural Science Foundation project during the 13th Five Year Plan period as an example to construct an impact talent creativity performance evaluation in-dex system.Methods of the subjective analytic hierarchy process and objective entropy weight are employed to calculate the weights.Based on this,a comprehensive evaluation of the Jiangxi Natu-ral Science Foundation project from 2016 to 2020 is conducted,analyzing the performance evolu-tion characteristics and proposing optimization paths.The results show that:1)Overall,Jiangxi Natural Science Foundation projects are showing an upward trend,with an annual growth rate of a-bout 33%;From the perspective of various projects,general projects(0.358)>key projects(0.347)>youth fund projects(0.189)>outstanding youth fund projects(0.183).2)For different fund projects,the average level of general projects(0.358)is significantly higher than other pro-jects in the same year,with outstanding performance.3)At the level of performance evaluation objectives,there are significant differences in the performance of various types of projects.The to-tal performance during the 13th Five Year Plan period was 0.321,with an average annual growth rate of about 83%for each project;In terms of talent strength,its performance has been increasing year by year,with an average annual growth rate of about 52%;The average annual growth rate of creativity is 69%,with creativity(0.408)>influence(0.321)>talent(0.268),and creativity is significantly higher than the other two levels.There is a significant difference in the performance of various projects of the Jiangxi Natural Science Foundation.In the future,we can promote the im-provement of the performance level of provincial fund projects by reforming and improving the re-ward system for scientific and technological achievements,accumulating talent,deeply integrating industry,academia,research and application,and improving local innovation systems.
国家科技期刊平台
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