Abstract

The progress of science and technology makes the birth of nanometer material. In order to study the application of nanometer material in disaster prevention and mitigation, this paper proposes the research on the disaster information integration technology of disaster prevention and mitigation system based on nanometer material. This paper introduces the disaster information integration technology of the disaster prevention and mitigation system based on nanometer material. In order to highlight the advantages of the disaster prevention and mitigation system based on nanometer material, this paper carries out the function test and performance test. In the aspect of performance test, this paper compares it with the disaster prevention and mitigation system of other two materials from the aspects of response time and accuracy research. In this paper, we find that the response time of the disaster prevention and mitigation system based on nanometer material is faster than that of the other two systems, and the accuracy of the system in this paper will not be greatly reduced with the increase of task amount, which is relatively stable. Among them, when the task amount is 10, the accuracy of the system in this paper is 0.96, and when the task amount is 150, the accuracy of this system is 0.94. The results of this paper show that the disaster prevention and mitigation system based on nanometer material is relatively superior.

摘要

科技的进步，催生了纳米材料。为研究纳米材料在防灾减灾中的应用，提出基于纳米材料的防灾减灾系统灾害信息集成技术研究。介绍了基于纳米材料的防灾减灾系统的灾害信息集成技术。为了突出基于纳米材料的防灾减灾系统的优势，本文进行了功能测试和性能测试。在性能测试方面，本文从响应时间和精度研究等方面与其他两种材料的防灾减灾系统进行了比较。在本文中，我们发现基于纳米材料的防灾减灾系统的响应时间比其他两个系统要快，而且本文系统的精度不会随着任务量的增加而大幅降低，即相对稳定。其中，当任务量为10时，本文系统的准确率为0.96，当任务量为150时，该系统的准确率为0.94。本文的研究结果表明，基于纳米材料的防灾减灾体系相对优越。这是相对稳定的。其中，当任务量为10时，本文系统的准确率为0.96，当任务量为150时，该系统的准确率为0.94。本文的研究结果表明，基于纳米材料的防灾减灾体系相对优越。这是相对稳定的。其中，当任务量为10时，本文系统的准确率为0.96，当任务量为150时，该系统的准确率为0.94。本文的研究结果表明，基于纳米材料的防灾减灾体系相对优越。