| 1. | A multiattribute fuzzy decision method for warship refit or retire assessment
抗震设防决策中的模糊信息处理 |
| 2. | Fuzzy information processing in earthquake resistance and protection decision making
空间数据质量控制与模糊信息处理 |
| 3. | The application of fuzzy set on enterprise information processing - fuzzy personnel evaluation system
模糊信息处理在舰艇等级评估中的应用 |
| 4. | On - line computer monitoring system for medium plate rolling mill based on fuzzy information processing
集理论及其在模糊信息处理中的应用 |
| 5. | Effectiveness analysis of electronic warfare of naval ships based on fuzzy synthetic evaluation
基于模糊信息处理的中板轧机微机在线监测系统 |
| 6. | Improvement of simulation data validity using the methods of fuzzy information optimization processing
模糊信息处理理论在便携式电缆检测仪中的应用 |
| 7. | In order to realize the fuzzy information processing method in weapons storage information system , the problems , such as how to abstract the appearance information automatically , how to decide parameter of membership function , are solved
为在武器库存信息系统中实现模糊信息处理方法,本文还解决了外观信息自动提取、隶属函数参数确定等问题。 |
| 8. | The second chapter is about the fault symptoms used as the basic knowledge in fault diagnosis field . a new concept of diagnosis parameter is defined in this chapter . the use of parameters is to make the sympotom description standard
第二章对故障诊断知识作了系统分析,定义了诊断参量的概念,并利用诊断参量进行故障征兆的标准化描述,归纳总结了汽轮发电机组故障诊断常用的诊断参量;基于模糊信息处理技术,针对不同类型的征兆建立了模糊子集,从而量化了征兆。 |
| 9. | The result showed that the hurst exponent of the signal have obvious differences between different flow regime . it increased when flow regime was changed from fixed bed to bubbling bed and more from bubbling bed to turbulent , based on which a new method for identification of flow regime was proposed . to improve the accuracies of identification fuzzy technology was introduced
为了提高辨识准确率,引入了模糊信息处理技术,提出了流型模糊辨识中隶属度函数的确定办法,建立了气固流化床从固定床、鼓泡床到湍动床的流型判别准则,实验验证了该方法有良好的辨识效果,辨识准确率在80以上。 |
| 10. | The process that how to realize the fuzzy information processing method in weapons storage information system is illustrated by an example of parts " measure data . the parts " appearance age and physiological age are obtained simultaneously . both the variety of the parts " dimension and the parts " longevity are predicted
最后,以零件a的实际检测数据为算例,详述了模糊信息处理方法在武器库存信息系统中的实现过程,得到了零件的外观年龄、生理年龄,并预测了零件尺寸变化量和寿命。 |
