| 1. | Reaearch of the mrtd mathematical model for thermal imaging system
热成像系统mrtd数学模型的研究 |
| 2. | Research on mtf measurement for thermal imaging systems
红外热成像系统调制传递函数mtf测试研究 |
| 3. | Research on the netd mathematical model for scanning thermal imaging system
扫描热成像系统netd数学模型的研究 |
| 4. | Design and debug the hardware of this real - time infrared image processor
完成了红外热成像系统实时视频图像处理器硬件设计及调试。 |
| 5. | Standard test method for minimum resolvable temperature difference for thermal imaging systems
热成像系统用可分辨的最小温度差的试验方法 |
| 6. | Infrared vision systems are used worldwide in a variety of industries to monitor continuous processes
红外热成像系统广泛应用于连续的工业过程的监控, |
| 7. | In order to improve the accuracy , appropriate 4 - bar targets are chosen according to academic calculation
这种焦距测量方法,原理简单直接,测量范围大,对于热成像系统的检测与装调,有着很好的实际应用价值。 |
| 8. | At the same time , mtf , mrtd , sitf about second generation thermal imaging system are researched , derived and described in detail
同时,对二代热成像系统的mtf , netd , mrtd , sitf也进行了详细的研究,推导和描述。 |
| 9. | The final goal to design the processor is to obtain an independent and built - in real - time infrared image processor
本文关于红外热成像系统视频图像处理器研制工作的最终目标是设计一个可以独立工作的嵌入式实时处理系统。 |
| 10. | The focal length of a thermal imaging system was assessed by the magnification method using 4 - bar targets as infrared objectives
摘要采用实验室中四杆靶红外目标源,使其成像在热成像系统自身的焦面探测器上,采用放大倍率法测量与计算出系统的焦距。 |
