| 1. | Field procedure for precision testing of surveying instruments ; levels
测量仪器精度检验的野外作业法.水准仪 |
| 2. | Field procedure for precision testing of surveying instruments ; gyroscopes
测量仪器精度检验的野外作业法.陀螺仪 |
| 3. | Field procedure for precision testing of surveying instruments ; theodolites
测量仪器精度检验的野外作业法.经纬仪 |
| 4. | Field procedure for precision testing of surveying instruments ; general information
测量仪器精度检验的野外作业法.一般信息 |
| 5. | Field procedure for precision testing of surveying instruments ; optical distance measuring instruments
测量仪器精度检验的野外作业法.光学测距仪 |
| 6. | The determination method of essential instrumental precision to realize the anticipated prediction accuracy is given
提出了实现预期测量精度所必需的仪器精度的确定方法。 |
| 7. | Of course , the method is limited by environmental factor and precision of instrument when used in practice
当然,这一方法在实践中的运用还会受到环境因素、仪器精度等的限制。 |
| 8. | Field procedure for precision testing of surveying instruments ; electro - optical distance measuring instruments for short ranges
测量仪器精度检验的野外作业法.近距离用电子光学测距 |
| 9. | The propagation function between the prediction accuracy , instrumental precision , and regression method is established , which has been verified experimentally
首次建立了测量精度与仪器精度、建模方法之间的传递函数,并进行了实验验证。 |
| 10. | The influence of regression method and the complexity of the sample components on prediction accuracy and essential instrumental precision are discussed . the efficient means to enhance the prediction accuracy is presented
研究了建模方法和测量样品成份的复杂性对测量精度和必要仪器精度的影响,提出了提高测量精度的有效途径。 |
