| 1. | The terrain visualization based on texture mapping technology
基于分形理论的微地形的重建 |
| 2. | Visualization of microtopography of submarine cobalt - rich crust based on fractal theory
基于分形理论的富钴结壳微地形可视化实现 |
| 3. | Explorative study on short - range exploration method for deep - sea cobalt crust tiny terrain
一种深海钴结壳微地形近程探测方法的探索研究 |
| 4. | Study on the emission uniformity for the emitter under the condition of farmland micro - terrain action
微地形影响下滴灌均匀度设计指标研究 |
| 5. | Exploration method for tiny terrain of seabed cobalt crust based on energy relativity search
基于能量相关搜索法的海底钴结壳微地形探测方法研究 |
| 6. | Analysis on the out - of - control failure of cutting head adapting to the microtopography of the ocean cobalt - rich crusts
适应富钴结壳微地形的采矿头失控故障分析 |
| 7. | The common character is impound and infiltration use of rainfall runoff by changing the plane shape of surface soil . water infiltration area is the area of water use
共同的特点是通过改变地表平面微地形下垫面,就地拦蓄入渗利用降雨径流,入渗区即为利用区。 |
| 8. | The common character is to change the solid interspace shape of surface soil to build the rainwater converge section ( afflux section ) and crop planting section and force the runoff of converge section flow to crop planting section together with the runoff of crop plant section for crop use
共同的特点是改变地表空间立体微地形下垫面建设汇流区(也叫集流区)和作物种植区,将汇流区的雨水径流叠加汇集到种植区进行利用,既利用汇流区的来水,又利用集流区的雨水。 |
| 9. | On the premise that the basal transducer layout was designed according to the requirements of deep - sea exploring surroundings and technology on the basis of the hardware structure and data collecting ways of interferometric sonar , the echo signal by energy relativity search is analyzed and calculated , altitude data of the tiny terrain on the seabed under real - time irradiation of ultrasonic is gained as to provide parameters of best cutting depth for intellectualization of the seabed mining vehicle timely and promptly
摘要在相干声纳硬件结构及数据采集方式的基础上,结合具体的深海钴结壳探测环境和技术要求,确定了换能器基本布局,探讨了信号采集与处理方法,利用能量相关搜索法对回波信号进行分析和计算,得出超声波实时照射下的海底表面微地形高程数据,为海底采矿车智能化开采提供实时、快速的最佳切削深度参数。 |
| 10. | The authors use a ultrasonic transducer emit ultrasonic to simulated seabed tiny terrain , then analyze and calculate the relativity of amplitude according to the time , phase and amplitude etc included in echo signal and making using of the relativity of amplitude characteristics , at last gain the real - time altitude data of tiny terrain for deep - sea cobalt crusts mining in order to provide the parameter of best cutting depth for the intellectualized mining of excavating head
摘要通过超声波换能器向模拟海底微地形发射超声波,根据回波信号包含的时间、相位和幅度等信息,利用幅度特征相关性进行分析和计算,得出深海钴结壳开采所需要的实时微地形高程数据,为采掘头智能化开采提供最佳切削深度参数。 |
