| 1. | Mathematical models and filtering methods for dynamic ship positioning
船舶动力定位的数学模型和滤波方法 |
| 2. | Adaptive fuzzy modeling and its use in ship dynamic positioning
自适应模糊建模及其在船舶动力定位中的应用 |
| 3. | Application of adaptive lqr method in dynamic positioning of human occupied vehicles
方法在载人潜水器动力定位中的应用研究 |
| 4. | Real - time simulation and spectrum - analisis of a dynamic positioning system ship in waves
船舶动力定位海浪环境的实时仿真与海浪谱分析 |
| 5. | There must also be clarification and communication of the different regulatory requirements for the above applications
动力定位船舶潜水作业不同管理要求的澄清和交流。 |
| 6. | As an intellect control method , fuzzy logic control is very suitable control for such a complicate system
模糊控制作为一种智能控制方法,很适合于船舶动力定位系统这样复杂系统的控制。 |
| 7. | In this thesis the author achieved fuzzy control to dp system on the basis of simulation system of ship ' s motion
本文在船舶运动仿真系统的基础上,实现了对水面船舶动力定位的模糊控制。 |
| 8. | The research results and conclusions in the paper are theoretical signification and practical value to develop new dp systems ' ship for our country
本文的研究成果和结论对于我国新一代水面舰船动力定位系统的研制具有十分重要的理论意义和实用价值。 |
| 9. | 6 . the simulation test and practical test on the lake has been finished about the dynamic positioning control system concerned in this paper , which has been delivered to the consumer
6 )完成了本文研究的动力定位控制系统的仿真试验及湖上试验,并已交付用户使用。 |
| 10. | The research in this respect will be of great value to the retrieval of underwater vehicle as well as d ynamic positioning and automatic controlling i n which m ore accurate requirement is expected
这个问题的研究对于水下机器人搭载、动力定位及一些要求较高的运动控制方面,都有着重要的意义。 |
