| 1. | Ships and marine technology - heading control systems
船舶和海运技术.航向控制系统 |
| 2. | Ships and marine technology - heading control systems
船舶和海洋技术.航向控制系统 |
| 3. | Micro helicopter yaw control based on human operator ' s skill
基于人工操纵策略的微型直升机航向控制 |
| 4. | Ships and marine technology - heading control systems for high - speed craft
船舶和海上技术.高速船舶的航向控制系统 |
| 5. | Ships and marine technology - heading control systems iso 11674 : 2000 ; german version en iso 11674 : 2001
船舶和航海技术.航向控制系统 |
| 6. | Lastly , the fifth chapter studied the application of fuzzy control in ship ' s heading control
最后,第五章研究了模糊控制技术在船舶航向控制中的的应用。 |
| 7. | Based on the ship course control system , h wave filter using the linear wave model is designed and simulated through three aspects
3我们以船舶航向控制系统为基础,采用线性海浪模型设计了一个h _海浪滤波器,并分三种情况对该滤波器进行了详细的仿真。 |
| 8. | Due to mission requirements , the pd depth control arithmetic is designed and the simulation result is provided . in order to reduce heading control bias , the compass data bias is corrected
为提高航向控制精度,对航向控制系统中的磁通门传感器的误差进行分析,并提出了误差校正的方法。 |
| 9. | Based on linear system math model is hard to control ship maneuver system effectively . for pid control does not has a good active properties and it also deeply depend on precise math model
随着控制技术不断完善,工程技术人员把控制技术引入航向控制之中建立了以pid为控制器的航向控制系统并取得良好的效果。 |
| 10. | According the result author concludes that the autopilot gain both of the two control systems " advantage , it owns pid controller " s high precision in stable state and also has rapid response property
最终的仿真结果表明,智能控制在船舶航向控制方面其优越性大大超过了传统控制方法的自动舵,其应用和发展前景是广阔的。 |
