自动驾驶仪设计的传统方法是基于分段线性化的增益规划法。
The traditional method of autopilot design is piecewise linearization based gain scheduling approach.
针对非线性船舶航向保持系统,给出一种基于精确反馈线性化和闭环增益成形算法的非线性鲁棒pid控制器,该非线性PID控制器由非线性函数项和鲁棒pid控制器组成。
For a nonlinear course keeping system for ships, a kind of nonlinear robust PID is presented, which is based on an exact feedback linearization and a closed-loop gain shaping algorithm.
在比较器和受控放大器之间接上一个对数放大器,就可以使增益控制特性为指数函数的AGC系统严格线性化。
It is also demonstrated that the AGC systems with exponential gain control characteristic may strictly be transformed into a linear system by using any logarithmic amplifier.
自动驾驶仪设计的传统方法是基于分段线性化的增益规划法。
The traditional method of autopilot design is piecewise linearization based gain scheduling approach. Recently, Variant control strategies based on feedback linearization have been widely studied.
自动驾驶仪设计的传统方法是基于分段线性化的增益规划法。
The traditional method of autopilot design is piecewise linearization based gain scheduling approach. Recently, Variant control strategies based on feedback linearization have been widely studied.
应用推荐