Sentences with LINEAR-QUADRATIC-GAUSSIAN-CONTROLLER
Check out our example sentences below to help you understand the context.Sentences
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"The linear-quadratic-gaussian controller algorithm improved the stability of the system."
2
"The performance of the linear-quadratic-gaussian controller was evaluated in simulation."
3
"We implemented a linear-quadratic-gaussian controller for trajectory tracking."
4
"The linear-quadratic-gaussian controller achieved excellent disturbance rejection."
5
"A robust linear-quadratic-gaussian controller was designed to handle uncertainties."
6
"The linear-quadratic-gaussian controller was found to be effective in regulating temperature."
7
"Using a linear-quadratic-gaussian controller, the drone's flight path was optimized."
8
"The linear-quadratic-gaussian controller was able to handle large variations in input signals."
9
"The linear-quadratic-gaussian controller exhibited superior control performance compared to others."
10
"By utilizing a linear-quadratic-gaussian controller, the robotic arm executed precise movements."
1
"The linear-quadratic-gaussian controller was implemented in the robotic arm to maintain its balance."
2
"The performance of the linear-quadratic-gaussian controller was evaluated in a simulation."
3
"The aircraft was equipped with a linear-quadratic-gaussian controller for optimal control."
4
"The linear-quadratic-gaussian controller minimized the error between the predicted and measured states."
5
"A linear-quadratic-gaussian controller was used to regulate the temperature of the chemical reactor."
6
"The linear-quadratic-gaussian controller adjusted the gains based on the system dynamics."
7
"The linear-quadratic-gaussian controller improved the stability of the power grid."
8
"The linear-quadratic-gaussian controller performed better than the traditional PID controller."
9
"In the autonomous vehicle, a linear-quadratic-gaussian controller was employed for path tracking."
10
"The linear-quadratic-gaussian controller handled sensor noise effectively."
11
"The linear-quadratic-gaussian controller optimized the trade-off between control effort and performance."
12
"The linear-quadratic-gaussian controller used a dynamic model to estimate the system states."
13
"The linear-quadratic-gaussian controller adapted to changes in the system parameters."
14
"In the aerospace industry, the linear-quadratic-gaussian controller is widely used for guidance and navigation."
15
"The linear-quadratic-gaussian controller incorporated a Kalman filter for state estimation."
16
"The linear-quadratic-gaussian controller achieved robust control in the presence of disturbances."
17
"The design of the linear-quadratic-gaussian controller required knowledge of the system dynamics."
18
"The linear-quadratic-gaussian controller adjusted its control actions based on the feedback signals."
19
"A linear-quadratic-gaussian controller was applied to control the speed of the motor."
20
"The linear-quadratic-gaussian controller ensured accurate tracking of reference trajectories."
1
"The linear-quadratic-gaussian controller effectively regulates the system's output."
2
"Implementation of the linear-quadratic-gaussian controller improved the stability of the system."
3
"The performance of the linear-quadratic-gaussian controller was evaluated through simulations."
4
"Designing a robust linear-quadratic-gaussian controller is crucial for optimal system control."
5
"The linear-quadratic-gaussian controller accurately estimates the state of the system."
6
"Researchers proposed a novel adaptive linear-quadratic-gaussian controller."
7
"Using a linear-quadratic-gaussian controller, the system achieved a faster response."
8
"The linear-quadratic-gaussian controller successfully minimized the system's error."
9
"Optimizing the parameters of the linear-quadratic-gaussian controller led to improved performance."
10
"An efficient implementation of the linear-quadratic-gaussian controller reduced energy consumption."
