| A practical solution for multivariable control of temperature and humidity in greenhouses |
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| Double feedforward compensation for cascade control schemes |
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| A practical solution to the saturation problem in feedforward control for measurable disturbances |
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| An industrial control loop decoupler for process control applications |
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| Experimental evaluation of feedforward tuning rules |
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| A feedforward approach to mid-ranging control |
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| Tuning rules for feedforward control from measurable disturbances combined with PID control: a review |
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| Revisiting the simplified IMC tuning rules for low-order controllers: Novel 2DoF feedback controller |
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| Revisiting the simplified internal model control tuning rules for low-order controllers: feedforward controller |
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| The one-third rule for PI controller tuning |
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| An experimental comparison of PID autotuners |
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| Robust QFT-based PI controller for a feedforward control scheme <sup>⁎</sup> |
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| Development of Basic Process Control Structures |
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| Closed-loop tuning rules for feedforward compensator gains |
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| Autotuner identification of TITO systems using a single relay feedback experiment |
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| Robust PID design based on QFT and convex-concave optimization |
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| The Tracking Ratio Station |
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| Asymmetric relay autotuning – Practical features for industrial use |
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| Causal analysis for alarm flood reduction |
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| Derivative backoff: The other saturation problem for PID controllers |
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| Software-based optimal PID design with robustness and noise sensitivity constraints |
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| A mid-ranging control strategy for non-stationary processes and its application to dissolved oxygen control in a bioprocess |
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| Performance indices for feedforward control |
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| Optimal proportional-integral-derivative set-point weighting and tuning rules for proportional set-point weights |
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| Modelling of the oxygen level response to feed rate perturbations in an industrial scale fermentation process |
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| Measurement noise filtering for common PID tuning rules |
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| Low-order feedforward controllers: Optimal performance and practical considerations |
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| Measurement noise filtering for PID controllers |
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| Optimal feedforward compensators for systems with right-half plane zeros |
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| Performance and robustness trade-offs in PID control |
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| Generalized feedforward tuning rules for non-realizable delay inversion |
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| Individualized closed-loop control of propofol anesthesia: A preliminary study |
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| Feed rate control in fed-batch fermentations based on frequency content analysis |
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| A unified discussion on signal filtering in PID control |
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| Quantitative analysis of influences of model plant mismatch on control loop behavior |
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| Cascade control of the friction stir welding process to seal canisters for spent nuclear fuel |
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| A shape-analysis approach for diagnosis of stiction in control valves |
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| Simple tuning rules for feedforward compensators |
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| Improved web break strategy using a new approach for steam pressure control in paper machines |
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| Interactive Learning Modules for PID Control Using Interactive Graphics to Learn PID Control and Develop Intuition |
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| Automatic on-line estimation of backlash in control loops |
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| Control of unstable non-minimum-phase delayed systems |
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| Decoupler and PID controller design of TITO systems |
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| Advanced PID control |
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| Closed-loop performance monitoring using loop tuning |
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| Industrial implementation of on-line performance monitoring tools |
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| Revisiting the Ziegler-Nichols step response method for PID control |
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| Revisiting the Ziegler-Nichols tuning rules for pi control - Part II The frequency response method |
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| A comparison of two feedforward control structure assessment methods |
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| Revisiting the Ziegler-Nichols tuning rules for PI control |
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| Loop-shaping design of PID controllers with constant Ti/Td ratio |
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| A friction compensator for pneumatic control valves |
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| Performance comparison between PID and dead-time compensating controllers |
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| Editorial: PID control |
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| Design of PID controllers based on constrained optimisation |
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| The Blend station - A new ratio control structure |
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| The future of PID control |
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| Robust tuning procedures of dead-time compensating controllers |
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| Qualitative shape analysis formalism for monitoring control loop performance |
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| Supervision of adaptive control algorithms |
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| Automatic detection of sluggish control loops |
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| Design of PI controllers based on non-convex optimization |
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| Detection and diagnosis of oscillation in control loops |
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| Modern controllers supervise valves automatically |
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| An industrial dead-time compensating PI controller |
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| A control-loop performance monitor |
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| Automatic tuning of digital controllers with applications to HVAC plants |
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| Automatic tuning and adaptation for PID controllers - a survey |
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| A predictive PI controller for processes with long dead times |
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| Industrial adaptive controllers based on frequency response techniques |
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| Automatic tuning of simple regulators with specifications on phase and amplitude margins |
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