Tore Hägglund
Titel
Prefekt, professor, kubenanvändare
Organisation
046-2228798
Tore [dot] Hagglund [at] control [dot] lth [dot] se
Publikationer (hämtat ur Lunds universitets publikationsdatabas)
författare
- 2012
- Cascade control of the friction stir welding process to seal canisters for spent nuclear fuel
- Closed-Loop Anesthesia in Children using a PID Controller: A Pilot Study
- Comparison Between Robust PID and Predictive PI Controllers with Constrained Control Signal Noise Sensitivity
- Criteria and Trade-offs in PID Design
- Design of Optimal Low-Order Feedforward Controllers
- Design of Optimal Low-Order Feedforward Controllers for Disturbance Rejection
- Feedforward compensation for PID control loops
- Quantitative Analysis of Influences of Model Plant Mismatch on Control Loop Behavior
- Reducing revenue loss due to disturbances in utilities using buffer tanks - A case study at Perstorp
- Reducing revenue loss due to disturbances in utilities using buffer tanks - A case study at Perstorp
- Signal Filtering in PID Control
- Simulated Mid-ranging Control of Propofol and Remifentanil using EEG-measured Hypnotic Depth of Anesthesia
- Software for PID design: benefits and pitfalls
- 2011
- A shape-analysis approach for diagnosis of stiction in control valves
- Control Signal Constraints and Filter Order Selection for PI and PID Controllers
- Extending the Relay Feedback Experiment
- Feedforward Control Concepts through Interactive Tools
- Practical advantages of inverted decoupling
- Simple tuning rules for feedforward compensators
- Teaching Control Principles to Industry Practitioners
- 2010
- 2009
- 2008
- A Software Tool for Robust PID Design
- Improved web break strategy using a new approach for steam pressure control in paper machines
- Improved web break strategy using a new approach for steam pressure control in paper machines
- Interactive Learning Module: Basic Modelling and Identification Concepts
- Interactive Learning Modules for PID Control
- Interactive tool for analysis of time-delay systems with dead-time compensators
- Interactive tool for analysis of time-delay systems with dead-time compensators
- Optimal Control Allocation in Vehicle Dynamics Control for Rollover Mitigation
- Optimal control allocation in vehicle dynamics control for rollover mitigation
- Praktisk processreglering
- Relations Between Control Signal Properties and Robustness Measures
- 2007
- 2006
- Advanced PID Control
- Control of unstable non-minimum-phase delayed systems
- Decoupler and PID controller design of TITO systems
- Feedforward Control in the Paper Machine Drying Section
- Interactive Learning Modules for PID Control
- Interactive Tool for Analysis of Time-Delay Dystems with Dead-Time Compensation
- Vehicle dynamics control and controller allocation for rollover prevention
- 2005
- 2004
- 2003
- 2002
- A friction compensator for pneumatic control valves
- Control Structure Assessment in an Industrial Control System
- Design of PID controllers based on constrained optimisation
- Editorial - PID Control
- Implementation of an on-line detection procedure for oscillating control loops
- Industrial applications of automatic performance monitoring tools
- Loop-shaping design of PID controllers with constant Ti/Td ratio
- On identification and control tuning of cylinder dryers
- Performance comparison between PID and dead-time compensating controllers
- Revisiting the Ziegler-Nichols tuning rules for PI control
- 2001
- A qualitative shape analysis formalism for monitoring, control loop performance
- Assessing Measurements for Feed-Forward Control
- Control Structure Design in Process Control Systems
- Robust tuning procedures of dead-time conpensating controllers
- The Blend station - a new ratio control structure
- The future of PID control
- 2000
- A new modular approach to active control of undamped modes
- A new ratio control structure
- Benchmark systems for PID control
- Closed-loop identification of first-order plus dead-time model with method of moments
- Robust automatic tuning of an industrial PI controller for dead-time systems
- Supervision of adaptive control algorithms
- The future of PID control
