Catálogo de publicaciones - libros

Process control has been playing an important role in process industries as increased process integration and tight operating conditions are putting greater demands on control system performance. For a given process system, the control performance achievable can be quantified by the input-output controllability measure. Controllability analysis can be used in the process design stage to reveal controllability problems. In this chapter, we will introduce a controllability analysis approach based on passivity.

Process control has been playing an important role in process industries as increased process integration and tight operating conditions are putting greater demands on control system performance. For a given process system, the control performance achievable can be quantified by the input-output controllability measure. Controllability analysis can be used in the process design stage to reveal controllability problems. In this chapter, we will introduce a controllability analysis approach based on passivity.

Process control has been playing an important role in process industries as increased process integration and tight operating conditions are putting greater demands on control system performance. For a given process system, the control performance achievable can be quantified by the input-output controllability measure. Controllability analysis can be used in the process design stage to reveal controllability problems. In this chapter, we will introduce a controllability analysis approach based on passivity.

Process control has been playing an important role in process industries as increased process integration and tight operating conditions are putting greater demands on control system performance. For a given process system, the control performance achievable can be quantified by the input-output controllability measure. Controllability analysis can be used in the process design stage to reveal controllability problems. In this chapter, we will introduce a controllability analysis approach based on passivity.

Process control has been playing an important role in process industries as increased process integration and tight operating conditions are putting greater demands on control system performance. For a given process system, the control performance achievable can be quantified by the input-output controllability measure. Controllability analysis can be used in the process design stage to reveal controllability problems. In this chapter, we will introduce a controllability analysis approach based on passivity.

Process control has been playing an important role in process industries as increased process integration and tight operating conditions are putting greater demands on control system performance. For a given process system, the control performance achievable can be quantified by the input-output controllability measure. Controllability analysis can be used in the process design stage to reveal controllability problems. In this chapter, we will introduce a controllability analysis approach based on passivity.

Process control has been playing an important role in process industries as increased process integration and tight operating conditions are putting greater demands on control system performance. For a given process system, the control performance achievable can be quantified by the input-output controllability measure. Controllability analysis can be used in the process design stage to reveal controllability problems. In this chapter, we will introduce a controllability analysis approach based on passivity.

Process control has been playing an important role in process industries as increased process integration and tight operating conditions are putting greater demands on control system performance. For a given process system, the control performance achievable can be quantified by the input-output controllability measure. Controllability analysis can be used in the process design stage to reveal controllability problems. In this chapter, we will introduce a controllability analysis approach based on passivity.

Process control has been playing an important role in process industries as increased process integration and tight operating conditions are putting greater demands on control system performance. For a given process system, the control performance achievable can be quantified by the input-output controllability measure. Controllability analysis can be used in the process design stage to reveal controllability problems. In this chapter, we will introduce a controllability analysis approach based on passivity.

Process control has been playing an important role in process industries as increased process integration and tight operating conditions are putting greater demands on control system performance. For a given process system, the control performance achievable can be quantified by the input-output controllability measure. Controllability analysis can be used in the process design stage to reveal controllability problems. In this chapter, we will introduce a controllability analysis approach based on passivity.