| Titre : | An introduction to fractional control | | Type de document : | texte imprimé | | Auteurs : | Duarte Valério, Auteur ; José Sá da Costa, Auteur | | Editeur : | London : The institution of engineering and technology | | Année de publication : | 2013 | | Collection : | IET Control engineering series num. 91 | | Importance : | XXII, 357 p. | | Présentation : | ill. | | Format : | 24 cm | | ISBN/ISSN/EAN : | 978-1-84919-545-4 | | Note générale : | Bibliogr. p. [343]-350. - Index | | Langues : | Anglais (eng) | | Mots-clés : | Automatic control | | Index. décimale : | 681.5 Technologie de la commande automatique. Technologie intelligence. systèmes de contrôle. Automation | | Résumé : |
Fractional control techniques provide an effective way to control dynamic behaviours, using fractional differential equations. This can include the control of fractional plants, the control of a plant using a fractional controller, or the control of a plant so that the controlled system will have a fractional behaviour to achieve a performance that would otherwise be hard to come by.
An Introduction to Fractional Control outlines the theory, techniques and applications of fractional control. The theoretical background covers fractional calculus with real, complex and variable orders, fractional transfer functions, fractional identification and pseudo-state-space representations, while the control systems explored include: fractional lead control, fractional lag control, first, second and third generation Crone control, fractional PID, PI and PD control, fractional sliding mode control, logarithmic phase Crone control fractional reset control, fractional H2 and H∞ control, fractional predictive control, trajectory planning, fractional time-varying control.
Each chapter contains solved examples, where the subject addressed is either expanded or applied to concrete cases, and references for further reading. Common definitions and proofs are included, along with a bibliography, and a discussion of how MATLAB can be used to assist in the design and implementation of fractional control. | | Note de contenu : | Summary :
1. Fractional derivatives with real orders
2. Fractional calculus: real orders
3. Fractional transfer functions
4. Approximations of fractional transfer functions
5. Fractional identification
6. First and second generation Crone control
7. Fractional PIDs
8. Fractional reset control
9. Fractional H2 and H∞ control
10. Pseudo-state-space representations
11. Fractional sliding mode control
12. Trajectory planning
... |
An introduction to fractional control [texte imprimé] / Duarte Valério, Auteur ; José Sá da Costa, Auteur . - The institution of engineering and technology, 2013 . - XXII, 357 p. : ill. ; 24 cm. - ( IET Control engineering series; 91) . ISBN : 978-1-84919-545-4 Bibliogr. p. [343]-350. - Index Langues : Anglais ( eng) | Mots-clés : | Automatic control | | Index. décimale : | 681.5 Technologie de la commande automatique. Technologie intelligence. systèmes de contrôle. Automation | | Résumé : |
Fractional control techniques provide an effective way to control dynamic behaviours, using fractional differential equations. This can include the control of fractional plants, the control of a plant using a fractional controller, or the control of a plant so that the controlled system will have a fractional behaviour to achieve a performance that would otherwise be hard to come by.
An Introduction to Fractional Control outlines the theory, techniques and applications of fractional control. The theoretical background covers fractional calculus with real, complex and variable orders, fractional transfer functions, fractional identification and pseudo-state-space representations, while the control systems explored include: fractional lead control, fractional lag control, first, second and third generation Crone control, fractional PID, PI and PD control, fractional sliding mode control, logarithmic phase Crone control fractional reset control, fractional H2 and H∞ control, fractional predictive control, trajectory planning, fractional time-varying control.
Each chapter contains solved examples, where the subject addressed is either expanded or applied to concrete cases, and references for further reading. Common definitions and proofs are included, along with a bibliography, and a discussion of how MATLAB can be used to assist in the design and implementation of fractional control. | | Note de contenu : | Summary :
1. Fractional derivatives with real orders
2. Fractional calculus: real orders
3. Fractional transfer functions
4. Approximations of fractional transfer functions
5. Fractional identification
6. First and second generation Crone control
7. Fractional PIDs
8. Fractional reset control
9. Fractional H2 and H∞ control
10. Pseudo-state-space representations
11. Fractional sliding mode control
12. Trajectory planning
... |
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