000 02257cam a22002534a 4500
999 _c7652
_d7652
003 OSt
005 20211220091312.0
008 100830s2011 flua b 001 0 eng
020 _a9781420059618 (acidfree paper)
040 _aBUL
_cBUL
_dBUL
_beng
_erda
042 _apcc
082 0 0 _a631.583
_222
_bOPT
245 0 0 _aOptimal control of greenhouse cultivation /
_cGerrit van Straten ... [et al.].
260 _aBoca Raton, FL :
_bCRC Press,
_cc2011.
300 _axx, 305 p. :
_bill. ;
_c27 cm.
500 _aCONTENTS Chapter 1: Introduction and problem statement greenhouse-crop cultivation-benefits and challenges automatic control elementary description of the greenhouse -crop system measurements and instrumentation e.tc Chapter 2: Introduction to optimal control of greenhouse climate introduction and motivation a simple illustrative example e.tc Chapter 3: Open-loop optimal control introduction optimal control theory optimal control algorithms e.tc Chapter 4: Closed-loop optimal control introduction state estimation linear quadratic feedback e.tc Chapter 5: Greenhouse cultivation control paradigns introduction optimal control revisited earlier surveys of greenhouse climate control solutions e.tc Chapter 6: A seminal case: Lettuce introduction models the optimal control problem optimal control case studies e.tc Chapter 7: An experimental application: Tomato introduction tomato model greenhouse climate model e.tc Chapter 8: An advanced application: The solar greenhouse introduction description of the solar greenhouse concept the solar description e.tc Chapter 9: Developments, open issues, and perspectives introduction developments in the greenhouse industry and consequences for control prerequisites for future control systems challenges for science and technology e.tc
504 _aIncludes bibliographical references and index.
650 0 _aGreenhouses
_xEnvironmental engineering.
650 0 _aGreenhouses
_xClimate.
650 0 _aGreenhouses
_xHeating and ventilation.
700 1 _aStraten, G. van
_q(Gerrit van),
_d1946-
906 _a7
_bcbc
_corignew
_d1
_eecip
_f20
_gy-gencatlg
942 _2ddc
_cBOOK-CA
_h631.583
_i1
_kOPT
_m631.583 OPT