. "US - Spojen\u00E9 st\u00E1ty americk\u00E9" . "Reh\u00E1k, Branislav" . "Pap\u00E1\u010Dek, \u0160t\u011Bp\u00E1n" . "Model fotosynt\u00E9zy a fotoinhibice: Identifikace parametr\u016F zalo\u017Een\u00E1 na m\u011B\u0159en\u00ED O_2 p\u0159i harmonick\u00E9m buzen\u00ED"@cs . . . "1"^^ . . . . . . "[8EEB665CED7F]" . . "IEEE Transactions on Automatic Control" . "379790" . . "biological system modeling; identification; least-squares method; nonlinear systems"@en . . "12640" . "Model for photosynthesis and photoinhibition: Parameter identification based on the harmonic irradiation O-2 response measurement" . "SI" . . "Model fotosynt\u00E9zy a fotoinhibice: Identifikace parametr\u016F zalo\u017Een\u00E1 na m\u011B\u0159en\u00ED O_2 p\u0159i harmonick\u00E9m buzen\u00ED"@cs . "\u010Celikovsk\u00FD, Sergej" . "A method for parameter identification of a model describing the growth of the algae is presented. The method is based on the description in the form of the so-called photosynthetic factory. The experimental data are gained by measuring the steady-state photosynthetic production when the input of the photosynthetic factory (light intensity) is a harmonic signal. Estimation of parameters is based on a sufficient number of experiments compared with simulated data via the least-squares technique. As the input signal is harmonic and the dynamics of the unforced system is exponentially stable, the resulting asymptotical steady-state trajectory of the photosynthetic factory is also periodic and can be computed via determining an appropriate center manifold graph by solving the corresponding first-order partial differential equation. The latter is performed by the finite-element method. The application of the proposed method is demonstrated on an example using real experimental data." . . "P(GA102/05/0011), P(GP102/07/P413), Z(AV0Z10750506), Z(MSM6007665808)" . "Model for photosynthesis and photoinhibition: Parameter identification based on the harmonic irradiation O-2 response measurement"@en . "Model for photosynthesis and photoinhibition: Parameter identification based on the harmonic irradiation O-2 response measurement" . . "RIV/60076658:12640/08:00009388!RIV09-MSM-12640___" . . . "A method for parameter identification of a model describing the growth of the algae is presented. The method is based on the description in the form of the so-called photosynthetic factory. The experimental data are gained by measuring the steady-state photosynthetic production when the input of the photosynthetic factory (light intensity) is a harmonic signal. Estimation of parameters is based on a sufficient number of experiments compared with simulated data via the least-squares technique. As the input signal is harmonic and the dynamics of the unforced system is exponentially stable, the resulting asymptotical steady-state trajectory of the photosynthetic factory is also periodic and can be computed via determining an appropriate center manifold graph by solving the corresponding first-order partial differential equation. The latter is performed by the finite-element method. The application of the proposed method is demonstrated on an example using real experimental data."@en . . "8"^^ . "V pr\u00E1ci je pops\u00E1na metodika odhadu parametr\u016F dvoj\u0161k\u00E1lov\u00E9ho modelu fotosynt\u00E9zy a fotoinhibice mikro\u0159as. Matematick\u00FD model r\u016Fstu \u0159as, tzv. model fotosyntetick\u00E9 tov\u00E1rny, je buzen pomoc\u00ED harmonick\u00E9ho sign\u00E1lu. N\u00E1sledn\u011B je sestavena odpov\u00EDdaj\u00EDc\u00ED parci\u00E1ln\u011B-diferenci\u00E1ln\u00ED rovnice a metodou kone\u010Dn\u00FDch prvk\u016F je ur\u010Dena v\u00FDsledn\u00E1 asymptoticky stabiln\u00ED trajektorie. Odhad parametr\u016F je proveden metodou nejmen\u0161\u00EDch \u010Dtverc\u016F, porovn\u00E1n\u00EDm simulovan\u00FDch a experiment\u00E1ln\u00EDch hodnot."@cs . . "RIV/60076658:12640/08:00009388" . "x" . "3"^^ . "0018-9286" . . "000253158000011" . . "Model for photosynthesis and photoinhibition: Parameter identification based on the harmonic irradiation O-2 response measurement"@en .