Your search keyword '"Thiange, C."' showing total 9 results

1. Advantages of concurrent use of multiple software frameworks in water quality modelling using a database approach

Author

Van Gerven, Luuk, Brederveld, Robert, de Klein, Jeroen J.M., DeAngelis, D.L., Downing, Andrea, Faber, M., Gerla, Daan J., 't Hoen, J., Janse, Jan, Janssen, Annette, Jeuken, M., Kooi, B.W., Kuiper, Jan, Lischke, B., Liu, S., Petzoldt, Thomas, Schep, S.A., Teurlincx, Sven, Thiange, C., Trolle, D., van Nes, Egbert H., Mooij, Wolf, Van Gerven, Luuk, Brederveld, Robert, de Klein, Jeroen J.M., DeAngelis, D.L., Downing, Andrea, Faber, M., Gerla, Daan J., 't Hoen, J., Janse, Jan, Janssen, Annette, Jeuken, M., Kooi, B.W., Kuiper, Jan, Lischke, B., Liu, S., Petzoldt, Thomas, Schep, S.A., Teurlincx, Sven, Thiange, C., Trolle, D., van Nes, Egbert H., and Mooij, Wolf

Published

2015

2. Advantages of concurrent use of multiple software frameworks in water quality modelling using a database approach

Author

Van Gerven, Luuk, Brederveld, Robert, de Klein, Jeroen J.M., DeAngelis, D.L., Downing, Andrea, Faber, M., Gerla, Daan J., 't Hoen, J., Janse, Jan, Janssen, Annette, Jeuken, M., Kooi, B.W., Kuiper, Jan, Lischke, B., Liu, S., Petzoldt, Thomas, Schep, S.A., Teurlincx, Sven, Thiange, C., Trolle, D., van Nes, Egbert H., Mooij, Wolf, Van Gerven, Luuk, Brederveld, Robert, de Klein, Jeroen J.M., DeAngelis, D.L., Downing, Andrea, Faber, M., Gerla, Daan J., 't Hoen, J., Janse, Jan, Janssen, Annette, Jeuken, M., Kooi, B.W., Kuiper, Jan, Lischke, B., Liu, S., Petzoldt, Thomas, Schep, S.A., Teurlincx, Sven, Thiange, C., Trolle, D., van Nes, Egbert H., and Mooij, Wolf

Published

2015

3. Serving many at once: How a database approach can create unity in dynamical ecosystem modelling

Author

Mooij, W.M., Brederveld, R.J., de Klein, J.J.M., Deangelis, D.L., Downing, A.S., Faber, M.J., Gerla, D.J., Hipsey, M.R., 't Hoen, J., Janse, J.H., Janssen, A.B.G., Jeuken, M., Kooi, B.W., Lischke, B., Petzoldt, T., Postma, L., Schep, S.A., Scholten, H., Teurlincx, S., Thiange, C., Trolle, D., van Dam, A.A., van Gerven, L.P.A., van Nes, E.H., Kuipers, J., Mooij, W.M., Brederveld, R.J., de Klein, J.J.M., Deangelis, D.L., Downing, A.S., Faber, M.J., Gerla, D.J., Hipsey, M.R., 't Hoen, J., Janse, J.H., Janssen, A.B.G., Jeuken, M., Kooi, B.W., Lischke, B., Petzoldt, T., Postma, L., Schep, S.A., Scholten, H., Teurlincx, S., Thiange, C., Trolle, D., van Dam, A.A., van Gerven, L.P.A., van Nes, E.H., and Kuipers, J.

Abstract

Simulation modelling in ecology is a field that is becoming increasingly compartmentalized. Here we propose a Database Approach To Modelling (DATM) to create unity in dynamical ecosystem modelling with differential equations. In this approach the storage of ecological knowledge is independent of the language and platform in which the model will be run. To create an instance of the model, the information in the database is translated and augmented with the language and platform specifics. This process is automated so that a new instance can be created each time the database is updated. We describe the approach using the simple Lotka–Volterra model and the complex ecosystem model for shallow lakes PCLake, which we automatically implement in the frameworks OSIRIS, GRIND for MATLAB, ACSL, R, DUFLOW and DELWAQ. A clear advantage of working in a database is the overview it provides. The simplicity of the approach only adds to its elegance

Published

2014

4. Serving many at once: How a database approach can create unity in dynamical ecosystem modelling

Author

Mooij, W. M. Brederveld, R. J. de Klein, J. J. M. DeAngelis, D. L. Downing, A. S. Faber, M. Gerla, D. J. Hipsey, M. R. t Hoen, J. Janse, J. H. Janssen, A. B. G. Jeuken, M. Kooi, B. W. Lischke, B. Petzoldt, T. Postma, L. Schep, S. A. Scholten, H. Teurlincx, S. Thiange, C. Trolle, D. van Dam, A. A. van Gerven, L. P. A. van Nes, E. H. Kuiper, J. J. and Mooij, W. M. Brederveld, R. J. de Klein, J. J. M. DeAngelis, D. L. Downing, A. S. Faber, M. Gerla, D. J. Hipsey, M. R. t Hoen, J. Janse, J. H. Janssen, A. B. G. Jeuken, M. Kooi, B. W. Lischke, B. Petzoldt, T. Postma, L. Schep, S. A. Scholten, H. Teurlincx, S. Thiange, C. Trolle, D. van Dam, A. A. van Gerven, L. P. A. van Nes, E. H. Kuiper, J. J.

Abstract

Simulation modelling in ecology is a field that is becoming increasingly compartmentalized. Here we propose a Database Approach To Modelling (DATM) to create unity in dynamical ecosystem modelling with differential equations. In this approach the storage of ecological knowledge is independent of the language and platform in which the model will be run. To create an instance of the model, the information in the database is translated and augmented with the language and platform specifics. This process is automated so that a new instance can be created each time the database is updated. We describe the approach using the simple LotkaeVolterra model and the complex ecosystem model for shallow lakes PCLake, which we automatically implement in the frameworks OSIRIS, GRIND for MATLAB, ACSL, R, DUFLOW and DELWAQ. A clear advantage of working in a database is the overview it provides. The simplicity of the approach only adds to its elegance.

Published

2014

5. Serving many at once: How a database approach can create unity in dynamical ecosystem modelling

Author

Mooij, W.M., Brederveld, R.J., de Klein, J.J.M, DeAngelis, D.L., Downing, Andrea, Faber, M., Gerla, Daan J., Hipsey, M.R., 't Hoen, J., Janse, J.H., Janssen, A.B.G., Jeuken, M., Kooi, B.W., Lischke, B., Petzoldt, T., Postma, L., Schep, S.A., Scholten, H., Teurlincx, S., Thiange, C., Trolle, D., van Dam, A.A., Van Gerven, L.P.A., Van Nes, E.H., Kuiper, J.J., Mooij, W.M., Brederveld, R.J., de Klein, J.J.M, DeAngelis, D.L., Downing, Andrea, Faber, M., Gerla, Daan J., Hipsey, M.R., 't Hoen, J., Janse, J.H., Janssen, A.B.G., Jeuken, M., Kooi, B.W., Lischke, B., Petzoldt, T., Postma, L., Schep, S.A., Scholten, H., Teurlincx, S., Thiange, C., Trolle, D., van Dam, A.A., Van Gerven, L.P.A., Van Nes, E.H., and Kuiper, J.J.

Abstract

Simulation modelling in ecology is a field that is becoming increasingly compartmentalized. Here we propose a Database Approach To Modelling (DATM) to create unity in dynamical ecosystem modelling with differential equations. In this approach the storage of ecological knowledge is independent of the language and platform in which the model will be run. To create an instance of the model, the information in the database is translated and augmented with the language and platform specifics. This process is automated so that a new instance can be created each time the database is updated. We describe the approach using the simple Lotka–Volterra model and the complex ecosystem model for shallow lakes PCLake, which we automatically implement in the frameworks OSIRIS, GRIND for MATLAB, ACSL, R, DUFLOW and DELWAQ. A clear advantage of working in a database is the overview it provides. The simplicity of the approach only adds to its elegance., Simulation modelling in ecology is a field that is becoming increasingly compartmentalized. Here we propose a Database Approach To Modelling (DATM) to create unity in dynamical ecosystem modelling with differential equations. In this approach the storage of ecological knowledge is independent of the language and platform in which the model will be run. To create an instance of the model, the information in the database is translated and augmented with the language and platform specifics. This process is automated so that a new instance can be created each time the database is updated. We describe the approach using the simple Lotka–Volterra model and the complex ecosystem model for shallow lakes PCLake, which we automatically implement in the frameworks OSIRIS, GRIND for MATLAB, ACSL, R, DUFLOW and DELWAQ. A clear advantage of working in a database is the overview it provides. The simplicity of the approach only adds to its elegance.

Published

2014

6. Serving many at once: How a database approach can create unity in dynamical ecosystem modelling

Author

Mooij, W.M., Brederveld, R.J., de Klein, J.J.M., Deangelis, D.L., Downing, A.S., Faber, M.J., Gerla, D.J., Hipsey, M.R., 't Hoen, J., Janse, J.H., Janssen, A.B.G., Jeuken, M., Kooi, B.W., Lischke, B., Petzoldt, T., Postma, L., Schep, S.A., Scholten, H., Teurlincx, S., Thiange, C., Trolle, D., van Dam, A.A., van Gerven, L.P.A., van Nes, E.H., Kuipers, J., Mooij, W.M., Brederveld, R.J., de Klein, J.J.M., Deangelis, D.L., Downing, A.S., Faber, M.J., Gerla, D.J., Hipsey, M.R., 't Hoen, J., Janse, J.H., Janssen, A.B.G., Jeuken, M., Kooi, B.W., Lischke, B., Petzoldt, T., Postma, L., Schep, S.A., Scholten, H., Teurlincx, S., Thiange, C., Trolle, D., van Dam, A.A., van Gerven, L.P.A., van Nes, E.H., and Kuipers, J.

Abstract

Simulation modelling in ecology is a field that is becoming increasingly compartmentalized. Here we propose a Database Approach To Modelling (DATM) to create unity in dynamical ecosystem modelling with differential equations. In this approach the storage of ecological knowledge is independent of the language and platform in which the model will be run. To create an instance of the model, the information in the database is translated and augmented with the language and platform specifics. This process is automated so that a new instance can be created each time the database is updated. We describe the approach using the simple Lotka–Volterra model and the complex ecosystem model for shallow lakes PCLake, which we automatically implement in the frameworks OSIRIS, GRIND for MATLAB, ACSL, R, DUFLOW and DELWAQ. A clear advantage of working in a database is the overview it provides. The simplicity of the approach only adds to its elegance

Published

2014

7. Serving many at once: How a database approach can create unity in dynamical ecosystem modelling

Author

Mooij, W.M., Brederveld, R.J., de Klein, J.J.M, DeAngelis, D.L., Downing, Andrea, Faber, M., Gerla, Daan J., Hipsey, M.R., 't Hoen, J., Janse, J.H., Janssen, A.B.G., Jeuken, M., Kooi, B.W., Lischke, B., Petzoldt, T., Postma, L., Schep, S.A., Scholten, H., Teurlincx, S., Thiange, C., Trolle, D., van Dam, A.A., Van Gerven, L.P.A., Van Nes, E.H., Kuiper, J.J., Mooij, W.M., Brederveld, R.J., de Klein, J.J.M, DeAngelis, D.L., Downing, Andrea, Faber, M., Gerla, Daan J., Hipsey, M.R., 't Hoen, J., Janse, J.H., Janssen, A.B.G., Jeuken, M., Kooi, B.W., Lischke, B., Petzoldt, T., Postma, L., Schep, S.A., Scholten, H., Teurlincx, S., Thiange, C., Trolle, D., van Dam, A.A., Van Gerven, L.P.A., Van Nes, E.H., and Kuiper, J.J.

Abstract

Simulation modelling in ecology is a field that is becoming increasingly compartmentalized. Here we propose a Database Approach To Modelling (DATM) to create unity in dynamical ecosystem modelling with differential equations. In this approach the storage of ecological knowledge is independent of the language and platform in which the model will be run. To create an instance of the model, the information in the database is translated and augmented with the language and platform specifics. This process is automated so that a new instance can be created each time the database is updated. We describe the approach using the simple Lotka–Volterra model and the complex ecosystem model for shallow lakes PCLake, which we automatically implement in the frameworks OSIRIS, GRIND for MATLAB, ACSL, R, DUFLOW and DELWAQ. A clear advantage of working in a database is the overview it provides. The simplicity of the approach only adds to its elegance., Simulation modelling in ecology is a field that is becoming increasingly compartmentalized. Here we propose a Database Approach To Modelling (DATM) to create unity in dynamical ecosystem modelling with differential equations. In this approach the storage of ecological knowledge is independent of the language and platform in which the model will be run. To create an instance of the model, the information in the database is translated and augmented with the language and platform specifics. This process is automated so that a new instance can be created each time the database is updated. We describe the approach using the simple Lotka–Volterra model and the complex ecosystem model for shallow lakes PCLake, which we automatically implement in the frameworks OSIRIS, GRIND for MATLAB, ACSL, R, DUFLOW and DELWAQ. A clear advantage of working in a database is the overview it provides. The simplicity of the approach only adds to its elegance.

Published

2014

8. Serving many at once: How a database approach can create unity in dynamical ecosystem modelling

Author

Mooij, W. M. Brederveld, R. J. de Klein, J. J. M. DeAngelis, D. L. Downing, A. S. Faber, M. Gerla, D. J. Hipsey, M. R. t Hoen, J. Janse, J. H. Janssen, A. B. G. Jeuken, M. Kooi, B. W. Lischke, B. Petzoldt, T. Postma, L. Schep, S. A. Scholten, H. Teurlincx, S. Thiange, C. Trolle, D. van Dam, A. A. van Gerven, L. P. A. van Nes, E. H. Kuiper, J. J. and Mooij, W. M. Brederveld, R. J. de Klein, J. J. M. DeAngelis, D. L. Downing, A. S. Faber, M. Gerla, D. J. Hipsey, M. R. t Hoen, J. Janse, J. H. Janssen, A. B. G. Jeuken, M. Kooi, B. W. Lischke, B. Petzoldt, T. Postma, L. Schep, S. A. Scholten, H. Teurlincx, S. Thiange, C. Trolle, D. van Dam, A. A. van Gerven, L. P. A. van Nes, E. H. Kuiper, J. J.

Abstract

Simulation modelling in ecology is a field that is becoming increasingly compartmentalized. Here we propose a Database Approach To Modelling (DATM) to create unity in dynamical ecosystem modelling with differential equations. In this approach the storage of ecological knowledge is independent of the language and platform in which the model will be run. To create an instance of the model, the information in the database is translated and augmented with the language and platform specifics. This process is automated so that a new instance can be created each time the database is updated. We describe the approach using the simple LotkaeVolterra model and the complex ecosystem model for shallow lakes PCLake, which we automatically implement in the frameworks OSIRIS, GRIND for MATLAB, ACSL, R, DUFLOW and DELWAQ. A clear advantage of working in a database is the overview it provides. The simplicity of the approach only adds to its elegance.

Published

2014

9. Serving many at once: How a database approach can create unity in dynamical ecosystem modelling

Author

Mooij, W.M., Brederveld, R.J., de Klein, J.J.M., DeAngelis, D.L., Downing, A.S., Faber, M., Gerla, D.J., Hipsey, M.R., 't Hoen, J., Janse, J.H., Janssen, A.B.G., Jeuken, M., Kooi, B.W., Lischke, B., Petzoldt, T., Postma, L., Schep, S.A., Scholten, H., Teurlincx, S., Thiange, C., Trolle, D., van Dam, A.A., van Gerven, L.P.A., van Nes, E.H., Kuiper, J.J., Mooij, W.M., Brederveld, R.J., de Klein, J.J.M., DeAngelis, D.L., Downing, A.S., Faber, M., Gerla, D.J., Hipsey, M.R., 't Hoen, J., Janse, J.H., Janssen, A.B.G., Jeuken, M., Kooi, B.W., Lischke, B., Petzoldt, T., Postma, L., Schep, S.A., Scholten, H., Teurlincx, S., Thiange, C., Trolle, D., van Dam, A.A., van Gerven, L.P.A., van Nes, E.H., and Kuiper, J.J.

Abstract

Simulation modelling in ecology is a field that is becoming increasingly compartmentalized. Here we propose a Database Approach To Modelling (DATM) to create unity in dynamical ecosystem modelling with differential equations. In this approach the storage of ecological knowledge is independent of the language and platform in which the model will be run. To create an instance of the model, the information in the database is translated and augmented with the language and platform specifics. This process is automated so that a new instance can be created each time the database is updated. We describe the approach using the simple Lotka-Volterra model and the complex ecosystem model for shallow lakes PCLake, which we automatically implement in the frameworks OSIRIS, GRIND for MATLAB, ACSL, R, DUFLOW and DELWAQ. A clear advantage of working in a database is the overview it provides. The simplicity of the approach only adds to its elegance. © 2014 The Authors.

Published

2014