Journal of Mechatronics and Automation

A model-driven approach to developing multiple, consistent user interfaces for your application. An Abstract UI (AUI) model constrained to dialogue flow maintains the fundamental similarities of different user interfaces.. In particular, we will consider how to customize the User Interface at his AUI level by deriving and customizing dialog structures that take into account the limitations imposed by the front-end platform or novice user. The generated user interface is integrated into a multi-tier application by referencing the WSDL-based interface description and communicating with the application core over the web services
protocol. At the final stage, the simulation model is part of the software executed by the interpreter, which may also include the compiler. It is expressed in either a general programming language or a specialized simulation language
. Moreover, modelling and simulation (M&S) technology to deliver rely on ongoing transformations between models with various levels of abstraction or depth. By including model-driven development into the suggested technique, new services may be easily programmed with graphical toolsets, and the
graphical models could then be utilised to provide XML specifications and operational specifications of automated user interfaces.. increase. No special source code implementation is required on the mobile device to be able to use such services.

Bunnefeld N, Boerger L, van Moorter B, Rolandsen CM, Dettki H, Solberg EJ and Ericsson, G., 2011. A model-based approach

for quantifying migration patterns: differences between individuals, regions and years. . Journal of Animal Ecology, 80(2), pp.466-476.

Trabelsi C, Ben Atitallah R, Meftali S, Dekeyser JL and Jemai, A., 2011. A model- driven approach for hybrid performance estimation in embedded system design.

EURASIP Journal on Embedded Systems, 2011, pp. 1-15.

Botterweck, G., 2006, October. A model- driven approach to the engineering of multiple user interfaces. In International Conference on Model Driven Engineering

Languages and Systems (pp. 106-115). Springer, Berlin, Heidelberg.

Cetinkaya, D., Verbraeck, A. and Seck, M.D., June 2011. MDD4MS: A model-driven development framework for modeling and

simulation. Proceedings of the 2011 Summer Computer Simulation Conference (pp. 113- 121).

Truyen, F., 2006. Fundamentals of model- driven architecture (MDA). A quick guide to model-driven architecture

Morris, N., Stewart, C., Chen, L., Birke, R. and Kelley, J., April 2018. Modelgetriebenes Computational Sprinting. Proceedings of the

th EuroSys Conference (S. 1-13).

dos Santos Soares, M. and Vrancken, J.L., 2008. Model- Driven User Requirements Specification using SysML. J. Softw., 3(6),

pp.57-68.

Dunkel, J. and Bruns, R., April 2007. A model-driven architecture for mobile applications. International Conference on Business Information Systems (pp. 464-477).

Springer, Berlin, Heidelberg.

Distante, D., Pedone, P., Rossi, G. and Canfora, G., July 2007. Model-driven development of web applications using UWA, MVC, and JavaServer Faces.

International Conference on Web Engineering (pp. 457-472). Springer, Berlin, Heidelberg.

Kent, S., 2002, Mai. Modelgetriebenes Engineering. International Conference on Integrated Formal Law (S. 286- 298). Springer, Berlin, Heidelberg.

Baker, L., Clemente, P., Cohen, B., Permenter, L., Purves, B., and Salmon, P., 2000. Fundamental concepts of model-driven system design. INCOSE Model-Driven

System Design Interest Group, 16, pp.15-16.

Xu, Z. und Sun, J., 2018. Modelllgetriebenes Deep-Learning. National Science Review, 5(1), S. 22-24.

Tarsha-Kurdi, F., Landes, T., Grussenmeyer, P. and Koehl, M., September 2007. Models and data-driven approaches using lidar data:

analysis and comparison of ISPRS workshop, Image analysis by photogrammetry (PIA07) (pp. 87-92).

Dreiling, A., Rosemann, M., van der Aalst, W.M., Sadiq, W. and Khan, S., 2005. Model- driven process configuration for enterprise systems. Wirtschaftsinformatik 2005 (pp.

-706). Physik, Heidelberg.

Fleurey, F., Breton, E., Baudry, B., Nicolas, A. and Jézéquel, J.M., 2007, September. Model- driven engineering for software migration in a

large industrial context. In International Conference on Model Driven Engineering Languages and Systems (pp. 482-497). Springer, Berlin, Heidelberg.