Publications

Export 8 results:
Author Keyword [ Title(Desc)] Type Year
Filters: First Letter Of Title is F  [Clear All Filters]
A B C D E F G H I J K L M N O P Q R S T U V W X Y Z 
F
M. L. McKelvin, Jr, Sprinkle, J., Pinello, C., and Sangiovanni-Vincentelli, A., Fault Tolerant Data Flow Modeling Using the Generic Modeling Environment, in 12th Annual IEEE International Conference and Workshop on the Engineering of Computer Based Systems, 2005, pp. 229–235.
M. Laura Dell Monache, Liard, T., Rat, A., Stern, R. E., Bhadani, R., Seibold, B., Sprinkle, J., Work, D. B., and Piccoli, B., Feedback Control Algorithms for the Dissipation of Traffic Waves with Autonomous Vehicles, in Computational Intelligence and Optimization Methods for Control Engineering, M. Josée Blondin, Pardalos, P. M., and Sáez, J. Sanchis, Eds. Cham: Springer International Publishing, 2019, pp. 275–299.
J. Sprinkle, Forgetting UML (A Useful Guide to Formal Modeling), 2004.
S. Elmadani, Nice, M., Bunting, M., Sprinkle, J., and Bhadani, R., From CAN to ROS: A Monitoring and Data Recording Bridge, in The Workshop on Data-Driven and Intelligent Cyber-Physical Systems, 2021.
J. Sprinkle, Gray, J., and Mernik, M., Fundamental Limitations in Domain-Specific Language Evolution, 2009.
J. Sprinkle, Gray, J., and Mernik, M., Fundamental Limitations in Domain-Specific Language Evolution, (in preparation), vol. (tbd), p. (in preparation).
R. 'mani Haulcy, Hamilton, N., Bhadani, R., Sprinkle, J., Work, D. B., Risso, N., Piccoli, B., Monache, M. Laura Dell, and Seibold, B., A Fuzzy based approach to Dampen Emergent Traffic Waves, in CAT Vehicle Research Experience for Undergraduates, The University of Arizona, 2017.PDF icon A Fuzzy based approach to Dampen Emergent Traffic Waves.pdf (716.6 KB)
E. A. Olson, Risso, N., Johnson, A. M., and Sprinkle, J., Fuzzy Control of an Autonomous Car using a Smart Phone, in Proceedings of the 2017 IEEE International Conference on Automatica (ICA-ACCA), 2017, pp. 1–5.