@article{eprints1835,
            note = {Published online: 04 Dec 2013},
          author = {Matteo Rubagotti and Tomaso Poggi and Albert Oliveri and Carlo A. Pascucci and Alberto Bemporad and Marco Storace},
         journal = {International Journal of Control },
           pages = {622--632},
          volume = {87},
       publisher = {Taylor \& Francis},
           title = {Low-complexity piecewise-affine virtual sensors: theory and design},
            year = {2014},
          number = {3},
             url = {http://eprints.imtlucca.it/1835/},
        abstract = {This paper is focused on the theoretical development and the hardware implementation of low-complexity piecewise-affine direct virtual sensors for the estimation of unmeasured variables of interest of nonlinear systems. The direct virtual sensor is designed directly from measured inputs and outputs of the system and does not require a dynamical model. The proposed approach allows one to design estimators which mitigate the effect of the so-called ?curse of dimensionality? of simplicial piecewise-affine functions, and can be therefore applied to relatively high-order systems, enjoying convergence and optimality properties. An automatic toolchain is also presented to generate the VHDL code describing the digital circuit implementing the virtual sensor, starting from the set of measured input and output data. The proposed methodology is applied to generate an FPGA implementation of the virtual sensor for the estimation of vehicle lateral velocity, using a hardware-in-the-loop setting.},
        keywords = {Piecewise-affine functions, Nonlinear observers, Digital circuits}
}