%I IEEE %V 61 %N 4 %T Approximate reduction of heterogenous nonlinear models with differential hulls %R 10.1109/TAC.2015.2457172 %L eprints2730 %D 2016 %J IEEE Transactions on Automatic Control %P 1099-1104 %A Max Tschaikowski %A Mirco Tribastone %X We present a model reduction technique for a class of nonlinear ordinary differential equation (ODE) models of heterogeneous systems, where heterogeneity is expressed in terms of classes of state variables having the same dynamics structurally, but which are characterized by distinct parameters. To this end, we first build a system of differential inequalities that provides lower and upper bounds for each original state variable, but such that it is homogeneous in its parameters. Then, we use two methods for exact aggregation of ODEs to exploit this homogeneity, yielding a smaller model of size independent of the number of heterogeneous classes. We apply this technique to two case studies: a multiclass queuing network and a model of epidemics spread.