Abstract

Despite their elegant mathematical structure, entropy-based moment closures face severe implementation challenges that have limited their wide-spread use. In this talk, I will present two approximations that attempt to address some of these challenges. The first approximation relies on a regularization of the optimization problem that defines the original entropy-based closure. The main advantage of the regularization is that moment vectors need not take on traditional realizable values. However, the resulting equations still retain many important structural features, such as hyperbolicity and an entropy dissipation law. These results reveal the moment entropy as a key tool in constructing approximate closures and motivate a second approximation of the entropy-based closure that is constructed via a convex fit of the moment entropy. The two approaches can be combined, yielding an efficient strategy for implementing moment systems of moderate order.