More Like this

1. Global T operator bounds on electromagnetic scattering: Upper bounds on far-field cross sections

   https://doi.org/10.1103/PhysRevResearch.2.033172  

   Molesky, Sean ; Chao, Pengning ; Jin, Weiliang ; Rodriguez, Alejandro W. ( July 2020 , Physical Review Research)
2. Hierarchical mean-field T operator bounds on electromagnetic scattering: Upper bounds on near-field radiative Purcell enhancement

   https://doi.org/10.1103/PhysRevResearch.2.043398  

   Molesky, Sean ; Chao, Pengning ; Rodriguez, Alejandro W. ( December 2020 , Physical Review Research)
3. New Lower Bounds and Upper Bounds for Listing Avoidable Vertices

   Deng, Mingyang ; Vassilevska Williams, Virginia ; Zhong, Ziqian ( January 2022 , 47th International Symposium on Mathematical Foundations of Computer Science (MFCS 2022))
4. New Lower Bounds and Upper Bounds for Listing Avoidable Vertices

   Deng, Mingyang and ( January 2022 , 47th International Symposium on Mathematical Foundations of Computer Science (MFCS 2022))
5. Computing Optimal Upper Bounds on the H2-norm of ODE-PDE Systems using Linear Partial Inequalities

   https://doi.org/10.1016/j.ifacol.2023.10.538  

   Braghini, Danilo ; Peet, Matthew M. ( January 2023 , IFAC-PapersOnLine)

   Recently, a broad class of linear delayed and ODE-PDEs systems was shown to have an equivalent representation using Partial Integral Equations (PIEs). In this paper, we use this PIE representation, combined with algorithms for convex optimization of Partial Integral (PI) operators to bound the H2-norm for input-output systems of this class. Specifically, the methods proposed here apply to delayed and ODE-PDE systems (including delayed PDE systems) in one or two spatial variables where the disturbance does not enter through the boundary. For such systems, we define a notion of H2-norm using an initial state-to-output framework and show that this notion reduces to more traditional concepts under the assumption of existence of a strongly continuous semigroup. Next, we consider input-output systems for which there exists a PIE representation and for such systems show that computing a minimal upper bound on the H2-norm of delayed and PDE systems can be equivalently formulated as a convex optimization problem subject to linear PI operator inequalities (LPIs). We convert, then, these optimization problems to Semi-Definite Programming (SDP) problems using the PIETOOLS toolbox. Finally, we apply the results to several numerical examples – focusing on time-delay systems (TDS) for which comparable H2 approximation results are available in the literature. The numerical results demonstrate the accuracy of the computed upper bound on the H2-norm. 

   more » « less