@article{trummel2023optimal,
  abstract = {This paper proposes a novel method to achieve and preserve synchronization for a set of connected heterogeneous Van der Pol oscillators. Unlike the state-of-the-art synchronization methods, in which a large coupling gain is applied to couple any pair of connected oscillators, the proposed method first casts the whole synchronization process into two phases. The first one considers the period from the beginning to the first instant of synchronization, while the second phase covers the following time in which synchronization must be preserved. It is shown that a large coupling gain is adopted for the first phase, while the averaged coupling gain to preserve the synchronization in the second phase can be reduced significantly by using an offline optimized coupling law. Efficiency and performance of this method are confirmed by a set of numerical tests with different graphs and system dynamics.},
  author = {Trummel, T. and Liu, Z. and Stursberg, O.},
  interhash = {defce06ba08637d912d3dc38b394bf1d},
  intrahash = {703b06b751b1a76901ab8df97f9b9efc},
  journal = {IFAC-PapersOnLine},
  number = {Issue 2},
  pages = {9475-9480},
  title = {On Optimal Synchronization of Diffusively Coupled Heterogeneous Van Der Pol Oscillators},
  url = {https://www.researchgate.net/publication/369592584_On_Optimal_Synchronization_of_Diffusively_Coupled_Heterogeneous_Van_der_Pol_Oscillators},
  volume = {Volume 56},
  year = 2023
}