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Award ID contains: 2003111

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  1. ; ; (, Fodors essential Norway)
    Accepted Manuscript Full Text Available
  2. ; ; (, IEEE)
    Full Text Available 
  3. ; ; (, Proceedings of the 6th Annual Learning for Dynamics & Control Conference, PMLR 242:1464-1476, 2024.)
    Accepted Manuscript Full Text Available
  4. ; ; ; (, IEEE Control Systems Letters)
    Full Text Available 
  5. ; ; ; (, IEEE Transactions on Robotics)
    Full Text Available 
  6. ; ; ; ; (, IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS))
    Full Text Available 
  7. ; ; (, Automatica)
    Full Text Available 
  8. ; ; ; (, IEEE Control Systems Letters)
    Full Text Available 
  9. (, Proceedings of the 39 th International Conference on Machine Learning)
    Single-point zeroth-order optimization (SZO) is useful in solving online black-box optimization and control problems in time-varying environments, as it queries the function value only once at each time step. However, the vanilla SZO method is known to suffer from a large estimation variance and slow convergence, which seriously limits its practical application. In this work, we borrow the idea of high-pass and low-pass filters from extremum seeking control (continuous-time version of SZO) and develop a novel SZO method called HLF-SZO by integrating these filters. It turns out that the high-pass filter coincides with the residual feedback method, and the low-pass filter can be interpreted as the momentum method. As a result, the proposed HLF-SZO achieves a much smaller variance and much faster convergence than the vanilla SZO method, and empirically outperforms the residual-feedback SZO method, which are verified via extensive numerical experiments. 
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    Accepted Manuscript Full Text Available
  10. ; ; (, 2021 60th IEEE Conference on Decision and Control (CDC))
    Full Text Available