Parametric model for microwave filter by using multiple hidden layer output matrix extreme learning machine

Wu, Shaoen; Cao, Weihua

doi:10.1049/iet-map.2018.5823

Cited by 8 publications

(2 citation statements)

References 24 publications

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“…Similarly, Zhou et al exploited Support Vector Regression (SVR) to construct metamodels between screw rotations and coupling matrix change [6,14]; the screw rotations are not measured but obtained from two optimization procedures, and the calculation of coupling matrix also brings uncertainties. Furthermore, fuzzy logic control [7,15], neural-fuzzy control [16], Extreme Learning Machine (ELM) [17], and regularized deep belief network (R-DBN) [18] have also been applied in modeling cavity filters. These data-driven methods learn models simply from pregathered data without analyzing the complex theoretical and physical characteristics of the filter product, eliminating the error produced by the difference between the ideal model and the real product.…”

Section: Automatic Cavity Filter Tuningmentioning

confidence: 99%

Learning Human Strategies for Tuning Cavity Filters with Continuous Reinforcement Learning

Wang

2022

Applied Sciences

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Learning to master human intentions and behave more humanlike is an ultimate goal for autonomous agents. To achieve that, higher requirements for intelligence are imposed. In this work, we make an effort to study the autonomous learning mechanism to solve complicated human tasks. The tuning task of cavity filters is studied, which is a common task in the communication industry. It is not only time-consuming, but also depends on the knowledge of tuning technicians. We propose an automatic tuning framework for cavity filters based on Deep Deterministic Policy Gradient and design appropriate reward functions to accelerate training. Simulation experiments are carried out to verify the applicability of the algorithm. This method can not only automatically tune the detuned filter from random starting position to meet the design requirements under certain circumstances, but also realize the transfer of learning skills to new situations, to a certain extent.

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Section: Automatic Cavity Filter Tuningmentioning

confidence: 99%

Learning Human Strategies for Tuning Cavity Filters with Continuous Reinforcement Learning

Wang

2022

Applied Sciences

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“…Compared with the back-propagation algorithm, the training and learning speed of the ELM is much faster. So far, the ELM has been successfully applied to microwave filters [28], traffic accident detection [29], air-fuel ratio control [30], and so on. However, application of the ELM technique to the formation problem of multi-agent mobile robots has not been reported.…”

Section: Introductionmentioning

confidence: 99%

Second-Order Sliding Mode Formation Control of Multiple Robots by Extreme Learning Machine

et al. 2019

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This paper addresses a second-order sliding mode control method for the formation problem of multirobot systems. The formation patterns are usually symmetrical. This sliding mode control is based on the super-twisting law. In many real-world applications, the robots suffer from a great diversity of uncertainties and disturbances that greatly challenge super-twisting sliding mode formation maneuvers. In particular, such a challenge has adverse effects on the formation performance when the uncertainties and disturbances have an unknown bound. This paper focuses on this issue and utilizes the technique of an extreme learning machine to meet this challenge. Within the leader–follower framework, this paper investigates the integration of the super-twisting sliding mode control method and the extreme learning machine. The output weights of this extreme learning machine are adaptively adjusted so that this integrated formation design has guaranteed closed-loop stability in the sense of Lyaponov. In the end, some simulations are implemented via a multirobot platform, illustrating the superiority and effectiveness of the integrated formation design in spite of uncertainties and disturbances.

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Review of State-of-the-Art Microwave Filter Tuning Techniques and Implementation of a Novel Tuning Algorithm Using Expert-Based Hybrid Learning

Sekhri,

Kapoor,

Tamre

2024

Wireless Pers Commun

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Parametric model for microwave filter by using multiple hidden layer output matrix extreme learning machine

Cited by 8 publications

References 24 publications

Learning Human Strategies for Tuning Cavity Filters with Continuous Reinforcement Learning

Learning Human Strategies for Tuning Cavity Filters with Continuous Reinforcement Learning

Second-Order Sliding Mode Formation Control of Multiple Robots by Extreme Learning Machine

Review of State-of-the-Art Microwave Filter Tuning Techniques and Implementation of a Novel Tuning Algorithm Using Expert-Based Hybrid Learning

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