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1. Identifying drivers of breast cancer metastasis in progressively invasive subpopulations of zebrafish-xenografted MDA-MB-231

Author

Jerry Xiao, Joseph R. McGill, Apsra Nasir, Alexander Lekan, Bailey Johnson, Devan J. Wilkins, Gray W. Pearson, Kandice Tanner, Hani Goodarzi, Eric Glasgow, Richard Schlegel, and Seema Agarwal

Subjects
Zebrafish, Breast cancer, Zebrafish xenograft, Metastasis, Invasion, Medicine
Abstract

Abstract Cancer metastasis is the primary cause of the high mortality rate among human cancers. Efforts to identify therapeutic agents targeting cancer metastasis frequently fail to demonstrate efficacy in clinical trials despite strong preclinical evidence. Until recently, most preclinical studies used mouse models to evaluate anti-metastatic agents. Mouse models are time-consuming and expensive. In addition, an important drawback is that mouse models inadequately model the early stages of metastasis which plausibly leads to the poor correlation with clinical outcomes. Here, we report an in vivo model based on xenografted zebrafish embryos where we select for progressively invasive subpopulations of MDA-MB-231 breast cancer cells. A subpopulation analogous to circulating tumor cells found in human cancers was selected by injection of MDA-MB-231 cells into the yolk sacs of 2 days post-fertilized zebrafish embryos and selecting cells that migrated to the tail. The selected subpopulation derived from MDA-MB-231 cells were increasingly invasive in zebrafish. Isolation of these subpopulations and propagation in vitro revealed morphological changes consistent with activation of an epithelial-mesenchymal transition program. Differential gene analysis and knockdown of genes identified gene-candidates (DDIT4, MT1X, CTSD, and SERPINE1) as potential targets for anti-metastasis therapeutics. Furthermore, RNA-splicing analysis reinforced the importance of BIRC5 splice variants in breast cancer metastasis. This is the first report using zebrafish to isolate and expand progressively invasive populations of human cancer cells. The model has potential applications in understanding the metastatic process, identification and/or development of therapeutics that specifically target metastatic cells and formulating personalized treatment strategies for individual cancer patients.

Published
2022
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2. Parameter Dependent Chen--Fliess Series and Their Nonrecursive Interconnections

Author

Gray, W. Steven and Pham, Natalie

Subjects
Electrical Engineering and Systems Science - Systems and Control, 41A58, 93C10, 35C10
Abstract

A class of parameter dependent Chen--Fliess series is introduced where the series coefficients are taken from a noncommutative ring of multivariable differential operators. Such series are shown in the linear case to represent formal solutions to Cauchy initial value problems for nonhomogeneous PDEs and thus are useful for characterizing the input-output maps of distributed control systems. It is also shown that this class of functional series is almost closed under the set of nonrecursive interconnections, that is, any finite combination of parallel and series interconnections without a closed-loop. Some sufficient conditions are needed for the series interconnection. Specific examples are given involving the transport equation and the wave equation.

Published
2024

3. Numerical Modeling of Galactic Superwinds with Time-evolving Stellar Feedback

Author

Danehkar, A., Oey, M. S., and Gray, W. J.

Subjects
Astrophysics - Astrophysics of Galaxies
Abstract

Mass-loss and radiation feedback from evolving massive stars produce galactic-scale superwinds, sometimes surrounded by pressure-driven bubbles. Using the time-dependent stellar population typically seen in star-forming regions, we conduct hydrodynamic simulations of a starburst-driven superwind model coupled with radiative efficiency rates to investigate the formation of radiative cooling superwinds and bubbles. Our numerical simulations depict the parameter space where radiative cooling superwinds with or without bubbles occur. Moreover, we employ the physical properties and time-dependent ionization states to predict emission line profiles under the assumption of collisional ionization and non-equilibrium ionization caused by wind thermal feedback in addition to photoionization created by the radiation background. We see the dependence of non-equilibrium ionization structures on the time-evolving ionizing source, leading to a deviation from collisional ionization in radiative cooling wind regions over time., Comment: 6 pages, 2 figures, talk presented at the IAU Symposium 370 "Winds of Stars and Exoplanets", Busan, Korea, August 2022

Published
2024
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4. On the Post-Lie Structure in SISO Affine Feedback Control Systems

Author

Ebrahimi-Fard, Kurusch, Gray, W. Steven, and S., Venkatesh G.

Subjects
Mathematics - Optimization and Control
Abstract

The main objective of this work is to show that the single-input, single-output (SISO) affine feedback group, a transformation group in the context of the affine feedback interconnection of Chen-Fliess series, is a post-group in the sense of Bai, Guo, Sheng and Tang.

Published
2023

5. miR614 Expression Enhances Breast Cancer Cell Motility

Author

Tuyen T. Dang, Alec T. McIntosh, Julio C. Morales, and Gray W. Pearson

Subjects
miR614, TAPT1, Miro1, Biology (General), QH301-705.5, Chemistry, QD1-999
Abstract

Using a data driven analysis of a high-content screen, we have uncovered new regulators of epithelial-to-mesenchymal transition (EMT) induced cell migration. Our results suggest that increased expression of miR614 can alter cell intrinsic gene expression to enhance single cell and collective migration in multiple contexts. Interestingly, miR614 specifically increased the expression of the EMT transcription factor Slug while not altering existing epithelial character or inducing other canonical EMT regulatory factors. Analysis of two different cell lines identified a set of genes whose expression is altered by the miR614 through direct and indirect mechanisms. Prioritization driven by functional testing of 25 of the miR614 suppressed genes uncovered the mitochondrial small GTPase Miro1 and the transmembrane protein TAPT1 as miR614 suppressed genes that inhibit migration. Notably, the suppression of either Miro1 or TAPT1 was sufficient to increase Slug expression and the rate of cell migration. Importantly, reduced TAPT1 expression correlated with an increased risk of relapse in breast cancer patients. Together, our results reveal how increased miR614 expression and the suppression of TAPT1 and Miro1 modulate the EMT state and migratory properties of breast cancer cells.

Published
2020
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6. Decompositions of Nonlinear Input-Output Systems to Zero the Output

Author

Gray, W. Steven, Ebrahimi-Fard, Kurusch, and Schmeding, Alexander

Subjects
Electrical Engineering and Systems Science - Systems and Control, Mathematics - Combinatorics, 93C10 (Primary), 68R15 (Secondary)
Abstract

Consider an input-output system where the output is the tracking error given some desired reference signal. It is natural to consider under what conditions the problem has an exact solution, that is, the tracking error is exactly the zero function. If the system has a well defined relative degree and the zero function is in the range of the input-output map, then it is well known that the system is locally left invertible, and thus, the problem has a unique exact solution. A system will fail to have relative degree when more than one exact solution exists. The general goal of this paper is to describe a decomposition of an input-output system having a Chen-Fliess series representation into a parallel product of subsystems in order to identify possible solutions to the problem of zeroing the output. For computational purposes, the focus is on systems whose generating series are polynomials. It is shown that the shuffle algebra on the set of generating polynomials is a unique factorization domain so that any polynomial can be uniquely factored modulo a permutation into its irreducible elements for the purpose of identifying the subsystems in a parallel product decomposition. This is achieved using the fact that this shuffle algebra is isomorphic to the symmetric algebra over the vector space spanned by Lyndon words. A specific algorithm for factoring generating polynomials into its irreducible factors is presented based on the Chen-Fox-Lyndon factorization of words., Comment: Final version with revised title and abstract

Published
2023
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8. Hydrodynamic Simulations and Time-dependent Photoionization Modeling of Starburst-driven Superwinds

Author

Danehkar, A., Oey, M. S., and Gray, W. J.

Subjects
Astrophysics - Astrophysics of Galaxies
Abstract

Thermal energies deposited by OB stellar clusters in starburst galaxies lead to the formation of galactic superwinds. Multi-wavelength observations of starburst-driven superwinds pointed at complex thermal and ionization structures which cannot adequately be explained by simple adiabatic assumptions. In this study, we perform hydrodynamic simulations of a fluid model coupled to radiative cooling functions, and generate time-dependent non-equilibrium photoionization models to predict physical conditions and ionization structures of superwinds using the MAIHEM atomic and cooling package built on the program FLASH. Time-dependent ionization states and physical conditions produced by our simulations are used to calculate the emission lines of superwinds for various parameters, which allow us to explore implications of non-equilibrium ionization for starburst regions with potential radiative cooling., Comment: 6 pages, 2 figures, talk presented at the IAU Symposium 362 "Predictive Power of Computational Astrophysics as a Discovery Tool", November 2021

Published
2023
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10. Catastrophic Cooling in Superwinds. III. Non-equilibrium Photoionization

Author

Danehkar, A., Oey, M. S., and Gray, W. J.

Subjects
Astrophysics - Astrophysics of Galaxies
Abstract

Observations of some starburst-driven galactic superwinds suggest that strong radiative cooling could play a key role in the nature of feedback and the formation of stars and molecular gas in star-forming galaxies. These catastrophically cooling superwinds are not adequately described by adiabatic fluid models, but they can be reproduced by incorporating non-equilibrium radiative cooling functions into the fluid model. In this work, we have employed the atomic and cooling module MAIHEM implemented in the framework of the FLASH hydrodynamics code to simulate the formation of radiatively cooling superwinds as well as their corresponding non-equilibrium ionization (NEI) states for various outflow parameters, gas metallicities, and ambient densities. We employ the photoionization program CLOUDY to predict radiation- and density-bounded photoionization for these radiatively cooling superwinds, and we predict UV and optical line emission. Our non-equilibrium photoionization models built with the NEI states demonstrate the enhancement of C IV, especially in metal-rich, catastrophically cooling outflows, and O VI in metal-poor ones., Comment: 12 pages, 7 figures (inc. 1 interactive fig), 1 Table (MRT), accepted by ApJ, supplementary data (interactive figure, machine readable table) available on https://galacticwinds.github.io/superwinds/ and archived on https://doi.org/10.5281/zenodo.6601127

Published
2022
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12. Entropy of Generating Series for Nonlinear Input-Output Systems and Their Interconnections

Author

Gray, W. Steven

Subjects
Electrical Engineering and Systems Science - Systems and Control, 68R15, 94A17, 93C10, 16T30
Abstract

This paper has two main objectives. The first is to introduce a notion of entropy that is well suited for the analysis of nonlinear input-output systems that have a Chen-Fliess series representation. The latter is defined in terms of its generating series over a noncommutative alphabet. The idea is to assign an entropy to a generating series as an element of a graded vector space. The second objective is to describe the entropy of generating series originating from interconnected systems of Chen-Fliess series that arise in the context of control theory. It is shown that one set of interconnections can never increase entropy as defined here, while a second set has the potential to do so. The paper concludes with a brief introduction to an entropy ultrametric space and some open questions.

Published
2022
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13. Non-equilibrium Photoionization and Hydrodynamic Simulations of Starburst-driven Outflows

Author

Danehkar, A., Oey, M. S., and Gray, W. J.

Subjects
Astrophysics - Astrophysics of Galaxies
Abstract

Starburst-driven galactic outflows in star-forming galaxies have been observed to contain complex thermal structures and emission line features that are difficult to explain by adiabatic fluid models and plasmas in photoionization equilibrium (PIE) and collisional ionization equilibrium (CIE). We previously performed hydrodynamic simulations of starburst-driven outflows using the MAIHEM module for non-equilibrium atomic chemistry and radiative cooling functions in the hydrodynamics code FLASH, and calculated emission lines in combined CIE and PIE conditions. In the present study, we consider time-dependent non-equilibrium ionization (NEI) states produced by our MAIHEM simulations. Through extensive CLOUDY calculations made with the NEI states from our hydrodynamic simulations, we predict the UV and optical emission line profiles for starburst-driven outflows in time-evolving non-equilibrium photoionization conditions. Our hydrodynamic results demonstrate applications of non-equilibrium radiative cooling for H II regions in starburst galaxies hosting cool outflows., Comment: 9 pages, 5 figures, 4th Virtual Workshop on Numerical Modeling in MHD and Plasma Physics (MHD-PP), October 2021

Published
2021
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14. Formal Power Series Approach to Nonlinear Systems with Additive Static Feedback

Author

Venkatesh, G. S. and Gray, W. Steven

Subjects
Electrical Engineering and Systems Science - Systems and Control
Abstract

The goal of this paper is to compute the generating series of a closed-loop system when the plant is described in terms of a Chen-Fliess series and an additive static output feedback is applied. The first step is to consider the so called Wiener-Fliess connection consisting of a Chen-Fliess series followed by a memoryless function. Of particular importance will be the contractive nature of this map, which is needed to show that the closed-loop system has a Chen-Fliess series representation. To explicitly compute the generating series, two Hopf algebras are needed, the existing output feedback Hopf algebra used to describe dynamic output feedback, and the Hopf algebra of the shuffle group. These two combinatorial structures are combined to compute what will be called the Wiener-Fliess feedback product. It will be shown that this product has a natural interpretation as a transformation group acting on the plant and preserves the relative degree of the plant. The convergence of the Wiener-Fliess composition product and the additive static feedback product are completely characterized., Comment: Submitted to International Journal of Control

Published
2021

15. Continuity of Formal Power Series Products in Nonlinear Control Theory

Author

Gray, W. Steven, Palmstrøm, Mathias, and Schmeding, Alexander

Subjects
Control theory -- Research, Nonlinear theories -- Research, Transformations (Mathematics) -- Usage, Power series -- Usage, Mathematics
Abstract

Formal power series products appear in nonlinear control theory when systems modeled by Chen-Fliess series are interconnected to form new systems. In fields like adaptive control and learning systems, the coefficients of these formal power series are estimated sequentially with real-time data. The main goal is to prove the continuity and analyticity of such products with respect to several natural (locally convex) topologies on spaces of locally convergent formal power series in order to establish foundational properties behind these technologies. In addition, it is shown that a transformation group central to describing the output feedback connection is in fact an analytic Lie group in this setting with certain regularity properties., Author(s): W. Steven Gray [sup.1] , Mathias Palmstrøm [sup.2] , Alexander Schmeding [sup.3] Author Affiliations: (1) grid.261368.8, 0000 0001 2164 3177, Old Dominion University, , 23529, Norfolk, VA, USA (2) [...]

Published
2023
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18. Additive Networks of Chen-Fliess Series: Local Convergence and Relative Degree

Author

Gray, W. Steven, Espinosa, Luis A. Duffaut, and Ebrahimi-Fard, Kurusch

Subjects
Electrical Engineering and Systems Science - Systems and Control, 93C10
Abstract

Given an additive network of input-output systems where each node of the network is modeled by a locally convergent Chen-Fliess series, two basic properties of the network are established. First, it is shown that every input-output map between a given pair of nodes has a locally convergent Chen-Fliess series representation. Second, sufficient conditions are given under which the input-output map between a pair of nodes has a well defined relative degree as defined by its generating series. This analysis leads to the conclusion that this relative degree property is generic in a certain sense.

Published
2021

19. Continuity of Formal Power Series Products in Nonlinear Control Theory

Author

Gray, W. Steven, Palmstrøm, Mathias, and Schmeding, Alexander

Subjects
Mathematics - Optimization and Control, Mathematics - Functional Analysis, 93C10 (primary), 46A04, 46A13, 47N70, 22E65, 46B45, 16T30
Abstract

Formal power series products appear in nonlinear control theory when systems modeled by Chen-Fliess series are interconnected to form new systems. In fields like adaptive control and learning systems, the coefficients of these formal power series are estimated sequentially with real-time data. The main goal of the present article is to prove the continuity and analyticity of such products with respect to several natural (locally convex) topologies on spaces of locally convergent formal power series in order to establish foundational properties behind these technologies. In addition, it is shown that a transformation group central to describing the output feedback connection is in fact an analytic Lie group in this setting with certain regularity properties., Comment: 26 pages, 1 figure

Published
2021
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24. Generating Series for Networks of Chen-Fliess Series

Author

Gray, W. Steven and Ebrahimi-Fard, Kurusch

Subjects
Electrical Engineering and Systems Science - Systems and Control, Mathematics - Optimization and Control, 93C10 (Primary) 22E70 (Secondary)
Abstract

Consider a set of single-input, single-output nonlinear systems whose input-output maps are described only in terms of convergent Chen-Fliess series without any assumption that finite dimensional state space models are available. It is shown that any additive or multiplicative interconnection of such systems always has a Chen-Fliess series representation that can be computed explicitly in terms of iterated formal Lie derivatives., Comment: Added and updated references, fixed typos

Published
2020
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25. Continuity of Chen-Fliess Series for Applications in System Identification and Machine Learning

Author

Dahmen, Rafael, Gray, W. Steven, and Schmeding, Alexander

Subjects
Mathematics - Optimization and Control, Mathematics - Functional Analysis, 93C10 (primary), 46A04, 46A13, 47N70, 68T07, 46N99
Abstract

Model continuity plays an important role in applications like system identification, adaptive control, and machine learning. This paper provides sufficient conditions under which input-output systems represented by locally convergent Chen-Fliess series are jointly continuous with respect to their generating series and as operators mapping a ball in an $L_p$-space to a ball in an $L_q$-space, where $p$ and $q$ are conjugate exponents. The starting point is to introduce a class of topological vector spaces known as Silva spaces to frame the problem and then to employ the concept of a direct limit to describe convergence. The proof of the main continuity result combines elements of proofs for other forms of continuity appearing in the literature to produce the desired conclusion., Comment: 17 pages, 1 figure, 24th International Symposium on Mathematical Theory of Networks and Systems, (MTNS 2020)

Published
2020
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26. Combining Learning and Model Based Control via Discrete-Time Chen-Fliess Series

Author

Gray, W. Steven, Venkatesh, G. S., and Espinosa, Luis A. Duffaut

Subjects
Electrical Engineering and Systems Science - Systems and Control
Abstract

A learning control system is presented suitable for control affine nonlinear plants based on discrete-time Chen-Fliess series and capable of incorporating knowledge of a given physical model. The underlying noncommutative algebraic and combinatorial structures needed to realize the multivariable case are also described. The method is demonstrated using a two-input, two-output Lotka-Volterra system., Comment: Fixed typos, updated references

Published
2019

28. Combinatorial Hopf algebra for interconnected nonlinear systems

Author

Espinosa, Luis A. Duffaut, Ebrahimi-Fard, Kurusch, and Gray, W. Steven

Subjects
Mathematics - Optimization and Control, Mathematics - Combinatorics
Abstract

A detailed expose of the Hopf algebra approach to interconnected input-output systems in nonlinear control theory is presented. The focus is on input-output systems that can been represented in terms of Chen-Fliess functional expansions or Fliess operators. This provides a starting point for a discrete-time version of this theory. In particular, the notion of a discrete-time Fliess operator is given and a class of parallel interconnections is described., Comment: 43 pages, review article

Published
2018
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33. The Faa di Bruno Hopf algebra for multivariable feedback recursions in the center problem for higher order Abel equations

Author

Ebrahimi-Fard, Kurusch and Gray, W. Steven

Subjects
Mathematics - Classical Analysis and ODEs, 34C07, 34C25, 16T05, 16T30
Abstract

Poincare's center problem asks for conditions under which a planar polynomial system of ordinary differential equations has a center. It is well understood that the Abel equation naturally describes the problem in a convenient coordinate system. In 1989, Devlin described an algebraic approach for constructing sufficient conditions for a center using a linear recursion for the generating series of the solution to the Abel equation. Subsequent work by the authors linked this recursion to feedback structures in control theory and combinatorial Hopf algebras, but only for the lowest degree case. The present work introduces what turns out to be the nontrivial multivariable generalization of this connection between the center problem, feedback control, and combinatorial Hopf algebras. Once the picture is completed, it is possible to provide generalizations of some known identities involving the Abel generating series. A linear recursion for the antipode of this new Hopf algebra is also developed using coderivations. Finally, the results are used to further explore what is called the composition condition for the center problem., Comment: final version

Published
2017
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36. Collision Avoidance for Bi-Steerable Car Using Analytic Left Inversion

Author

Espinosa, Luis A. Duffaut and Gray, W. Steven

Subjects
Mathematics - Optimization and Control
Abstract

A case study is presented of a collision avoidance system that directly integrates the kinematics of a bi-steerable car with a suitable path planning algorithm. The first step is to identify a path using the method of rapidly exploring random trees, and then a spline approximation is computed. The second step is to solve the output tracking problem by explicitly computing the left inverse of the kinematics of the system to render the Taylor series of the desired input for each polynomial section of the spline approximation. The method is demonstrated by numerical simulation.

Published
2016

37. Evaluating Generating Functions for Periodic Multiple Polylogarithms

Author

Ebrahimi-Fard, Kurusch, Gray, W. Steven, and Manchon, Dominique

Subjects
Mathematics - Number Theory
Abstract

The goal of the paper is to give a systematic way to numerically evaluate the generating function of a periodic multiple polylogarithm using a Chen-Fliess series with a rational generating series. The idea is to realize the corresponding Chen-Fliess series as a bilinear dynamical system. A standard form for such a realization is given. The method is also generalized to the case where the multiple polylogarithm has non-periodic components. This allows one, for instance, to numerically validate the Hoffman conjecture. Finally, a setting in terms of dendriform algebras is provided.

Published
2016
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41. Discrete-Time Approximations of Fliess Operators

Author

Gray, W. Steven, Espinosa, Luis A. Duffaut, and Ebrahimi-Fard, Kurusch

Subjects
Mathematics - Optimization and Control, Mathematics - Numerical Analysis, 65L70, 93B40
Abstract

A convenient way to represent a nonlinear input-output system in control theory is via a Chen-Fliess functional expansion or Fliess operator. The general goal of this paper is to describe how to approximate Fliess operators with iterated sums and to provide accurate error estimates for two different scenarios, one where the series coefficients are growing at a local convergence rate, and the other where they are growing at a global convergence rate. In each case, it is shown that the error estimates are achievable in the sense that worst case inputs can be identified which hit the error bound. The paper then focuses on the special case where the operators are rational, i.e., they have rational generating series. It is shown in this situation that the iterated sum approximation can be realized by a discrete-time state space model which is a rational function of the input and state affine. In addition, this model comes from a specific discretization of the bilinear realization of the rational Fliess operator.

Published
2015
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42. Center problem, Abel equation and the Faa di Bruno Hopf algebra for output feedback

Author

Ebrahimi-Fard, Kurusch and Gray, W. Steven

Subjects
Mathematics - Rings and Algebras, Mathematics - Combinatorics
Abstract

A combinatorial interpretation is given of Devlin's word problem underlying the classical center-focus problem of Poincare for non-autonomous differential equations. It turns out that the canonical polynomials of Devlin are from the point of view of connected graded Hopf algebras intimately related to the graded components of a Hopf algebra antipode applied to the formal power series of Ferfera. The link is made by passing through control theory since the Abel equation, which describes a center, is equivalent to an output feedback equation, and the Hopf algebra of output feedback is derived from the composition of iterated integrals rather than just the products of iterated integrals, which yields the shuffle algebra. This means that the primary algebraic structure at play in Devlin's approach is actually not the shuffle algebra, but a Faa di Bruno type Hopf algebra, which is defined in terms of the shuffle product but is a distinct algebraic structure., Comment: updated version

Published
2015
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46. SISO Output Affine Feedback Transformation Group and Its Faa di Bruno Hopf Algebra

Author

Gray, W. Steven and Ebrahimi-Fard, Kurusch

Subjects
Mathematics - Optimization and Control, Mathematics - Combinatorics
Abstract

The general goal of this paper is to identify a transformation group that can be used to describe a class of feedback interconnections involving subsystems which are modeled solely in terms of Chen-Fliess functional expansions or Fliess operators and are independent of the existence of any state space models. This interconnection, called an output affine feedback connection, is distinguished from conventional output feedback by the presence of a multiplier in an outer loop. Once this transformation group is established, three basic questions are addressed. How can this transformation group be used to provide an explicit Fliess operator representation of such a closed-loop system? Is it possible to use this feedback scheme to do system inversion purely in an input-output setting? In particular, can feedback input-output linearization be posed and solved entirely in this framework, i.e., without the need for any state space realization? Lastly, what can be said about feedback invariants under this transformation group? A final objective of the paper is to describe the Lie algebra of infinitesimal characters associated with the group in terms of a pre-Lie product., Comment: revised manuscript; title and abstract changed; new material added

Published
2014
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48. Dendriform-Tree Setting for Fully Non-commutative Fliess Operators

Author

Espinosa, Luis A. Duffaut, Gray, W. Steven, and Ebrahimi-Fard, Kurusch

Subjects
Mathematics - Combinatorics
Abstract

This paper provides a dendriform-tree setting for Fliess operators with matrix-valued inputs. This class of analytic nonlinear input-output systems is convenient, for example, in quantum control. In particular, a description of such Fliess operators is provided using planar binary trees. Sufficient conditions for convergence of the defining series are also given.

Published
2014
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49. Faa di Bruno Hopf Algebra of the Output Feedback Group for Multivariable Fliess Operators

Author

Gray, W. Steven, Espinosa, Luis A. Duffaut, and Ebrahimi-Fard, Kurusch

Subjects
Mathematics - Optimization and Control, 93C10, 16T05, 97N80
Abstract

Given two nonlinear input-output systems written in terms of Chen-Fliess functional expansions, it is known that the feedback interconnected system is always well defined and in the same class. An explicit formula for the generating series of a single-input, single-output closed-loop system was provided by the first two authors in earlier work via Hopf algebra methods. This paper is a sequel. It has four main innovations. First, the full multivariable extension of the theory is presented. Next, a major simplification of the basic set up is introduced using a new type of grading that has recently appeared in the literature. This grading also facilitates a fully recursive algorithm to compute the antipode of the Hopf algebra of the output feedback group, and thus, the corresponding feedback product can be computed much more efficiently. The final innovation is an improved convergence analysis of the antipode operation, namely, the radius of convergence of the antipode is computed., Comment: background material expanded and reorganized, a few typos fixed

Published
2014
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50. A combinatorial Hopf algebra for nonlinear output feedback control systems

Author

Espinosa, Luis A. Duffaut, Ebrahimi-Fard, Kurusch, and Gray, W. Steven

Subjects
Mathematics - Combinatorics, Mathematics - Rings and Algebras, 05E15, 17D25
Abstract

In this work a combinatorial description is provided of a Faa di Bruno type Hopf algebra which naturally appears in the context of Fliess operators in nonlinear feedback control theory. It is a connected graded commutative and non-cocommutative Hopf algebra defined on rooted circle trees. A cancellation free forest formula for its antipode is given., Comment: revised and updated

Published
2014
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