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ORCIDJeffrey T. Scruggs
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- affiliation: University of Michigan, Ann Arbor,MI, USA
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Journal Articles
- 2024
[j10]Connor H. Ligeikis
, Jeffrey T. Scruggs:
On the Feasibility of Self-Powered Linear Feedback Control. IEEE Trans. Autom. Control. 69(1): 113-128 (2024)- [j9]Connor H. Ligeikis, Jeffrey T. Scruggs:
Causal, Stochastic MPC for Wave Energy Converters. IEEE Trans. Control. Syst. Technol. 32(2): 351-367 (2024) - [j8]Connor H. Ligeikis, Jeffrey T. Scruggs:
Multiobjective Vector Control of a Three-Phase Vibratory Energy Harvester. IEEE Trans. Control. Syst. Technol. 32(5): 1770-1784 (2024) - 2022
- [j7]Alyssa Kody, Jeffrey T. Scruggs:
MPC Trajectory Feasibility Constraints for Self-Powered Control Systems. IEEE Trans. Autom. Control. 67(12): 6611-6626 (2022) - [j6]Yejun Lao, Jeffrey T. Scruggs, Anantha Karthikeyan, Mirko Previsic:
Discrete-Time Causal Control of a Wave Energy Converter With Finite Stroke in Stochastic Waves. IEEE Trans. Control. Syst. Technol. 30(3): 1198-1214 (2022) - 2020
- [j5]Yejun Lao, Jeffrey T. Scruggs:
Nonlinear control of passive vibratory systems with finite actuation stroke. Autom. 118: 109013 (2020) - [j4]Jize Zhang, Alexandros A. Taflanidis, Jeffrey T. Scruggs:
Surrogate modeling of hydrodynamic forces between multiple floating bodies through a hierarchical interaction decomposition. J. Comput. Phys. 408: 109298 (2020) - [j3]Alyssa Kody, Jeffrey T. Scruggs:
Control of Impulsively Excited Vibration Energy Harvesters: Design and Viability Assessment. IEEE Trans. Control. Syst. Technol. 28(6): 2336-2351 (2020) - 2018
- [j2]Michael B. Kane, Jerome P. Lynch, Jeff T. Scruggs:
Development of a Scalable Distributed Model Predictive Control System for Hydronic Networks with Bilinear and Hybrid Dynamics. J. Comput. Civ. Eng. 32(5) (2018) - 2015
- [j1]Jeff T. Scruggs, Rudy Nie:
Disturbance-adaptive stochastic optimal control of energy harvesters, with application to ocean wave energy conversion. Annu. Rev. Control. 40: 102-115 (2015)
Conference and Workshop Papers
- 2024
- [c30]Jeffrey T. Scruggs, Richard Lee, Yafeng Yin:
Global Stabilization of Nash Equilibrium for Mixed Traffic. ACC 2024: 1480-1487 - 2023
- [c29]Jeff T. Scruggs, Connor Ligeikis:
Necessary Conditions for Feasibility of Linear, Time-Invariant Self-Powered Feedback Control Laws. ACC 2023: 2097-2104 - [c28]Connor Ligeikis, Jeff T. Scruggs:
Risk-Sensitive Control of Vibratory Energy Harvesters. CDC 2023: 2541-2548 - 2022
- [c27]Connor Ligeikis, Jeff T. Scruggs:
Discrete-Time, Performance-Guaranteed Control of Vibratory Systems with Power Directionality Constraints. ACC 2022: 4248-4255 - [c26]Connor Ligeikis, Jeff T. Scruggs:
An LQG-Inspired Framework for Self-Powered Feedback Control. CDC 2022: 4519-4526 - 2021
- [c25]Connor Ligeikis, Jeff T. Scruggs:
Nonlinear Feedback Controllers for Self-Powered Systems with Non-Ideal Energy Storage Subsystems. ACC 2021: 1748-1753 - [c24]Connor Ligeikis, Jeff T. Scruggs:
Feasibility and Synthesis of Finite-Dimensional, Linear Time-Invariant Synthetic Admittances for Self-Powered Systems. CDC 2021: 2440-2447 - 2020
- [c23]Yejun Lao, Jeffrey T. Scruggs:
Robust Control of Wave Energy Converters Using Unstructured Uncertainty. ACC 2020: 4237-4244 - 2019
- [c22]Alyssa Kody, Nathan Tom, Jeffrey T. Scruggs:
Model Predictive Control of a Wave Energy Converter Using Duality Techniques. ACC 2019: 5444-5451 - [c21]Jeffrey T. Scruggs, Yejun Lao:
A new passivity-based nonlinear causal control technique for wave energy converters with finite stroke. ACC 2019: 5472-5479 - [c20]Anantha Karthikeyan, Mirko Previsic, Jeffrey T. Scruggs, A. Chertok:
Non-linear Model Predictive Control of Wave Energy Converters with Realistic Power Take-off Configurations and Loss Model. CCTA 2019: 270-277 - [c19]Yejun Lao, Jeffrey T. Scruggs:
A Modified Technique for Spectral Factorization of Infinite-Dimensional Systems Using Subspace Techniques. CDC 2019: 5412-5419 - 2018
- [c18]Jeffrey T. Scruggs, Brenden S. Ritola:
Hybrid Control of Vibratory Networks with Semiresonant Latches. ACC 2018: 1452-1459 - [c17]Alyssa Kody, Jeffrey T. Scruggs:
Optimal self-powered control of dynamic systems: Duality techniques. ACC 2018: 2675-2680 - 2017
- [c16]Alyssa Kody, Jeffrey T. Scruggs:
Optimal packet scheduling for a piezoelectric energy harvesting node. CDC 2017: 133-138 - 2016
- [c15]Takehiko Asai, Jeffrey T. Scruggs:
Nonlinear stochastic control of self-powered variable-damping vibration control systems. ACC 2016: 442-448 - 2015
- [c14]Eric C. Warner, J. T. Scruggs:
Regeneratively-constrained LQG control of vibration networks with polytopic model uncertainty. CCA 2015: 1498-1504 - [c13]Eric C. Warner, J. T. Scruggs:
Control of vibratory networks with passive and regenerative systems. ACC 2015: 5502-5508 - 2014
- [c12]Michael B. Kane, Jeffrey T. Scruggs, Jerome P. Lynch:
Model-predictive control techniques for hydronic systems implemented on wireless sensor and actuator networks. ACC 2014: 3542-3547 - 2013
- [c11]I. L. Cassidy, Wei Song, J. T. Scruggs:
Numerical solutions to optimal power-flow-constrained vibratory energy harvesting problems. ACC 2013: 4524-4529 - 2012
- [c10]Philip S. Harvey, Jeffrey T. Scruggs, Henri P. Gavin:
A dual method for determining the performance limits of a semiactively constrained control system. ACC 2012: 1549-1554 - [c9]Q. Li, J. T. Scruggs:
Asymptotic analysis of vector ARMA identification. CDC 2012: 3457-3462 - 2011
- [c8]S. M. Lattanzio, J. T. Scruggs:
Maximum power generation of a wave energy converter in a stochastic environment. CCA 2011: 1125-1130 - [c7]J. T. Scruggs:
Peak-gain-bounded design of constrained controllable damping in vibrating structures. ACC 2011: 2522-2527 - [c6]J. T. Scruggs, Q. Li:
Passive network design for stochastic vibratory energy harvesters. CDC/ECC 2011: 3086-3091 - 2010
- [c5]J. T. Scruggs:
Multi-objective nonlinear control of semiactive and regenerative systems. ACC 2010: 726-731 - 2009
- [c4]Alexandros A. Taflanidis, Jeffrey T. Scruggs:
Probabilistically-robust performance optimization for controlled linear stochastic systems. ACC 2009: 4557-4562 - [c3]Jeffrey T. Scruggs:
Analysis and synthesis of self-powered linear structural control with imperfect energy storage. ACC 2009: 4569-4574 - 2007
- [c2]J. T. Scruggs:
Multi-objective optimization of regenerative damping systems in vibrating structures. ACC 2007: 2672-2677 - 2006
- [c1]J. T. Scruggs, Robert E. Skelton:
Regenerative Tensegrity Structures for Energy Harvesting Applications. CDC 2006: 2282-2287
Informal and Other Publications
- 2023
- [i3]Connor H. Ligeikis, Jeffrey T. Scruggs:
Causal, Stochastic MPC for Wave Energy Converters. CoRR abs/2305.04094 (2023) - 2022
- [i2]Connor H. Ligeikis, Jeffrey T. Scruggs:
On the Feasibility of Self-Powered Linear Feedback Control. CoRR abs/2212.05676 (2022) - [i1]Connor H. Ligeikis, Jeffrey T. Scruggs:
Multi-Objective Vector Control of a Three-Phase Vibratory Energy Harvester. CoRR abs/2212.05683 (2022)
Coauthor Index
aka: Connor H. Ligeikis
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