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ORCIDDaniel Y. Abramovitch
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2020 – today
- 2023
[j4]Daniel Y. Abramovitch
:
Retaining Physical Understanding Through Discretization. IEEE Control. Syst. Lett. 7: 3902-3907 (2023)- [c33]Daniel Y. Abramovitch, Sean B. Andersson, Kam K. Leang, William S. Nagel, Shalom D. Ruben:
A Tutorial on Real-Time Computing Issues for Control Systems. ACC 2023: 3751-3768 - 2022
- [c32]Tariq Samad, Daniel Y. Abramovitch, Michael Lees, Iven Mareels, R. Russell Rhinehart, Francesco Cuzzola, Benny Grosman, Oleg Gusikhin, Esko Juuso, Bhagyesh V. Patil, Stefan Pickl:
Managerial Decision Making as an Application for Control Science and Engineering. ACC 2022: 3071-3081 - [c31]Daniel Y. Abramovitch:
Using Feedback Control Principles as Guiding Metaphors for Business Processes. ACC 2022: 3088-3093 - 2021
- [c30]Daniel Y. Abramovitch:
Determining Kalman Filter Input Noises Using PES Pareto. ACC 2021: 4302-4308 - 2020
- [c29]Daniel Y. Abramovitch:
Improved Peak Detection for Mass Spectrometry via Augmented Dominant Peak Removal. ACC 2020: 5008-5015 - [c28]Daniel Y. Abramovitch:
A Tutorial on PES Pareto Methods for Analysis of Noise Propagation in Feedback Loops. CCTA 2020: 456-473 - [c27]Daniel Y. Abramovitch:
The Demod Squad: A Tutorial on the Utility and Methodologies for Using Modulated Signals in Feedback Loops. CCTA 2020: 474-491
2010 – 2019
- 2019
- [c26]Daniel Y. Abramovitch:
A Comparison of the δ Parameterization and the τ Parameterization. ACC 2019: 2470-2476 - 2018
- [c25]Daniel Y. Abramovitch:
A Comparison of Δ Coefficients and the δ Parameterization, Part II: Signal Growth. ACC 2018: 5231-5237 - [c24]Daniel Y. Abramovitch:
Adding Rigid Body Modes and low pass Filters to the Biquad State Space and Multinotch. ACC 2018: 6024-6030 - 2017
- [c23]Daniel Y. Abramovitch:
A comparison of Δ coefficients and the δ parameterization, part I: Coefficient accuracy. ACC 2017: 2882-2887 - 2015
- [c22]Daniel Y. Abramovitch:
Built-in stepped-sine measurements for digital control systems. CCA 2015: 145-150 - [c21]Daniel Y. Abramovitch:
Trying to keep it real: 25 Years of trying to get the stuff I learned in grad school to work on mechatronic systems. CCA 2015: 223-250 - [c20]Daniel Y. Abramovitch, George Hsu:
Mitigating rotational disturbances on a disk drive with mismatched linear accelerometers. CCA 2015: 1473-1478 - [c19]Daniel Y. Abramovitch:
A unified framework for analog and digital PID controllers. CCA 2015: 1492-1497 - [c18]Daniel Y. Abramovitch:
The multinotch, part I: A low latency, high numerical fidelity filter for mechatronic control systems. ACC 2015: 2161-2166 - [c17]Daniel Y. Abramovitch:
The discrete time Biquad State Space structure: Low latency with high numerical fidelity. ACC 2015: 2813-2818 - [c16]Daniel Y. Abramovitch:
The multinotch, part II: Extra precision via Δ coefficients. ACC 2015: 4137-4142 - [c15]Daniel Y. Abramovitch:
The continuous time biquad state space structure. ACC 2015: 4168-4173 - 2013
- [c14]Russell Loughridge, Daniel Y. Abramovitch:
A tutorial on laser interferometry for precision measurements. ACC 2013: 3686-3703 - [c13]Eric Johnstone, Daniel Y. Abramovitch:
Quintessential phase: A method of mitigating turbulence effects in interferometer measurements of precision motion. ACC 2013: 3717-3722 - 2012
- [j3]Jeffrey A. Butterworth, Lucy Y. Pao, Daniel Y. Abramovitch:
A Discrete-Time Single-Parameter Combined Feedforward/Feedback Adaptive-Delay Algorithm With Applications to Piezo-Based Raster Tracking. IEEE Trans. Control. Syst. Technol. 20(2): 416-423 (2012) - 2011
- [c12]Jeffrey A. Butterworth, Lucy Y. Pao, Daniel Y. Abramovitch:
Dual-adaptive feedforward control for raster tracking with applications to AFMs. CCA 2011: 1081-1087 - [c11]Daniel Y. Abramovitch:
Low latency demodulation for Atomic Force Microscopes, Part I efficient real-time integration. ACC 2011: 2252-2257 - [c10]Jeffrey A. Butterworth, Lucy Y. Pao, Daniel Y. Abramovitch:
A comparison of ILC architectures for nanopositioners with applications to AFM raster tracking. ACC 2011: 2266-2271 - 2010
- [c9]Jeffrey A. Butterworth, Lucy Y. Pao, Daniel Y. Abramovitch:
Adaptive-delay combined feedforward/feedback control for raster tracking with applications to AFMs. ACC 2010: 5738-5744
2000 – 2009
- 2009
- [c8]Daniel Y. Abramovitch:
A tale of three actuators: How mechanics, business models and position sensing affect different mechatronic servo problems. ACC 2009: 3357-3371 - 2008
- [c7]Daniel Y. Abramovitch, Storrs Hoen, Richard Workman:
Semi-automatic tuning of PID gains for Atomic Force Microscopes. ACC 2008: 2684-2689 - [c6]Jeffrey A. Butterworth, Lucy Y. Pao, Daniel Y. Abramovitch:
The effect of nonminimum-phase zero locations on the performance of feedforward model-inverse control techniques in discrete-time systems. ACC 2008: 2696-2702 - [c5]Daniel Y. Abramovitch:
Efficient and flexible simulation of phase locked loops, part I: Simulator design. ACC 2008: 4672-4677 - [c4]Daniel Y. Abramovitch:
Efficient and flexible simulation of phase locked loops, part II: Post processing and a design example. ACC 2008: 4678-4683 - 2007
- [c3]Daniel Y. Abramovitch, Sean B. Andersson, Lucy Y. Pao, Georg Schitter:
A Tutorial on the Mechanisms, Dynamics, and Control of Atomic Force Microscopes. ACC 2007: 3488-3502 - [c2]Lucy Y. Pao, Jeffrey A. Butterworth, Daniel Y. Abramovitch:
Combined Feedforward/Feedback Control of Atomic Force Microscopes. ACC 2007: 3509-3515 - [c1]Sean B. Andersson, Daniel Y. Abramovitch:
A Survey of Non-Raster Scan Methods with Application to Atomic Force Microscopy. ACC 2007: 3516-3521
1990 – 1999
- 1998
- [j2]Daniel Y. Abramovitch, Takashi Yamaguchi, Maarten Steinbuch:
Discussion on: 'Advanced Motion Control: An Industrial Perspective' by M. Steinbuch and M. L. Norg. Eur. J. Control 4(4): 294-297 (1998) - 1990
- [j1]Daniel Y. Abramovitch:
Lyapunov redesign of analog phase-lock loops. IEEE Trans. Commun. 38(12): 2197-2202 (1990)
Coauthor Index
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