Mechatronics Research Lab Publications

List still being populated due to webpage maintenance

Algorithms Biomimetic robotic fish for underwater monitoring Computational Intelligence Computer vision for autonomous vehicle sensing Control Theory Data-driven learning for intelligent machine maintanence Data-driven learning for intelligent machine maintenance Experimentation Fabrication Inspection Inspection; repair and intelligence for water distribution pipes Instrumentation Intelligent optical characterization for nano-manufacturing intelligent systems Mechatronic Design Modeling; sizing and control for smart grids Modeling; sizing and control of smart grids Modelling; sizing and control of smart grids Nanoscale video imaging for dynamic process visualization Nanotechnology Physical System Modeling Physical Systems Modeling Probabilistic neural networks for robust machine learning repair & intelligence for water distribution pipes Robot operated modular fixtures Robotics & Automation Robotics and Automation Simulation Uncertainty estimation and calibration for modeling Visualization

Show all

2015

A Muzhikyan; A M Farid; K Youcef-Toumi

An Enterprise Control Assessment Method for Variable Energy Resource-Induced Power System Imbalances—Part II: Parametric Sensitivity Analysis Journal Article

In: IEEE Transactions on Industrial Electronics, vol. 62, no. 4, pp. 2459-2467, 2015, ISSN: 1557-9948.

Abstract | Links | BibTeX | Tags: Algorithms, Control Theory, intelligent systems, Modeling, Simulation, sizing and control of smart grids

@article{MRL_AFM_Enterprise_Control_Assessment,

title = {An Enterprise Control Assessment Method for Variable Energy Resource-Induced Power System Imbalances—Part II: Parametric Sensitivity Analysis},

author = {A Muzhikyan and A M Farid and K Youcef-Toumi},

url = {https://ieeexplore.ieee.org/document/7018074?denied=},

doi = {10.1109/TIE.2015.2395380},

issn = {1557-9948},

year  = {2015},

date = {2015-01-22},

journal = {IEEE Transactions on Industrial Electronics},

volume = {62},

number = {4},

pages = {2459-2467},

publisher = {IEEE},

abstract = {In recent years, renewable energy has developed to address energy security and climate change drivers. However, as energy resources, they possess a variable and uncertain nature that significantly complicates grid balancing operations. As a result, an extensive academic and industrial literature has developed to determine how much such variable energy resources (VERs) may be integrated and how to best mitigate their impacts. While certainly insightful with the context of their application, many integration studies have methodological limitations because they are case specific, address a single control function of the power grid balancing operations, and are often not validated by simulation. The prequel to this paper presented a holistic method for the assessment of power grid imbalances induced by VERs based upon the concept of enterprise control. This paper now systematically studies these power grid imbalances in terms of five independent variables: 1) day-ahead market time step; 2) real-time market time step; 3) VER normalized variability; 4) normalized day-ahead VER forecast error; and 5) normalized short-term VER forecast error. The systematic study elucidates the impacts of these variables and provides significant insights as to how planners should address these independent variables in the future.},

keywords = {Algorithms, Control Theory, intelligent systems, Modeling, Simulation, sizing and control of smart grids},

pubstate = {published},

tppubtype = {article}

}

Youtube Channel

Director

Accessibility