Fellows

Nicola Ferrier

  • Computer Scientist, Mathematics and Computer Science Division (MCS), Argonne National Laboratory
    Senior Fellow, Computation Institute, the University of Chicago

  • Contact: ferrier@uchicago.edu
    630.252.1964
  • Office Location:
    Argonne National Laboratory
    Building 240
    9700 South Cass Avenue
    Argonne, IL 60439

Ferrier received a bachelor’s degree in mathematics (1984) and a master’s degree in computer science at the University of Alberta (1987). Her doctoral studies, on “control of robot binocular vision systems,” were completed at Harvard University in 1992.  After a postdoctoral fellowship at Oxford University (1992–1994) and a postdoc at Harvard (1995), she joined the Department of Mechanical Engineering at the University of Wisconsin-Madison in 1996. She became an associate professor in 2003 and a professor in 2009.

She received the NSF CAREER Award (1997), the University of Wisconsin Vilas Associates Assistant Professorship (1999), and the University of Wisconsin Honored Instructor Award (2009). She has published more than 80 papers in journals and refereed conferences during her tenure at the University of Wisconsin. Ferrier was PI or coPI on grants totaling just over $10 million during her career there. She served on the Physical Sciences Divisional Committee for the University of Wisconsin-Madison from 2009 to 2012 (as vice-chair from 2010 to 2011; as chair from 2011 to 2012).  In 2013 Ferrier joined Argonne National Laboratory as a research scientist and is a Senior Fellow at the Computation Institute, University of Chicago.

Nicola Ferrier’s research interests are in the use of computer vision (digital images) to control robots, machinery, and devices, with applications as diverse as medical systems, manufacturing, and projects that facilitate “scientific discovery” (such as her current project using machine vision and robotics for plant phenotype studies). The use of visual feedback in the control is advantageous when precise fixturing is impractical or impossible. Her work has been applied to visual monitoring of polymer processing, visual control of crystal formation processes, visual monitoring of nanoscale assembly processes, and visual monitoring of plant growth and development for plant phenotype studies. 

Derivation of Multiple Covarying Material and Process Parameters Using Physics-Based Modeling of X-ray Data

Gurdaman Khaira, Manolis Doxastakis, Alec Bowen, Jiaxing Ren, Hyo Seon Suh, Tamar Segal-Peretz, Xuanxuan Chen, Chun Zhou, Adam F. Hannon, Nicola J. Ferrier, Venkatram Vishwanath, Daniel F. Sunday, Roel Gronheid, R. Joseph Kline, Juan J. de Pablo, Paul F. Nealey. Multiple Covarying Material and Process Parameters Using Physics-Based Modeling of X-ray Data. Macromolecules. 7793. Vol. 50, Pg. 7783.

Derivation of multiple covarying material and process parameters using physics-based modeling of X-ray data

Khaira, Gurdaman, et al. "Derivation of multiple covarying material and process parameters using physics-based modeling of X-ray data." Macromolecules 50.19 (2017): 7783-7793.

Quantitative three-dimensional characterization of block copolymer directed self-assembly on combined chemical and topographical prepatterned templates

Segal-Peretz, Tamar, et al. "Quantitative three-dimensional characterization of block copolymer directed self-assembly on combined chemical and topographical prepatterned templates." ACS nano 11.2 (2017): 1307-1319.

Characterization of the shape and line-edge roughness of polymer gratings with grazing incidence small-angle X-ray scattering and atomic force microscopy

Suh, Hyo Seon, et al. "Characterization of the shape and line-edge roughness of polymer gratings with grazing incidence small-angle X-ray scattering and atomic force microscopy." Journal of Applied Crystallography 49.3 (2016): 823-834.

Characterization of the shape and line-edge roughness of polymer gratings with grazing incidence sma

H. S. Suh, X. Chen, P. A. Rincon-Delgadillo, Z. Jiang, J. Strzalka, J. Wang, W. Chen, R. Gronheid, J. J. de Pablo, N. Ferrier, M. Doxastakis and P. F. Nealey. Characterization of the shape and line-edge roughness of polymer gratings with grazing incidence sma. Journal of Applied Crystallography. 2016. Vol. 49, Pg. 823-834.

Grazing-incidence small angle x-ray scattering studies of nanoscale polymer gratings

Doxastakis, Manolis, et al. "Grazing-incidence small angle x-ray scattering studies of nanoscale polymer gratings." Metrology, Inspection, and Process Control for Microlithography XXIX. Vol. 9424. International Society for Optics and Photonics, 2015.