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Hire Dr. Chris F.

United States

USD 65 /hr

Computational neuroscientist and computer science educator with 15 years of publishing experience.

Profile Summary

Website: https://sites.google.com/view/fietkiewicz1/ LinkedIn: https://www.linkedin.com/in/chris-fietkiewicz-b53a5958/ Full publication list: https://orcid.org/0000-0003-2098-8397 My research and publishing experience has included the following areas: * Modeling of neural systems and diseases, including: - Parkinson’s disease - Epilepsy - Respiratory control - Neuromuscular function - Axonal conduction - Electrophysiology and neural recording * Free modeling software at Applied Neural Control Toolkit - Part of an educational website on electrical stimulation. - Free account available at https://www.anctoolkit.com/ - Simulators for axon conduction, human node of Ranvier, and Hodgkin-Huxley. * Parallel programming techniques, including: - Batch programming - MPI - OpenACC for GPUs * Computer science education

Subject Matter Expertise

• ☆ Neuroscience
• ☆ Electrophysiology
• ☆ Patch-Clamp Electrophysiology
• ☆ Computational Neuroscience
• ☆ Computer Science
• ☆ Parallel Computing
• ☆ Computer Simulation/Computational Modeling
• ☆ Computer Science Education
• ☆ Matlab
• ☆ LaTex
• ☆ Neurology
• ☆ Epilepsy & Seizures
• ☆ Parkinson's Disease

Services

• Writing
• Research
• Consulting

Writing Technical Writing, General Proofreading & Editing

Research Systematic Literature Review

Consulting Scientific and Technical Consulting

Work Experience

Assistant Professor

Hobart and William Smith Colleges

July 2019 - Present

Case Western Reserve University

August 2011 - June 2019

Education

Computer Science PhD

Case Western Reserve University

September 2003 - May 2010

Certifications

• Certification details not provided.

Publications

JOURNAL ARTICLE

Liu, Chen and Zhu, Yulin and Liu, Fei and Wang, Jiang and Li, Huiyan and Deng, Bin and Fietkiewicz, Chris and Loparo, Kenneth A.(2017). Neural mass models describing possible origin of the excessive beta oscillations correlated with Parkinsonian state . Neural Networks. 88. (Supplement C). p. 65--73.

Liu, C. and Wang, J. and Li, H. and Fietkiewicz, C. and Loparo, K. A.(2017). Modeling and Analysis of Beta Oscillations in the Basal Ganglia . IEEE Transactions on Neural Networks and Learning Systems. PP. (99). p. 1--12.

Liu, Fei and Wang, Jiang and Liu, Chen and Li, Huiyan and Deng, Bin and Fietkiewicz, Chris and Loparo, Kenneth A.(2016). A neural mass model of basal ganglia nuclei simulates pathological beta rhythm in Parkinson's disease . Chaos: An Interdisciplinary Journal of Nonlinear Science. 26. (12). p. 123113.

Liu, C. and Wang, J. and Deng, B. and Wei, X. and Yu, H. and Li, H. and Fietkiewicz, C. and Loparo, K. A.(2016). Closed-Loop Control of Tremor-Predominant Parkinsonian State Based on Parameter Estimation . IEEE Transactions on Neural Systems and Rehabilitation Engineering. 24. (10). p. 1109--1121.

Fietkiewicz, Christopher and Loparo, Kenneth A.(2016). Analysis and Enhancements of a Prolific Macroscopic Model of Epilepsy . Scientifica. 2016. p. e3628247.

Fietkiewicz, Christopher and Shafer, Geoffrey O. and Platt, Ethan A. and Wilson, Christopher G.(2016). Variability in respiratory rhythm generation: In vitro and in silico models . Communications in Nonlinear Science and Numerical Simulation. 32. p. 158--168.

Liu, C. and Wang, J. and Li, H. and Lu, M. and Deng, B. and Yu, H. and Wei, X. and Fietkiewicz, C. and Loparo, K. A.(2016). Closed-Loop Modulation of the Pathological Disorders of the Basal Ganglia Network . IEEE Transactions on Neural Networks and Learning Systems. PP. (99). p. 1--12.

Liu, Chen and Wang, Jiang and Yu, Haitao and Deng, Bin and Wei, Xile and Li, Huiyan and Loparo, Kenneth A. and Fietkiewicz, Chris(2015). Dynamical analysis of Parkinsonian state emulated by hybrid Izhikevich neuron models . Communications in Nonlinear Science and Numerical Simulation. 28. (1–3). p. 10--26.

Alsharif, Sameer and Fietkiewicz, Chris(2014). Nonlinear variability measures for respiratory rhythm generation . BMC Neuroscience. 15. (Suppl 1). p. P162.

Fietkiewicz, Chris and Wilson, Christopher G.(2014). Variability in respiratory rhythm generation: in vitro and in silico models . BMC Neuroscience. 15. (1). p. 1--1.

De Oliveira, Renato and Fietkiewicz, Chris(2013). Nonlinear variability in a computational model of respiratory rhythm generation . Journal of Critical Care. 28. (1). p. e10.

Lee, Joonsue and Fietkiewicz, Chris(2012). Pattern variability in a computational model of respiratory rhythm generation . BMC Neuroscience. 13. (Suppl 1). p. P139.

Kerr, C.C. and Neymotin, S.A. and Chadderdon, G.L. and Fietkiewicz, C.T. and Francis, J.T. and Lytton, W.W.(2012). Electrostimulation as a Prosthesis for Repair of Information Flow in a Computer Model of Neocortex . IEEE Transactions on Neural Systems and Rehabilitation Engineering. 20. (2). p. 153--160.

Fietkiewicz, Christopher and Loparo, Kenneth A. and Wilson, Christopher G.(2011). Drive latencies in hypoglossal motoneurons indicate developmental change in the brainstem respiratory network . Journal of Neural Engineering. 8. (6). p. 065011.

OTHER

Efficient implementation of a real-time estimation system for thalamocortical hidden Parkinsonian properties \textbar Scientific Reports .