Danilo Diedrichs, Ph.D.

Assistant Professor of Mathematics
On Faculty since 2012

Office: SCI 175
Phone: (630)752-7302
Email:

Education

Ph.D. Applied Mathematical and Computational Sciences, University of Iowa, 2012.

Certificate in Computational Cell Biology, Cold Spring Harbor Laboratories, Cold Spring Harbor, NY, 2010.

M.S., Mathematics, University of Iowa, 2009.

EPF Diploma, Civil Engineering, Ecole Polytechnique Fédérale de Lausanne (Swiss Federal Institute of Technology) Lausanne, Switzerland, 1997.

Swiss Maturité, Science, Latin and Modern Languages, Collège Rousseau, Geneva, Switzerland, 1992.

About Danilo Diedrichs

Dr. Diedrichs' interests and research focus on applied mathematics.  He is particularly interested in mathematical modeling and is currently working in collaboration with the departments of Cell Biology and Biochemistry at the University of Iowa on modeling dynamical networks of interacting proteins using systems of nonlinear ordinary differential equations.  Dr. Diedrichs has also done research in structural engineering at the Swiss Federal Institute of Technology, where he developed a mathematical model to study the composite resistance of wood-concrete slabs.

Dr. Diedrichs was raised and educated in Switzerland.  Prior to coming to Wheaton College, he had a 10-year-long career as an engineer and in import/export transportation logistics, where he specialized in intermodal (sea/rail/road) international supply chain logistics.  He holds a U.S. customs broker's license and private pilot's license. 

When he is not working, Dr. Diedrichs enjoys playing the piano and remaining active outdoors.  In the summer, he enjoys hiking, biking and swimming, and in the winter, skiing and ice skating.  He is an amateur ice dancer and competes in freestyle figure skating at the USFSA adult gold level.

Office Hours

Monday: 3:15-4:45 pm
Tuesday: 1:00-2:30 pm
Thursday: 2:00-3:30 pm
Friday: 3:15-4:45 pm

Courses Taught

  • Math 101 - Quantitative Skills
  • Math 231 - Calculus I
  • Math 232 - Calculus II
  • Math 245 - Linear Algebra
  • Math 301 - Colloquium in Research Methods
  • Math 302 - Applied Project
  • Math 331 - Vector Calculus
  • Math 333 - Differential Equations
  • Math 385 - Topics in Applied Math: Numerical Analysis and Mathematical Modeling
  • Math 485 - Advanced Topics in Mathematics: Partial Differential Equations

Professional Memberships

  • Society for Industrial and Applied Mathematics (SIAM)
  • Mathematical Association of America (MAA)

Research

Applied mathematics, Computational science, Mathematical modeling of dynamical systems in biology, ecology, epidemiology and business.

Selected Publications, Invited and Contributed Talks

Diedrichs D, Isihara P, Buursma D, The Schedule Effect: Can Recurrent Peak Infections be Reduced without Vaccines, Quarantines or School Closings?, Mathematical Biosciences, 248C:46-53, 2014 (PDF)

Arensdorf AM, Diedrichs D, Rutkowski DT, Regulation of the Transcriptome by ER Stress: Non-Canonical Mechanisms and Physiological Consequences, Frontiers in Genetics, 4:256, 2013 (PDF)

Curtu R, Diedrichs D, Small-Scale Modeling Approach and Circuit Wiring of the Unfolded Protein Response in Mammalian Cells, Advances in Computational Biology, Springer 2010 (PDF)

Diedrichs D, Reverse Engineering of the Unfolded Protein Response using Polynomial Dynamical Systems, Joint Mathematics Meetings, San Diego, CA, Jan. 9, 2013.

Brenner C, Diedrichs D, Mayer A, Mathematical Modeling of NAD+ Metabolism in Saccaromyces Cerevisiae, University of Iowa Summer Research Symposium, Jul. 26, 2012.

Curtu R, Diedrichs D, A Mathematical Model for the Unfolded Protein Response to Stress in the Endoplasmic Reticulum of Mammalian Cells, Joint Mathematics Meetings, Boston, MA, Jan. 7, 2012.

Diedrichs D, ODE Modeling of Biochemical and Protein Interaction Networks in Systems Biology, Vigre Heartland Mathematics REU, Iowa City, IA, June 21, 2011.

Curtu R, Diedrichs D, Dynamical Switch in the Model of the Unfolded Protein Response in Mammalian Cells, SIAM Conference in Applications of Dynamical Systems, Snowbird, UT, May 24, 2011.

Diedrichs D, Using Random Walks to Model the Dynamics of the Cytoskeleton, Mathematical Biology Seminar, Iowa City, IA, Feb. 11, 2011.

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