Tags: MCB 493

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  1. [Illinois]: Error Gradient Estimations Due to Parallel Perturbation of Weights

    07 Jul 2013 | | Contributor(s):: AbderRahman N Sobh, Jessica S Johnson, NanoBio Node

    This tool trains two-layered networks of sigmoidal units to associate patterns using simultaneous perturbation of weights.

  2. [Illinois]: Perturbative Reinforcement Learning to Develop Distributed Representations

    10 Jul 2013 | | Contributor(s):: AbderRahman N Sobh, Jessica S Johnson, NanoBio Node

    This tool trains three-layered networks of sigmoidal units to associate patterns.

  3. [Illinois]: Perturbative Reinforcement Learning Using Directed Drift

    10 Jul 2013 | | Contributor(s):: AbderRahman N Sobh, Jessica S Johnson, NanoBio Node

    This tool trains two-layered networks of sigmoidal units to associate patterns using a real-valued adaptation of the directed drift algorithm.

  4. [Illinois]: Error Gradient Estimations Due to Perturbation of One Weight at a Time

    29 Jun 2013 | | Contributor(s):: AbderRahman N Sobh, Jessica S Johnson, NanoBio Node

    This tool trains two-layered networks of sigmoidal units to associate patterns using perturbation of one weight at a time.

  5. [Illinois]: Avoidance Learn Simulation with 'Call' Neuron

    25 Jun 2013 | | Contributor(s):: AbderRahman N Sobh, NanoBio Node, Jessica S Johnson

    This script simulates avoidance learning as a reinforcement learning with two upper motoneurons (sumo and fumo) and one "call" neuron.

  6. [Illinois]: Avoidance Learn Simulation

    20 Jun 2013 | | Contributor(s):: AbderRahman N Sobh, NanoBio Node, Jessica S Johnson

    This script simulates avoidance conditioning as reinforcement learning with two upper motoneurons (SUMO and FUMO).

  7. [Illinois] BioNanotechnology and Nanomedicine: Applications in Cancer and Mechanobiology Lecture 25: Force Traction Microscopy: A Review

    05 Jun 2013 | | Contributor(s):: Alireza Tofangchi

    BioNanotechnology and Nanomedicine: Applications in Cancer and Mechanobiology provides an introduction to basic concepts of nanotechnology in mechanobiology and in cancer. This is a highly interdisciplinary field of research where knowledge from various disciplines is presented and integrated....

  8. [Illinois] BioNanotechnology and Nanomedicine: Applications in Cancer and Mechanobiology Lecture 26: A few basics of mechanics in light of cell biology

    05 Jun 2013 | | Contributor(s):: Taher A. Saif

    BioNanotechnology and Nanomedicine: Applications in Cancer and Mechanobiology provides an introduction to basic concepts of nanotechnology in mechanobiology and in cancer. This is a highly interdisciplinary field of research where knowledge from various disciplines is presented and integrated....

  9. [Illinois] BioNanotechnology and Nanomedicine: Applications in Cancer and Mechanobiology Lecture 27: Cancer Metastasis and Elasticity of Micro-Environment

    05 Jun 2013 | | Contributor(s):: Taher A. Saif

    BioNanotechnology and Nanomedicine: Applications in Cancer and Mechanobiology provides an introduction to basic concepts of nanotechnology in mechanobiology and in cancer. This is a highly interdisciplinary field of research where knowledge from various disciplines is presented and integrated....

  10. Illinois BioNanotechnology and Nanomedicine: Applications in Cancer and Mechanobiology Lecture 19: How can you tell if a cell is cancerous?

    10 Nov 2011 | | Contributor(s):: Catherine J. Murphy

    Lecture by Catherine Murphy.

  11. Illinois BioNanotechnology and Nanomedicine: Applications in Cancer and Mechanobiology Lecture 20: Nanoparticle contrast agents for tissue

    10 Nov 2011 | | Contributor(s):: Catherine J. Murphy

    Lecture by Catherine Murphy.

  12. Illinois BioNanotechnology and Nanomedicine: Applications in Cancer and Mechanobiology Lecture 22: Mechano-transduction mechanical micro environment determine cell fate

    10 Nov 2011 | | Contributor(s):: Taher A. Saif

    Lecture by Taher Saif.

  13. Illinois BioNanotechnology and Nanomedicine: Applications in Cancer and Mechanobiology Lecture 23: Mechano-transduction mechanical micro environment determine cell fate (examples), possible mechanisms

    10 Nov 2011 | | Contributor(s):: Taher A. Saif

  14. Illinois BioNanotechnology and Nanomedicine: Applications in Cancer and Mechanobiology Lecture 10: Characteristics of a cancer cell

    27 Oct 2011 | | Contributor(s):: Scott Siechen

    Lecture by Scott Siechen.

  15. Illinois BioNanotechnology and Nanomedicine: Applications in Cancer and Mechanobiology Lecture 12: Role of chemicals, radiation, and infectious agents in cancer

    27 Oct 2011 | | Contributor(s):: Ann M Nardulli

  16. Illinois BioNanotechnology and Nanomedicine: Applications in Cancer and Mechanobiology Lecture 13: Role of heredity, oncogenes, and tumor suppressors in cancer

    27 Oct 2011 | | Contributor(s):: Ann M Nardulli

  17. Illinois BioNanotechnology and Nanomedicine: Applications in Cancer and Mechanobiology Lecture 14: Most common cancers in men and women and Quiz

    27 Oct 2011 | | Contributor(s):: Ann M Nardulli

  18. Illinois BioNanotechnology and Nanomedicine: Applications in Cancer and Mechanobiology Lecture 15: Therapeutic Nanotechnology: Biological pore sizes and nanocarriers

    27 Oct 2011 | | Contributor(s):: Catherine J. Murphy

    Lecture by Catherine Murphy.

  19. Illinois BioNanotechnology and Nanomedicine: Applications in Cancer and Mechanobiology Lecture 16: Therapeutic Nanotechnology: Metal nanoparticles and hyperthermia

    27 Oct 2011 | | Contributor(s):: Catherine J. Murphy

    Lecture by Catherine Murphy.

  20. Illinois BioNanotechnology and Nanomedicine: Applications in Cancer and Mechanobiology Lecture 17: Diagnostic Nanotechnology: Colloidal metal nanoparticle optics

    27 Oct 2011 | | Contributor(s):: Catherine J. Murphy

    Lecture by Catherine Murphy.