Action Potential





  • Lautrup, B. et al., 2011. The stability of solitons in biomembranes and nerves. The European physical journal. E, Soft matter, 34(6), pp.1–9.
  • Appali, R., Petersen, S. & Van Rienen, U., 2010. A comparision of Hodgkin-Huxley and soliton neural theories. Advances in Radio Science, 8, pp.75–79.





Appali, R., Schmidt, C. & van Rienen, U., 2013. Some Uncertainty Aspects in Models for Neural Engineering. In IEEE International Conference on Electromagnetics in Advanced Applications (ICEAA). pp. 289–292.


Appali, R. et al., 2010. Thermodynamic Theory of Nerve Signal Propagation and First Simulation of Soliton Model. In Biomedical Engineering BMT. pp. 186–189.


van Rienen, U. et al., 2010. Analysis and simulation of electrical interactions of implants with bio- systems. In Biomedical Engineering BMT. pp. 167–170.


Appali, R. et al., 2009. 3D-Simulation of Action Potential Propagation in a Squid Giant Axon. In COMSOL Conference, Bangalore, India, pp. 1–6. 




Appali, R. et al., 2012. Soliton Collision in Biomembranes and Nerves-A Stability Study. In B. Michielsen & J. R. Poirier, eds. Scientific Computing in Electrical Engineering, Mathematics in Industry. Springer, pp. 205–212. 


Appali, R., van Rienen, U. & Heimburg, T., 2012. A Comparison of the Hodgkin-Huxley Model and the Soliton Theory for the Action Potential in Nerves. Advances in Planar Lipid Bilayers and Liposomes, 16, pp.275–299.



Tavangarian, D. et al., 2014. Communication Systems in Aircraft with IEEE 802.11ac EMF Effects of IEEE 802.11ac for In-Flight Communication Systems D. Tavangarian, ed., University of Rostock.




Appali, R. et al., 2012. Implantate zur Stimulation des Hörnervs und des tiefen Hirns. Traditio et Innovatio, Forschungsmagazin der Universität Rostock, ISSN 1432-1513 (Heft 2), pp.19-25.


Appali, R., 2011. Zwischen Rostock und Kopenhagen. Profile – Das Magazin der Universität Rostock, ISSN: 1866-1440, pp. 50-51.

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