Physarum polycephalum (German Wikipedia)

Analysis of information sources in references of the Wikipedia article "Physarum polycephalum" in German language version.

refsWebsite

Global rank German rank

1zeit.de

267^th place

15^th place

1protozoologie.de

low place

1zdf.de

1,243^rd place

75^th place

1nature.com

234^th place

203^rd place

1soton.ac.uk

6,219^th place

8,648^th place

1zdb-katalog.de

123^rd place

6^th place

1doi.org

2^nd place

3^rd place

1science.org

1,160^th place

2,116^th place

1spektrum.de

1,960^th place

130^th place

1tagesschau.de

884^th place

51^st place

doi.org

Atsushi Tero, Seiji Takagi, Tetsu Saigusa, Kentaro Ito, Dan P. Bebber, Mark D. Fricker, Kenji Yumiki, Ryo Kobayashi, Toshiyuki Nakagaki: Rules for Biologically Inspired Adaptive Network Design. In: Science. Band 327, Nr. 5964, 22. Januar 2010, ISSN 0036-8075, S. 439–442, doi:10.1126/science.1177894 (englisch, science.org [abgerufen am 7. April 2023]): “A model was produced that describes the adaptive network development displayed by the slime mold. This biologically inspired model might provide insight into how to implement properties like resistance of transport systems to local failures into similar human-designed systems.”

nature.com

Toshiyuki Nakagaki, Hiroyasu Yamada, Ágota Tóth: Intelligence: Maze-solving by an amoeboid organism. In: Nature. Band 407, September 2000, S. 470, Online.

protozoologie.de

Einzeller des Jahres 2021: Physarum polycephalum, auf: Deutsche Gesellschaft für Protozoologie, zuletzt abgerufen am 10. November 2021.

science.org

Atsushi Tero, Seiji Takagi, Tetsu Saigusa, Kentaro Ito, Dan P. Bebber, Mark D. Fricker, Kenji Yumiki, Ryo Kobayashi, Toshiyuki Nakagaki: Rules for Biologically Inspired Adaptive Network Design. In: Science. Band 327, Nr. 5964, 22. Januar 2010, ISSN 0036-8075, S. 439–442, doi:10.1126/science.1177894 (englisch, science.org [abgerufen am 7. April 2023]): “A model was produced that describes the adaptive network development displayed by the slime mold. This biologically inspired model might provide insight into how to implement properties like resistance of transport systems to local failures into similar human-designed systems.”

soton.ac.uk

eprints.soton.ac.uk

S. Tsuda, K.-P. Zauner, Y.-P. Gunji: Robot Control with Biological Cells. In: Proceedings of Sixth International Workshop on Information Processing in Cells and Tissues. St. William’s College, York 2005, S. 202–216.

spektrum.de

Manon Bischoff: Die fabelhafte Welt der Mathematik: Schleimpilze sind die besseren Mathematiker. Abgerufen am 7. April 2023.

tagesschau.de

David Differdange: Aliens aus der Petrischale. In: tagesschau.de. 22. Oktober 2019, abgerufen am 28. Oktober 2019.

zdb-katalog.de

Atsushi Tero, Seiji Takagi, Tetsu Saigusa, Kentaro Ito, Dan P. Bebber, Mark D. Fricker, Kenji Yumiki, Ryo Kobayashi, Toshiyuki Nakagaki: Rules for Biologically Inspired Adaptive Network Design. In: Science. Band 327, Nr. 5964, 22. Januar 2010, ISSN 0036-8075, S. 439–442, doi:10.1126/science.1177894 (englisch, science.org [abgerufen am 7. April 2023]): “A model was produced that describes the adaptive network development displayed by the slime mold. This biologically inspired model might provide insight into how to implement properties like resistance of transport systems to local failures into similar human-designed systems.”

zdf.de

Gesellschaft für Protozoologie – Darm-Erreger ist "Einzeller des Jahres 2022", auf: zdf.de vom 8. November 2021.

zeit.de

Wolfgang Richter: Alter Schleimer. In: ZEIT–Wissen. 01/2007, Online.