Full name Familienname, Vorname
Barth, Friedrich
 
Main Affiliation Organisations­zuordnung
 

Results 1-15 of 15 (Search time: 0.001 seconds).

PreviewAuthor(s)TitleTypeIssue Date
1Klopsch, Christian ; Kuhlmann, Hendrik C. ; Barth, Friedrich G. Airflow elicits a spider's jump towards airborne prey: II. Flow characteristics guiding behaviorArtikel Article 2013
2Klopsch, Christian ; Kuhlmann, Hendrik C. ; Barth, Friedrich G. Airflow elicits a spider's jump towards airborne prey: I. Airflow around a flying blowflyArtikel Article 2012
3Hößl, Bernhard ; Böhm, Helmut J. ; Schaber, Clemens F. ; Rammerstorfer, Franz G. ; Barth, Friedrich G. Finite Element Modeling of Arachnid Slit Sensilla: II. Actual Lyriform Organs and the Face Deformations of the Individual SlitsArtikel Article 2009
4Barth, Friedrich G. ; Böhm, Helmut J. ; Hößl, Bernhard ; Rammerstorfer, Franz G. Computational Treatment of Slit Sensilla of Spiders - Biomechanics in NeurobiologyPräsentation Presentation2008
5Rammerstorfer, Franz G. ; Hößl, Bernhard ; Dechant, Hans Erich ; Böhm, Helmut J. ; Barth, Friedrich G. Computational Biomechanics of Sensory Organs in SpidersPräsentation Presentation2008
6Rammerstorfer, Franz G. ; Hößl, Bernhard ; Dechant, Hans Erich ; Böhm, Helmut J. ; Barth, Friedrich G. Computational Biomechanics of Sensory Organs in SpidersBuchbeitrag Book Contribution2008
7Hößl, Bernhard ; Böhm, Helmut J. ; Rammerstorfer, Franz G. ; Barth, Friedrich G. Finite Element Modeling of Arachnid Slit Sensilla - I. The Mechanical Significance of Different Slit ArraysArtikel Article 2007
8Barth, Friedrich G. ; Hößl, Bernhard ; Schaber, Clemens F. ; Gorb, Stanislav ; Böhm, Helmut J. ; Rammerstorfer, Franz G. Arthropod Mechanoreceptors: From Biology to EngineeringPräsentation Presentation2007
9Hößl, Bernhard ; Böhm, Helmut J. ; Rammerstorfer, Franz G. ; Barth, Friedrich G. Arthropod Strain Detectors: I. Modeling the Mechanics of Arachnid Lyriform Organs by Finite Element ModelsPräsentation Presentation2006
10Böhm, Helmut J. ; Hößl, Bernhard ; Rammerstorfer, Franz G. ; Barth, Friedrich G. Finite Element Modelling of Slit Sensilla of ArachnidsPräsentation Presentation2006
11Dechant, Hans-Erich ; Hößl, Bernhard ; Rammerstorfer, Franz G. ; Barth, Friedrich G. Arthropod Mechanoreceptive Hairs: Modeling the Directionality of the JointArtikel Article 2006
12Hößl, Bernhard ; Böhm, Helmut J. ; Rammerstorfer, Franz G. ; Müllan, Rainer ; Barth, Friedrich G. Engineering Meets Biology: Computer Based Modeling of Spider Strain DetectorsPräsentation Presentation2005
13Hößl, Bernhard ; Böhm, Helmut J. ; Rammerstorfer, Franz G. ; Barth, Friedrich G. Mechanoreception in the Exoskeleton of Arachnids: Engineering Meets BiologyKonferenzbeitrag Inproceedings2005
14Barth, Friedrich G. ; Hößl, Bernhard ; Böhm, Helmut J. ; Rammerstorfer, Franz G. From technical biology to natural technology? The remarkable refinement of spider mechano-sensorsPräsentation Presentation2004
15Dechant, Hans-Erich ; Rammerstorfer, Franz G. ; Barth, Friedrich G. Arthropod Touch Reception: Stimulus Transformation and Finite Element Model of Spider Tactile HairsArtikel Article 2001

Results 1-3 of 3 (Search time: 0.002 seconds).

PreviewAuthor(s)TitleTypeIssue Date
1Klopsch Christian - 2010 - The flow field around a flying blowfly...pdf.jpgKlopsch, Christian The flow field around a flying blowfly: characteristics and guidance of spider prey capture behaviorThesis Hochschulschrift 2010
2Hoessl Bernhard - 2007 - Mechanical simulation of slit sensors of arachnids.pdf.jpgHößl, Bernhard Mechanical simulation of slit sensors of arachnidsThesis Hochschulschrift 2007
3Dechant, Hans-Erich Mechanical properties and finite element simulation of spider tactile hairsThesis Hochschulschrift2001