Add to ORKGZakotnik J, Matheson T, Dürr V. Self-adapting model-based motion capture system for the analysis of insect movements. In: Proc. Göttingen. Neurobiol. Conf. Vol 29. 2003: 254-254
Dürr V, Matheson T. Functional somatatopy of targeted limb movements in an insect. In: Proc.Götting...
Dürr V, Schütz C. A model for stepping, searching and reaching movements in insects. Comparative Bio...
<p>A) Schematic of a basic correlator elementary motion detector (EMD) used as the fundamental motio...
Müller-Wilm U, Dean J, Weidemann H-J, Eltze J, Pfeiffer F, Cruse H. Kinematic model of a stick insec...
We present the results of a biomimetic model of motion detection in the insect visual system based o...
Ekeberg Ö, Büschges A, Dürr V, Pearson KG. Insect walking pattern generation: a 3D - neuro - mechani...
Cruse H, Dean J, Müller U, Schmitz J. The stick insect as a walking robot. In: Schuster HG, ed. Appl...
<p>A: Insects were labelled with reflective markers. B: For kinematic analysis, the body was modelle...
Krause AF, Dürr V. Efficient movement strategies for insect antennae: A modelling study on active ta...
Dean J, Kindermann T, Schmitz J, Schumm M, Cruse H. Control of walking in the stick insect: from beh...
The control of self-motion is a basic, but complex task for both technical and biological sys-tems. ...
Büschges A, Dürr V, Ekeberg Ö, Pearson KG. Stick insect walking pattern generation - a 3D neuro-mech...
© Copyright 2008 IEEE – All Rights ReservedThe extraction of useful cues for object identification a...
Owaki D, Dürr V, Schmitz J. Motion Hacking --Toward Control of Insect Walking. In: 9th Internationa...
Flying insects use compensatory head movements to stabilize gaze. Like other optokinetic responses, ...
Dürr V, Matheson T. Functional somatatopy of targeted limb movements in an insect. In: Proc.Götting...
Dürr V, Schütz C. A model for stepping, searching and reaching movements in insects. Comparative Bio...
<p>A) Schematic of a basic correlator elementary motion detector (EMD) used as the fundamental motio...
Müller-Wilm U, Dean J, Weidemann H-J, Eltze J, Pfeiffer F, Cruse H. Kinematic model of a stick insec...
We present the results of a biomimetic model of motion detection in the insect visual system based o...
Ekeberg Ö, Büschges A, Dürr V, Pearson KG. Insect walking pattern generation: a 3D - neuro - mechani...
Cruse H, Dean J, Müller U, Schmitz J. The stick insect as a walking robot. In: Schuster HG, ed. Appl...
<p>A: Insects were labelled with reflective markers. B: For kinematic analysis, the body was modelle...
Krause AF, Dürr V. Efficient movement strategies for insect antennae: A modelling study on active ta...
Dean J, Kindermann T, Schmitz J, Schumm M, Cruse H. Control of walking in the stick insect: from beh...
The control of self-motion is a basic, but complex task for both technical and biological sys-tems. ...
Büschges A, Dürr V, Ekeberg Ö, Pearson KG. Stick insect walking pattern generation - a 3D neuro-mech...
© Copyright 2008 IEEE – All Rights ReservedThe extraction of useful cues for object identification a...
Owaki D, Dürr V, Schmitz J. Motion Hacking --Toward Control of Insect Walking. In: 9th Internationa...
Flying insects use compensatory head movements to stabilize gaze. Like other optokinetic responses, ...
Dürr V, Matheson T. Functional somatatopy of targeted limb movements in an insect. In: Proc.Götting...
Dürr V, Schütz C. A model for stepping, searching and reaching movements in insects. Comparative Bio...
<p>A) Schematic of a basic correlator elementary motion detector (EMD) used as the fundamental motio...