Max Planck Institute for Biological Cybernetics


Max-Planck-Ring 8 - 14
(formerly Spemannstr. 38 - 44)
72076 Tübingen
Phone: +49 7071 601-510
Fax: +49 7071 601-520
Directions to the Institute

Former Departments and Research Groups

Most recent Publication

Buckenmaier K, Pedersen A, SanGiorgio P, Scheffler K, Clarke J and Inglis B (February-2019) Feasibility of Functional MRI at Ultralow Magnetic Field via Changes in Cerebral Blood Volume NeuroImage 186 185-191.
Juras V, Schreiner M, Laurent D, Zbýň Š, Mlynarik V, Szomolanyi P, Hager B, Scotti C, Goldhahn J, Heule R, Bieri O and Trattnig S (January-2019) The comparison of the performance of 3 T and 7 T T2 mapping for untreated low-grade cartilage lesions Magnetic Resonance Imaging 55 86-92.
de la Rosa S: Wie real sind virtuelle Realitäten? Über Chancen und potenzielle Risiken von virtuellen Realitäten, 99-126. In: Gehirne unter Spannung: Kognition, Emotion und Identität im digitalen Zeitalter, (Ed) C. Gorr, Springer, Berlin, Germany, (2019).

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Techreports

127. Nooij SAE: A review on the effects of motion characteristics on motion sickness incidence, 197, Max Planck Institute for Biological Cybernetics, Tübingen, Germany, (August-2018).
pdfCiteID: Nooij2018
126. Tognon M, Yüksel B, Buondonno G and Franchi A: Explicit Computations, Simulations and additional Results for the Dynamic Decentralized Control for Protocentric Aerial Manipulators Technical Attachment to: ”Dynamic Decentralized Control for Protocentric Aerial Manipulators” 2017 IEEE International Conference on Robotics and Automation (ICRA), Singapore, May 2017, 17048, Rapport LAAS, (March-2017).
CiteID: TognonYBF2017_2
125. Yüksel B, Staub N and Franchi A: Explicit Computations and Further Extensive Simulations for Rigid-or Elastic-joint Arm: Technical Attachment to: "Aerial Robots with Rigid/Elastic-joint Arms: Single-joint Controllability Study and Preliminary Experiment" 2016 IEEE/RSJ International Conference on Intelligent Robots and Systems, Daejeon, South Korea, October 2016, 16198, Rapport LAAS, (October-2016).
CiteID: YukselSF2016_2
124. Yüksel B, Buondonno G and Franchi A: Protocentric Aerial Manipulators: Flatness Proofs and Simulations. Technical Attachment to: "Differential Flatness and Control of Protocentric Aerial Manipulators with Any Number of Arms and Mixed Rigid-/Elastic-Joints" 2016 IEEE/RSJ International Conference on Intelligent Robots and Systems, Daejeon, South Korea, October 2016, 16208, Rapport LAAS, (October-2016).
CiteID: YukselBF2016_2
123. Schuchardt BI, Lehmann P, Nieuwenhuizen F and Perfect P: Deliverable D6.5 Final list of desirable features/options for the PAV and supporting systems, 266470, mycopter.eu, (January-2015).
CiteID: SchuchardtLNP2015
122. Volkova-Volkmar E: Report on experiment supported by the Visionair project: Effect of Visual and Auditory Feedback Modulation on Embodiment and Emotional State in VR, University College London, (January-2015).
pdfCiteID: VolkovaVolkmar2015
121. Lee J-J and Bülthoff HH: Helilab User Manual: Human Behavior and Flight Data Acquisition and Analysis, 196, Max Planck Institute for Biological Cybernetics, (May-2012).
pdfCiteID: LeeB2012
120. Barnett-Cowan M, Soyka F, Zaichik L, Groen E, Ledegang W and de Mena M: Analysis of perception data and motion perception criteria, SUPRA D4.2, 7th Framework Program EU IP 233543: Simulation of UPset Recovery in Aviation, (2011).
CiteID: BarnettCowanSZGLd2011
119. Beykirch K, Barnett-Cowan M, Zaichik L, Bos J and Ledegang W: Development of add-on perception model, SUPRA D4.3, 7th Framework Program EU IP 233543: Simulation of UPset Recovery in Aviation, (2011).
CiteID: BeykirchBZBL2011
118. Beykirch M, Soyka F and Barnett-Cowan M: Evaluation of the baseline perception models and required amendments, SUPRA D4.1, 7th Framework Program EU IP 233543: Simulation of UPset Recovery in Aviation, (2011).
CiteID: BeykirchSB2010
117. Berger DR: Scene scaling during simulated forward accelerations: Are explicit size cues used?, 182, Max-Planck Institute for Biological Cybernetics, Tübingen, Germany, (January-2009).
pdfCiteID: 5757
116. Meilinger T, Riecke BE, Berger D and Bülthoff HH: A novel immersive virtual environment setup for behavioural experiments in humans, tested on spatial memory for environmental spaces, 158, Max-Planck-Institute for Biological Cybernetics, Tübingen, Germany, (March-2007).
pdfCiteID: 4490
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Last updated: Tuesday, 30.10.2018