Zellmann C (2018) Development of an Aircraft Noise Emission Model Accounting for Flight Parameters [Doctoral thesis]. Berlin: Technische Universität Berlin. http://dx.doi.org/10.14279/depositonce-6712
Dupuy F, Rouyar A, Deisig N, Bourgeois T, Limousin D, Wycke, MA, Anton S and Renou M (2017). A background of a volatile plant compound alters neural and behavioral responses to the sex pheromone blend in a moth. Frontiers in physiology 8, 79.
Houot B, Cazalé-Debat L, Fraichard S, Everaerts C, Saxena N, Sane, SP and Ferveur JF (2017). Gene Regulation and Species-Specific Evolution of Free Flight Odor Tracking in Drosophila. Molecular biology and evolution, 35(1), 3-15.
Hawkes F and Gibson G (2016). Seeing is believing: The nocturnal malarial mosquito Anopheles coluzzii responds to visual host-cues when odour indicates a host is nearby. Parasites & vectors 9.1: 320.
Rouyar A, Deisig N, Dupuy F, Limousin D and Wycke MA (2017). RenouM and Anton S (2015) Unexpected plant odor responses in a moth pheromone system. Coding Properties in Invertebrate Sensory Systems 6, 53.
Houot B, Gigot V, Robichon A and Ferveur, JF (2017). Free flight odor tracking in Drosophila: Effect of wing chemosensors, sex and pheromonal gene regulation. Scientific Reports 7, Article number: 40221; http://dx.doi.org/10.1038/srep40221
Woodgate JL, Buehlmann C and Collett TS (2016): When navigating wood ants use the centre of mass of a shape to extract directional information from a panoramic skyline. J Exp Biol 219, 1689-1696; doi: 10.1242/jeb.136697
Simões PMV, Ingham RA, Gibson G and Russell IJ (2016). A role for acoustic distortion in novel rapid frequency modulation behaviour in free-flying male mosquitoes. J Exp Biol 219, 2039-2047.
Medici V, Vonesch SC, Fry SN and Hafen E (2015). The FlyCatwalk: A high-throughput feature-based sorting system for artificial selection in Drosophila. G3: Genes, Genomes, Genetics 5.3: 317-327.
Wang MY, Brennan, CH, Lachlan, RF and Chittka L (2015). Speed–accuracy trade-offs and individually consistent decision making by individuals and dyads of zebrafish in a colour discrimination task. Animal Behaviour 103, 277-283.
McMeniman CJ, Corfas RA, Matthews BJ, Ritchie SA and Vosshall LB (2014). Multimodal Integration of Carbon Dioxide and Other Sensory Cues Drives Mosquito Attraction to Humans. Cell 156(5), 1060-1071.
Zellmann C, Wunderli J and Schäfer B (2013). SonAIR – Data acquisition for a next generation aircraft noise simulation model. In: 42nd International Congress and Exposition on Noise Control Engineering, 842-850.
Lent DD, Graham P and Collett TS (2013). Phase-Dependent Visual Control of the Zigzag Paths of Navigating Wood Ants. Curr Biol 23, 2393 – 2399; https://doi.org/10.1016/j.cub.2013.10.014
Wang MY et al (2013). Can bees simultaneously engage in adaptive foraging behaviour and attend to cryptic predators?. Animal Behaviour 86.4: 859-866.
Ings TC, Wang MY and Chittka L (2012). Colour-independent shape recognition of cryptic predators by bumblebees. Behav Ecol Sociobiol 66(3), 487-496.
Medici V and Fry SN (2012). Embodied linearity of speed control in Drosophila melanogaster. J Roy Soc Lond Interface 9.77 (2012): 3260-3267.
Lent DD, Graham, P and Collett TS (2010). Image-matching during ant navigation occurs through saccade-like body turns controlled by learned visual features. PNAS 107(37), 16348-16353.
Graetzel CF, Nelson BJ and Fry SN (2010). Frequency response of lift control in Drosophila. J Roy Soc Lond Interface published online before print May 12
Almbro M and Kullberg C (2009). The downfall of mating: the effect of mate-carrying and flight muscle ratio on the escape ability of a pierid butterfly. Beh Ecol Sociobiol 63, 413-420.
Fry SN (2009). Experimental approaches toward a functional understanding of insect flight control. In Flying Insects and Robots, eds. D Floreano, J-C Zufferey, MV Srinivasan and CP Ellington), pp. 1-14: Springer.
Fry SN, Rohrseitz N, Straw AD and Dickinson MH (2009). Visual control of flight speed in Drosophila melanogaster. J Exp Biol 212, 1120-1130.
Graetzel CF, Nelson BJ and Fry SN (2009). A dynamic region-of-interest vision tracking system applied to the real-time wing kinematic analysis of tethered Drosophila. IEEE Transactions on Automation Science and Engineering 7(3): 463 – 473.
Lent DD, Graham P and Collett TS (2009). A motor component to the memories of habitual foraging routes in wood ants? Curr Biol 19(2), 115-121
Ings TC and Chittka L (2008). Speed-accuracy tradeoffs and false alarms in bee responses to cryptic predators. Curr. Biol. 18(19), 1520-1524.
Almbro M and Kullberg C (2008). Impaired escape flight ability in butterflies due to low flight muscle ratio prior to hibernation. J Exp Biol 211, 24-28
Fry SN, Rohrseitz N, Straw, AD and Dickinson MH (2008). TrackFly: Virtual Reality for a behavioral system analysis in free-flying fruit flies J Neurosci Methods 171(1), 110-117
Graham P, Durier V and Collett TS (2007). The co-activation of snapshot memories in wood ants. J Exp Biol 210, 2128-2136.
Harris RA, Graham P and Collett TS (2007). Visual Cues for the Retrieval of Landmark Memories by Navigating Wood Ants. Curr Biol 17, 93-102
Ribak G and Swallow J (2007). Free flight maneuvers of stalk-eyed flies: do eye-stalks affect aerial turning behavior? J Comp Physiol A 193, 1065-79
Graetzel CF, Fry, SN and Nelson BJ (2006) A 6000 Hz computer vision system for real-time wing beat analysis of Drosophila. Proc The First IEEE / RAS-EMBS International Conference on Biomedical Robotics and Biomechatronics (Biorob), Pisa, Italy, February 2006.
Graham P and Collett TS (2006). Bi-directional route learning in wood ants. J Exp Biol 209, 3677-3684.
Budick SA and Dickinson, MH (2006). Free-flight responses of Drosophila melanogaster to attractive odors. J Exp Biol 209, 3001-3017.
Harris RA, de Ibarra NH, Graham P and Collett TS (2005). Ant navigation: Priming of visual route memories. Nature 438(7066), 302
Fry SN, Müller P, Baumann, H-J, Straw AD, Bichsel M and Robert D (2004). Context-dependent stimulus presentation to freely moving animals in 3D. J Neurosci Methods 135, 149–57
Durier V, Graham P and Collett TS (2004). Switching destinations: memory change in wood ants. J Exp Biol 207, 2401-8.
Graham P, Durier V and Collett TS (2004). The binding and recall of snapshot memories in wood ants (Formica rufa L.). J Exp Biol 207, 393-8.
Durier V, Graham P and Collett TS (2003). Snapshot memories and landmark guidance in wood ants. Curr Biol 13, 1614-8
Frye MA, Tarsitano M and Dickinson MH (2003). Odor localization requires visual feedback during free flight in Drosophila melanogaster. J Exp Biol 206, 843-55.
Graham P, Fauria K and Collett TS (2003). The influence of beacon-aiming on the routes of wood ants. J Exp Biol 206, 535-541.
Collett TS and Collett M (2002). Memory use in insect visual navigation. Nat Rev Neurosci 3, 542-52
Graham P and Collett TS (2002). View-based navigation in insects: How wood ants (Formica rufa L.) look at and are guided by extended landmarks. J Exp Biol 205, 2499-509
Müller P and Robert D (2002). Death comes suddenly to the unprepared: Singing crickets, call fragmentation, and parasitoid flies. Beh Ecol 13, 598-606
Müller P and Robert D (2001). A shot in the dark: The silent quest of a free-flying phonotactic fly. J Exp Biol 204, 1039-52
Fry SN, Bichsel M, Müller P and Robert D (2000). Tracking of flying insects using pan-tilt cameras. J Neurosci Methods 101, 59-67
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Spitzen Jeroen and Takken W (2018). Keeping track of mosquitoes: A review of tools to track, record and analyse mosquito flight. Parasites & Vectors. 11.10.1186/s13071-018-2735-6.
Whitehorn LJ , Hawkes FM and Dublon IAN (2013). Superplot3d: An open source GUI tool for 3d trajectory visualisation and elementary processing. Source Code for Biology and Medicine 8, 19; https://doi.org/10.1186/1751-0473-8-19