Oral presentations
This page contains a list of all oral presentations in symposia and free paper sessions. An award will be given for the best student presentation.
For Posters, Demonstrations, Tutorials and Keynote speakers, see the appropriate pages.
For an overview of the schedule, see the program schedule page.
The Proceedings are here.
| # | authors | title | Session name |
| 1 | Fan Xu | Do Foster Mothers from Socially Hierarchical Primate Species “Selfishly” Adopt Orphans? | Human & primate behavior |
| 5 | Andre Brown | Syntax in C. elegans locomotion | Dynamical representations of animal behavior – why and how? |
| 7 | Penny Hawkins | Environmental Enrichment and Data Quality: Results of a Global Survey | Animal welfare |
| 12 | Helen Proctor and Gemma Carder | Measuring positive emotions in dairy cows using ear postures | Animal welfare |
| 14 | Maurizio Casarrubea, Fabiana Faulisi, Aurora Cudia, Dario Cancemi, Filippina Sorbera, Magnus S. Magnusson, Maurizio Cardaci and Giuseppe Crescimanno | Temporal structure of rat behavior in the social interaction test | Rodent Social Behavior |
| 15 | Shinnosuke Nakayama, Kate Laskowski, Peer Doering-Arjes, Thomas Klefoth and Robert Arlinghaus | Long-term behavioural repeatability in wild Eurasian perch (Perca fluviatilis) in a natural lake: a high-resolution biotelemetry study | Tracking animals in social groups |
| 16 | Marc Naguib and Lysanne Snijders | Automatized tracking of free-ranging wild song birds using the Encounternet | Tracking animals in social groups |
| 17 | Oliver Schreer, Stefano Masneri, Harald Skomroch and Hedda Lausberg | Coding Hand Movement Behavior and Gesture with NEUROGES Supported by Automatic Video Analysis | Video analysis |
| 18 | T. Bas Rodenburg and Marc Naguib | Tracking individual laying hens in group housing | Tracking animals in social groups |
| 20 | Erica van Herpen, Tian Yu, Eva van den Broek and Hans van Trijp | Using a virtual grocery store to simulate shopping behaviour | Measuring human behavior in 3D virtual environments |
| 21 | David Labbe, Aurore Ferrage and Nathalie Martin | An implicit behavioral approach to understand user satisfaction while preparing and consuming food at home | Measuring eating behavior |
| 22 | Suzanne Peters, Ilona Pinter, Raymond de Heer, Johanneke van der Harst and Berry Spruijt | Automated Classification of Rat Social Behavior | Rodent Social Behavior |
| 23 | Andries Ter Maat | Miniature wireless microphones reveal vocal relationships in a group of small laboratory animals. | Tracking animals in social groups |
| 24 | Matthijs Noordzij and Marleen Laroy-Noordzij | MoodRadar-DAVID: Facilitating Insightful Care by Combining Caretaker Expertise and Real Time Insight in Electrodermal Fluctuations | Ambulatory skin conductance |
| 25 | Iris J.M.M. Boumans, Gert Jan Hofstede, Imke J.M. De Boer and Eddie A.M. Bokkers | Modeling feeding behavior and associated welfare and productivity of pigs: an agent-based approach | Tracking animals in social groups |
| 26 | Arthur Truong, Hugo Boujut and Titus Zaharia | Laban movement analysis for action recognition | Human behaviour recognition from video |
| 29 | Jorrit Kuipers | Multi variable strategy reduces symptoms of simulator sickness | Measuring human behavior in 3D virtual environments |
| 33 | Wendie Uitterhoeve | Measuring behaviour in a manoeuvring simulator | Measuring human behavior in 3D virtual environments |
| 35 | Lisa Thiele, Martin Atzmüller, Simone Kauffeld and Gerd Stumme | Subjective versus objective captured Social Networks: Comparing standard self-report questionnaire data with observational RFID technology data | Human & primate behavior |
| 37 | Kees Nieuwenhuis | From 2D to 3D in ATC? Can operators be trained? | Measuring human behavior in 3D virtual environments |
| 38 | Kwabena Ofei, Michal Dobroczynsk, Mette Holst, Henrik Rasmussen and Bent Mikkelsen | The Dietary Intake Monitoring System (DIMS) - an Innovative Device for Capturing Patient’s Food Choice, Food Intake and Plate Waste in a Hospital Setting | Measuring eating behavior |
| 39 | Esther Remmelink, Maarten Loos, Guus Smit and Matthijs Verhage | A novel task to assess reversal learning in mice in a home cage environment | Rodent behavior |
| 40 | Ioannis Ioakimidis, Mona Tang Bach, Billy Langlet and Per Södersten | Objective Measures of Individual Eating Styles across Different Food and Meal Types. | Measuring eating behavior |
| 42 | Bent Egberg Mikkelsen, Anders K. Lyseen, Michal Dobroczynski and Henning Sten Hansen | Behavioural Nutrition & Big Data: How Geodata, Register Data & GPS, Mobile Positioning, Wi-Fi, Bluetooth & Thermal Cameras Can Contribute to the study of human food behaviour | Human & primate behavior |
| 43 | John Schavemaker, Saskia Koldijk, Leon Wiertz, Suzan Verberne, Maya Sappelli, Rianne Kaptein and Erik Boertjes | Fishualization: a group feedback display | Smart reasoning systems to analyse human behavior |
| 44 | Yair Wexler, Ilan Golani, Liad Shekel and Yoav Benjamini | Quantifying exploratory behavior in mice: the vertical dimension | Dynamical representations of animal behavior – why and how? |
| 45 | Edda Bild and Matt Coler | Habitats Assen Pilot: Testing Methods for Exploring the Correlation between Sound, Morphology and Behavior | Emotions |
| 46 | Ilan Golani, Yair Wexler and Yoav Benjamini | The demand for replicability of behavioral result: from burden to asset | The replicability of measuring behavior |
| 48 | Neri Kafkafi, Tal Lahav and Yoav Benjamini | What’s Always Wrong with my Mouse? | The replicability of measuring behavior |
| 49 | Yoav Benjamini, Tal Lahav and Neri Kafkafi | Estimating Replicability of Behavioral Phenotyping Results in a Single Laboratory | The replicability of measuring behavior |
| 50 | Yorick Holkamp and John Schavemaker | A Comparison of Human and Machine Learning-based Accuracy for Valence Classification of Subjects in Video Fragments | Smart reasoning systems to analyse human behavior |
| 52 | Molly Bogue and Elissa Chesler | Mouse Phenome Database: A resource to address phenotypic heterogeneity, research reproducibility and replicability | The replicability of measuring behavior |
| 54 | Marianna Munafò, Daniela Palomba and Marco Casarotti | Biofeedback protocols for stress management in high-performance work environments | Smart reasoning systems to analyse human behavior |
| 55 | Maurizio Mauri, Mauro Ferraresi, Vincenzo Russo, Andrea Ciceri, Giulia Songa, Francesco Onorati and Fabiola Sirca | Integration of traditional and innovative methods in studying adv effectiveness via paper, tablet and website: a neuromarketing experiment | Eye-Tracking, Facial expression analyses, …consumers |
| 56 | Anna Missaglia, Maurizio Mauri, Annalisa Oppo and Vincenzo Russo | The impact of emotions on recall: a psychophysiological study on social ads | Eye-Tracking, Facial expression analyses, …consumers |
| 57 | Maurizio Mauri, Andrea Ciceri, Giluia Songa, Fabiola Sirca, Francesco Onorati and Vincenzo Russo | The effects of social communication: a research study on neuroscientific techniques application | Eye-Tracking, Facial expression analyses, …consumers |
| 58 | Jorrit Kuipers | Automation of training and assessment with DATA Centred Design(DDT) | Measuring human behavior in 3D virtual environments |
| 59 | Dara Orbach, Theresa Kirchner and Bernd Würsig | Mating Behaviors of Free-Ranging Dusky Dolphins (Lagenorhynchus obscurus) | Fish behavior |
| 60 | Bent Egberg Mikkelsen and Michal Dobroczynski | The potential of the Intelligent Buffet in measuring food intake in a laboratory setting | Measuring eating behavior |
| 63 | Martin Lankheet, Twan Stoffers and Bart Pollux | Automated analysis of eye-body coordination during prey captures by newborn life bearing fish. | Fish behavior |
| 64 | Marc Bracke, Aleksandra Daskalova, Hans van de Vis and Egbert Lambooij | Measuring consciousness in turbot (Scophthalmus maximus) and common sole (Solea solea) subjected to electrical stunning before slaughter | Fish behavior |
| 65 | Alex Gomez-Marin, Efrat Oron, Anna Gakamsky, Dan Valente, Yoav Benjamini and Ilan Golani | Is the dynamic coordination between translation and rotation during the shutdown and build up of locomotor behavior homologous in insects and vertebrates? | Dynamical representations of animal behavior – why and how? |
| 66 | Marc Bracke and Karlijn Ettema | Pigs suffering from injurious behaviours like flank biting and tail biting are more interested in manipulating a novel rope than uninjured control animals | Animal welfare |
| 67 | Rafal Kocielnik | LifelogExplorer: A tool for visual exploration of ambulatory skin conductance measurements in context | Ambulatory skin conductance |
| 69 | Diego Sona, Matteo Zanotto, Francesco Papaleo and Vittorio Murino | Automated Discovery of Behavioural Patterns in Rodents | Rodent Social Behavior |
| 72 | John Schavemaker, Emmanuel Thomas and Anton Havekes | Real-time classification of gorilla video segments in affective categories using crowd-sourced annotations | Video analysis |
| 73 | Hans Skov-Petersen and Jette Bredahl Jacobsen | Making choices in space | Human & primate behavior |
| 74 | Jacques Terken and Qonita Shahab | Design and Evaluation of HMI Concepts for Cooperative Adaptive Cruise Control | Measuring human behavior in 3D virtual environments |
| 75 | Nico van der Aa, Coert van Gemeren, Lucas Noldus and Remco Veltkamp | Articulated Tracking of Humans by Video Technology | Human behaviour recognition from video |
| 76 | Ewout Meijer | The Use of Skin Conductance in the Detection of Deception | Ambulatory skin conductance |
| 78 | Oliver Stiedl, Torben Hager, René F. Jansen, Anton W. Pieneman, Suriya N. Mannivanan, Ilan Golani, August B. Smit and Matthijs Verhage | Home cage-based long-term monitoring of fear in mice: novel approach to determine individual differences in risk assessment and avoidance | Dynamical representations of animal behavior – why and how? |
| 83 | Lars Lewejohann and Vanessa Kloke | The difference is droll – Towards a cognitive bias test in mice | Rodent behavior |
| 84 | Iris Hovens, Regien Schoemaker, Eddy van der Zee and Barbara van Leeuwen | Unraveling the Role of Neuroinflammation in Surgery-induced Cognitive Impairment | Measuring effects of neuroinflammation on behaviour |
| 85 | Christopher Pryce, Damiano Azzinnari, Giorgio Bergamini, Federica Klaus, Flurin Cathomas, Rene Fuertig, Angelo Ceci and Bastian Hengerer | Measuring depression-relevant behavioural states in mouse models for the inflammation hypothesis of depression | Measuring effects of neuroinflammation on behaviour |
| 86 | Aye Mu Myint | Effects of inflammatory markers on the behaviour in depressed patients | Measuring effects of neuroinflammation on behaviour |
| 87 | Tom Deboer | Circadian and Homeostatic Sleep Regulation: Measuring Clock - Homeostat Interactions | Timing of behaviour: behavioural changes caused by the ultradian and circadian systems |
| 89 | Ronald Poppe and Mark Ter Maat | Observing human behaviour to identify risk in task performance | Human behaviour recognition from video |
| 91 | Varun Kakra, Nico van der Aa, Lucas Noldus and Oliver Amft | A Multimodal Benchmark Tool for Automated Eating Behaviour Recognition | Human behaviour recognition from video |
| 93 | Charlotte Burn | Social media offers new insights into human and animal behaviour: how to harness them scientifically | Video analysis |
| 94 | Lilli Frondelius, Matti Pastell and Jaakko Mononen | Validation of the TrackLab positioning system in a cow barn environment | Tracking animals in social groups |
| 99 | Eco De Geus, Annebet Gerssen-Goedhart and Gonneke Willemsen | Comparing cardiac and skin sympathetic nervous system activity | Ambulatory skin conductance |
| 101 | Ilaria Fontana, Emanuela Tullo, Andy Butterworth and Marcella Guarino | Broiler vocalisation analysis used to predict growth | Animal welfare |
| 102 | Tobias Heffelaar, Renkske Landman, Menno Merts, Jasper Michiel van Hemert, Arjan Stuiver and Lucas Noldus | Driver state estimation: from simulation to the real world | Measuring human behavior in 3D virtual environments |
| 104 | Tengqi Ye, Rami Albatal and Cathal Gurrin | Real-time Lifelogging for Behavioural Analysis using Google Glass | Smart reasoning systems to analyse human behavior |
| 105 | Daniel Belanche, Carlos Flavian and Alfredo Perez-Rueda | The influence of arousal on advertising effectiveness | Eye-Tracking, Facial expression analyses, …consumers |
| 106 | Balázs Péter Hámornik, Anita Komlódi, Máté Köles and Károly Hercegfi | Studying the Features of Collaboration in the VirCa Immersive 3D Environment | Measuring human behavior in 3D virtual environments |
| 109 | Jan van Gemert, John Schavemaker and Koen Bonenkamp | Automatic Statistics Extraction for Amateur Soccer Videos | Video analysis |
| 112 | Justin Mufford, Mark Paetkau, Nancy Flood, Gilly Regev-Shoshani, Christopher Miller and John Church | The Development of A Non-Invasive Behavioral Model of Thermal Heat Stress In Laboratory Mice (Mus musculus) | Video analysis |
| 113 | Maitreyi Sur, Andrew K. Skidmore, Tiejun Wang, Klaus-Michael Exo, Bruno Ens and Albertus G. Toxopeus | Cross wavelet analysis to study periodic behaviour of animals in relation to environmental cues | Timing of behaviour: behavioural changes caused by the ultradian and circadian systems |
| 114 | Pavel Itskov, Jose-Maria Moreira, Ekaterina Vinnik, Goncalo Lopes, Steve Safarik, Michael Dickinson and Carlos Ribeiro | Automatic high throughput measurement of feeding behavior in Drosophila | Dynamical representations of animal behavior – why and how? |
| 115 | Henk Nijman, Peter de Looff, Erik Kuijpers, Joost à Campo, Mariëlle Stevens, Manon Budy, Paulien Ligtvoet and Martin Ouwerkerk | Watch it!; a study into the associations between skin conductance and aggressive behavior | Ambulatory skin conductance |
| 117 | Matei Capatu, Georg Regal, Johann Schrammel, Elke Mattheiss, Mark Kramer, Nikolaos Batalas and Manfred Tscheligi | Context- and Time-Triggered In-Situ Questionnaires on a Mobile Phone | Smart reasoning systems to analyse human behavior |
| 125 | Ying Jiang and Detlef Ruschin | Measuring facial expression and emotional experience under diverse social context in a negative emotional setting | Emotions |
| 126 | Ysbrand D. van der Werf and Jan B.F. van Erp | Monitoring the Physiology of the Creative Process. | Emotions |
| 127 | Greg Stephens | Sampling the movement phenospace: Towards a biophysics of behavior in the wiggling of C. elegans. | Dynamical representations of animal behavior – why and how? |
| 129 | Kristin Branson | JAABA: An interactive machine learning system for automatic annotation of animal behavior | Rodent Social Behavior |
| 130 | Tomás Cruz and Eugenia Chiappe | Locomotion in tethered Drosophila melanogaster through virtual worlds | Dynamical representations of animal behavior – why and how? |
| 131 | Asma Motiwala, Thiago Gouvea, Tiago Monteiro, Christian Machens and Joe Paton | Quantifying continuous behavior to account for neural variability | Dynamical representations of animal behavior – why and how? |
| 132 | Verónica M Corrales C, Aldo A Faisal and Carlos Ribeiro | Deconstructing the value-based serial decision making process in Drosophila foraging | Dynamical representations of animal behavior – why and how? |
| 133 | Cornelis Kees Mulder, Menno Gerkema and Eddy Van Der Zee | Time-Place Learning in Mice: A circadian system dependent learning and memory task | Timing of behaviour: behavioural changes caused by the ultradian and circadian systems |
| 135 | Frank Van Langevelde, Anil Shrestha, Sip Van Wieren, Steven De Bie and Herbert Prins | Activity pattern relates to body temperature variation of differently sized South African antelopes | Timing of behaviour: behavioural changes caused by the ultradian and circadian systems |
| 136 | Fabrice de Chaumont, Sylvie Granon and Jean-Christophe Olivo-Marin | Video analysis of social interactions in mice: an integrated solution | Rodent Social Behavior |
| 137 | Leonie Gouweleeuw, Uli Eisel, Pieter Naude and Regien Schoemaker | The role of Neutrophil Gelatinase Associated Lipocalin in linking Depression and Heart Failure | Measuring effects of neuroinflammation on behaviour |
| 138 | Ben Krose, Tim Van Oosterhout and Gwenn Englebienne | Video Surveillance for Behaviour Monitoring in Home Health Care | Human behaviour recognition from video |
| 139 | Remy Manuel, Marnix Gorissen, Lars Ebbesson, Jan Zethof, Hans van de Vis, Gert Flik and Ruud van den Bos | Inhibitory avoidance learning in zebrafish (Danio rerio) | Timing of behaviour: behavioural changes caused by the ultradian and circadian systems |
| 140 | Per Södersten | Fat Thoughts and Fat Content Do Not Affect Eating Behavior in Women | Measuring eating behavior |
| 151 | René de Wijk and Stefanie Kremer | Measuring Food Behavior in the Restaurant of the Future | Measuring eating behavior |
| 152 | Eric Detrait | Optimization and pharmacological validation of a set shifting procedure for assessing executive function in rat | Rodent behavior |
| 153 | Karan Sharma | Continuous Affect State Annotation using a Joystick-based User Interface | Emotions |
| 154 | Peter Pohl | The Science Behind Measuring Behavior | Human & primate behavior |
| 155 | Agnes Giboreau | How to use a Living Lab restaurant to study satiety and food intake in a real meal situation ? | Measuring eating behavior |
| 157 | Remco Kuijper and Egon L. van den Broek | Unraveling presence via video games | Eye-Tracking, Facial expression analyses, …consumers |
You can download the Program Book here. Delegates will also receive a printed copy.