@misc{KnorrGravotGordyetal., author = {Knorr, Alexander G. and Gravot, C{\´e}line M. and Gordy, Clayton and Glasauer, Stefan and Straka, Hans}, title = {I spy with my little eye: a simple behavioral assay to test color sensitivity on digital displays}, series = {Biology Open}, volume = {7}, journal = {Biology Open}, number = {10}, issn = {2046-6390}, doi = {10.1242/bio.035725}, pages = {6}, language = {en} } @misc{LehnenRamaioliHenningsenetal., author = {Lehnen, Nadine and Ramaioli, Cecilia and Henningsen, Peter and Glasauer, Stefan}, title = {An experimental litmus test of the emerging hypothesis that persistent physical symptoms can be explained as perceptual dysregulation}, series = {Journal of Psychosomatic Research}, volume = {114}, journal = {Journal of Psychosomatic Research}, issn = {1879-1360}, doi = {10.1016/j.jpsychores.2018.08.007}, pages = {15 -- 17}, language = {en} } @misc{XiangSeemungalGlasauer, author = {Xiang, Min and Seemungal, Barry M. and Glasauer, Stefan}, title = {Quantitative postural models as biomarkers of balance in Parkinson's disease}, series = {Brain}, volume = {141}, journal = {Brain}, number = {10}, issn = {0006-8950}, doi = {10.1093/brain/awy250}, pages = {2824 -- 2827}, language = {en} } @misc{GlasauerDieterichBrandt, author = {Glasauer, Stefan and Dieterich, Marianne and Brandt, Thomas}, title = {Neuronal network-based mathematical modeling of perceived verticality in acute unilateral vestibular lesions: from nerve to thalamus and cortex}, series = {Journal of Neurology}, volume = {265}, journal = {Journal of Neurology}, number = {Supplement 1}, issn = {1432-1459}, doi = {10.1007/s00415-018-8909-5}, pages = {112}, language = {en} } @misc{ChenGlasauerMuelleretal., author = {Chen, Siyi and Glasauer, Stefan and M{\"u}ller, Hermann J. and Conci, Markus}, title = {Surface filling-in and contour interpolation contribute independently to Kanizsa figure formation}, series = {Journal of Experimental Psychology}, volume = {44}, journal = {Journal of Experimental Psychology}, number = {9}, issn = {1939-1277}, doi = {10.1037/xhp0000540}, pages = {1399 -- 1413}, language = {en} } @misc{SalmasiLoebelGlasaueretal., author = {Salmasi, Mehrdad and Loebel, Alex and Glasauer, Stefan and Stemmler, Martin}, title = {Short-term synaptic depression can increase the rate of information transfer at a release site}, series = {PLoS Computational Biology}, volume = {15}, journal = {PLoS Computational Biology}, issn = {1553-7358}, doi = {10.1371/journal.pcbi.1006666}, pages = {21}, abstract = {The release of neurotransmitters from synapses obeys complex and stochastic dynamics. Depending on the recent history of synaptic activation, many synapses depress the probability of releasing more neurotransmitter, which is known as synaptic depression. Our understanding of how synaptic depression affects the information efficacy, however, is limited. Here we propose a mathematically tractable model of both synchronous spike-evoked release and asynchronous release that permits us to quantify the information conveyed by a synapse. The model transits between discrete states of a communication channel, with the present state depending on many past time steps, emulating the gradual depression and exponential recovery of the synapse. Asynchronous and spontaneous releases play a critical role in shaping the information efficacy of the synapse. We prove that depression can enhance both the information rate and the information rate per unit energy expended, provided that synchronous spike-evoked release depresses less (or recovers faster) than asynchronous release. Furthermore, we explore the theoretical implications of short-term synaptic depression adapting on longer time scales, as part of the phenomenon of metaplasticity. In particular, we show that a synapse can adjust its energy expenditure by changing the dynamics of short-term synaptic depression without affecting the net information conveyed by each successful release. Moreover, the optimal input spike rate is independent of the amplitude or time constant of synaptic depression. We analyze the information efficacy of three types of synapses for which the short-term dynamics of both synchronous and asynchronous release have been experimentally measured. In hippocampal autaptic synapses, the persistence of asynchronous release during depression cannot compensate for the reduction of synchronous release, so that the rate of information transmission declines with synaptic depression. In the calyx of Held, the information rate per release remains constant despite large variations in the measured asynchronous release rate. Lastly, we show that dopamine, by controlling asynchronous release in corticostriatal synapses, increases the synaptic information efficacy in nucleus accumbens.}, language = {en} } @misc{MacNeilageGlasauer, author = {MacNeilage, Paul R. and Glasauer, Stefan}, title = {Perceiving gravity: the role of the cerebellum}, series = {Current Biology}, volume = {28}, journal = {Current Biology}, number = {22}, issn = {1879-0445}, doi = {10.1016/j.cub.2018.09.053}, pages = {1296 -- 1298}, language = {en} } @misc{Glasauer, author = {Glasauer, Stefan}, title = {Ferr{\`e}, Elisa Raffaella (Hrsg.): Vestibular Cognition. Leiden [u.a.] Boston : Brill, 2017}, series = {Perception}, volume = {47}, journal = {Perception}, number = {7}, issn = {1468-4233}, pages = {799 -- 801}, language = {en} } @misc{KupferbergIacoboniFlanaginetal., author = {Kupferberg, Aleksandra and Iacoboni, Marco and Flanagin, Virginia and Huber, Markus and Kasparbauer, Anna and Baumgartner, Thomas and Hasler, Gregor and Schmidt, Florian and Borst, Christoph and Glasauer, Stefan}, title = {Fronto-parietal coding of goal-directed actions performed by artificial agents}, series = {Human Brain Mapping}, volume = {39}, journal = {Human Brain Mapping}, number = {3}, issn = {1097-0193}, doi = {10.1002/hbm.23905}, pages = {1145 -- 1162}, language = {en} } @misc{ChoiGlasauerZeeetal., author = {Choi, Jeong-Yoon and Glasauer, Stefan and Zee, David S. and Kim, Ji-Soo}, title = {Characteristics and Mechanism of Apogeotropic Central Positional Nystagmus}, series = {Brain}, volume = {141}, journal = {Brain}, number = {3}, issn = {1460-2156}, doi = {10.1093/brain/awx381}, pages = {762 -- 775}, language = {en} } @misc{DieterichGlasauerBrandt, author = {Dieterich, Marianne and Glasauer, Stefan and Brandt, Thomas}, title = {Why acute unilateral vestibular midbrain lesions rarely manifest with rotational vertigo: a clinical and modelling approach to head direction cell function.}, series = {Journal of Neurology}, volume = {265}, journal = {Journal of Neurology}, number = {5}, issn = {0340-5354}, doi = {10.1007/s00415-018-8828-5}, pages = {1184 -- 1198}, language = {en} } @misc{OguzZhouGlasaueretal., author = {Oguz, Ozgur S. and Zhou, Zhehua and Glasauer, Stefan and Wollherr, Dirk}, title = {An Inverse Optimal Control Approach to Explain Human Arm Reaching Control Based on Multiple Internal Models}, series = {Scientific Reports}, volume = {8}, journal = {Scientific Reports}, issn = {2045-2322}, doi = {10.1038/s41598-018-23792-7}, pages = {17}, language = {en} } @misc{AnggrainiGlasauerWunderlich, author = {Anggraini, Dian and Glasauer, Stefan and Wunderlich, Klaus}, title = {Neural signatures of reinforcement learning correlate with strategy adoption during spatial navigation}, series = {Scientific Reports}, volume = {8}, journal = {Scientific Reports}, issn = {2045-2322}, doi = {10.1038/s41598-018-28241-z}, pages = {14}, language = {en} } @misc{HausmannDaumerMacNeilageetal., author = {Hausmann, Peter and Daumer, Martin and MacNeilage, Paul R. and Glasauer, Stefan}, title = {Ecological momentary assessment of head motion: Towards normative data of head stabilization}, series = {Frontiers in Human Neuroscience}, volume = {13}, journal = {Frontiers in Human Neuroscience}, issn = {1662-5161}, doi = {10.3389/fnhum.2019.00179}, pages = {13}, abstract = {Head stabilization is fundamental for balance during locomotion but can be impaired in elderly or diseased populations. Previous studies have identified several parameters of head stability with possible diagnostic value in a laboratory setting. Recently, the ecological validity of measures obtained in such controlled contexts has been called into question. The aim of this study was to investigate the ecological validity of previously described parameters of head stabilization in a real-world setting. Ten healthy subjects participated in the study. Head and trunk movements of each subject were recorded with inertial measurement units (IMUs) for a period of at least 10 h. Periods of locomotion were extracted from the measurements and predominant frequencies, root mean squares (RMSs) and bout lengths were estimated. As parameters of head stabilization, attenuation coefficients (ACs), harmonic ratios (HRs), coherences, and phase differences were computed. Predominant frequencies were distributed tightly around 2 Hz and ACs, HRs, and coherences exhibited the highest values in this frequency range. All head stability parameters exhibited characteristics consistent with previous reports, although higher variances were observed. These results suggest that head stabilization is tuned to the 2 Hz fundamental frequency of locomotion and that previously described measures of head stability could generalize to a real-world setting. This is the first study to address the ecological validity of these measures, highlighting the potential use of head stability parameters as diagnostic tools or outcome measures for clinical trials. The low cost and ease of use of the IMU technology used in this study could additionally be of benefit for a clinical application.}, language = {en} } @misc{Glasauer, author = {Glasauer, Stefan}, title = {Sequential Bayesian updating as a model for human perception}, series = {Progress in Brain Research}, volume = {249}, journal = {Progress in Brain Research}, issn = {1875-7855}, doi = {10.1016/bs.pbr.2019.04.025}, pages = {3 -- 18}, abstract = {Sequential Bayesian updating has been proposed as model for explaining various systematic biases in human perception, such as the central tendency, range effects, and serial dependence. The present chapter introduces to the principal ideas behind Bayesian updating for the random-change model introduced previously and shows how to implement sequential updating using the exact method via probability distributions, the Kalman filter for Gaussian distributions, and a particle filter for approximate sequential updating. Finally, it is demonstrated how to couple perception to action by selecting an appropriate action based on the posterior distribution that results from sequential updating.}, language = {en} } @misc{SalmasiStemmlerGlasaueretal., author = {Salmasi, Mehrdad and Stemmler, Martin and Glasauer, Stefan and Loebel, Alex}, title = {Synaptic Information Transmission in a Two-State Model of Short-Term Facilitation}, series = {Entropy}, volume = {21}, journal = {Entropy}, number = {8}, issn = {1099-4300}, doi = {10.3390/e21080756}, pages = {13}, abstract = {Action potentials (spikes) can trigger the release of a neurotransmitter at chemical synapses between neurons. Such release is uncertain, as it occurs only with a certain probability. Moreover, synaptic release can occur independently of an action potential (asynchronous release) and depends on the history of synaptic activity. We focus here on short-term synaptic facilitation, in which a sequence of action potentials can temporarily increase the release probability of the synapse. In contrast to the phenomenon of short-term depression, quantifying the information transmission in facilitating synapses remains to be done. We find rigorous lower and upper bounds for the rate of information transmission in a model of synaptic facilitation. We treat the synapse as a two-state binary asymmetric channel, in which the arrival of an action potential shifts the synapse to a facilitated state, while in the absence of a spike, the synapse returns to its baseline state. The information bounds are functions of both the asynchronous and synchronous release parameters. If synchronous release facilitates more than asynchronous release, the mutual information rate increases. In contrast, short-term facilitation degrades information transmission when the synchronous release probability is intrinsically high. As synaptic release is energetically expensive, we exploit the information bounds to determine the energy-information trade-off in facilitating synapses. We show that unlike information rate, the energy-normalized information rate is robust with respect to variations in the strength of facilitation.}, language = {en} } @misc{GlasauerDieterichBrandt, author = {Glasauer, Stefan and Dieterich, Marianne and Brandt, Thomas}, title = {Computational neurology of gravity perception involving semicircular canal dysfunction in unilateral vestibular lesions}, series = {Progress in Brain Research}, volume = {248}, journal = {Progress in Brain Research}, issn = {1875-7855}, doi = {10.1016/bs.pbr.2019.04.010}, pages = {303 -- 317}, abstract = {Unilateral peripheral vestibular lesions not only lead to vertigo, nystagmus and imbalance, but also to a bias in the perception of verticality, which can be measured as tilt of the subjective visual vertical (SVV). Previously, this tilt has been assumed to be caused by a residual otolith bias, for example, because unequal numbers of active haircells on both sides of the utricular striola might result in an imbalance of the firing rates of central otolith neurons. Here we propose that a tilt of the subjective visual vertical might as well be caused by a vertical semicircular canal bias in the roll axis after unilateral peripheral lesions. The canal bias, acting similar to angular velocity stimuli, influences the SVV via the central gravity estimator, which under normal circumstances resolves a perceptual tilt-translation ambiguity. To illustrate our hypothesis, we compare model predictions to data on SVV measurements in patients with unilateral vestibular lesions while being tilted or being rotated eccentrically. We further embed the model of peripheral processing in a neural network that implements the idiotropic bias and represents the direction of gravity as population code in a three dimensional spherical topography.}, language = {en} } @misc{LehnenSchroederHenningsenetal., author = {Lehnen, Nadine and Schr{\"o}der, Lena and Henningsen, Peter and Glasauer, Stefan and Ramaioli, Cecilia}, title = {Deficient head motor control in functional dizziness: Experimental evidence of central sensory-motor dysfunction in persistent physical symptoms}, series = {Progress in Brain Research}, volume = {249}, journal = {Progress in Brain Research}, issn = {1875-7855}, doi = {10.1016/bs.pbr.2019.02.006}, pages = {385 -- 400}, abstract = {Understanding the mechanisms of symptoms that are insufficiently explained by organic dysfunction remains challenging. Recently, it has been proposed that such "functional symptoms" are based on erroneous sensory processing in the central nervous system (CNS), with internal expectations dominating sensory inputs. In a pilot study, we used a head motor control set-up to assess the interplay between sensory input and expectation on the example of patients with functional dizziness. Eight patients and 11 age-matched healthy controls performed large active eye-head gaze shifts towards visual targets in the natural situation and with the head moment of inertia 3.3-fold increased. The latter induces head oscillations and the expected sensory outcome of the movement, estimated in the CNS, does not match the actual sensory input. Head oscillations were assessed in patients and in healthy subjects and compared to prior results from patients with organic disease (vestibular loss and cerebellar ataxia). Head oscillations in patients with functional dizziness were different from those of healthy subjects (F(1,17) = 27.26, P < 0.001, partial η2 = 0.62), and similar to those of patients with cerebellar ataxia, and with vestibular loss (F(2,19) = 0.56, P = 0.58). Even in the natural, unweighted, condition, head oscillations were higher in functional dizziness patients than in healthy subjects (P = 0.001). Since an extensive work-up failed to demonstrate any explanatory peripheral vestibular, motor, or cerebellar organic dysfunction, these motor control deficits are a first indication of erroneous interplay between expectations and sensory input in the CNS that could account for persistent physical symptoms.}, language = {en} } @misc{GlasauerShi, author = {Glasauer, Stefan and Shi, Zhuanghua}, title = {Central Tendency as Consequence of Experimental Protocol}, series = {2019 Conference on Cognitive Computational Neuroscience, 13-16 September 2019, Berlin, Germany}, journal = {2019 Conference on Cognitive Computational Neuroscience, 13-16 September 2019, Berlin, Germany}, address = {Berlin}, doi = {10.32470/CCN.2019.1148-0}, pages = {268 -- 271}, abstract = {Perceptual biases found experimentally are often taken to indicate that we should be cautious about the veridicality of our perception in everyday life. Here we show, to the contrary, that such biases may be a consequence of the experimental protocol that cannot be generalized to other situations. We show that the central tendency, an overestimation of small magnitudes and underestimation of large ones, strongly depends on stimulus order. If the same set of stimuli is, rather than being presented in the usual randomized order, is applied in an order that displays only small changes from one trial to the next, the central tendency decreases significantly. This decrease is predicted by a probabilistic model that assumes iterative trial-wise updating of a prior of the stimulus distribution. We conclude that the commonly used randomization of stimuli introduces systematic perceptual biases that may not relevant in everyday life.}, language = {en} } @misc{DietrichHeidgerSchnieppetal., author = {Dietrich, Haike and Heidger, F. and Schniepp, Roman and MacNeilage, Paul R. and Glasauer, Stefan and W{\"u}hr, Max}, title = {Head motion predictability explains activity-dependent suppression of vestibular balance control}, series = {Scientific Reports}, volume = {10}, journal = {Scientific Reports}, issn = {2045-2322}, doi = {10.1038/s41598-019-57400-z}, abstract = {Vestibular balance control is dynamically weighted during locomotion. this might result from a selective suppression of vestibular inputs in favor of a feed-forward balance regulation based on locomotor efference copies. The feasibility of such a feed-forward mechanism should however critically depend on the predictability of head movements (HMP) during locomotion. To test this, we studied in 10 healthy subjects the differential impact of a stochastic vestibular stimulation (SVS) on body sway (center-of-pressure, COP) during standing and walking at different speeds and compared it to activity-dependent changes in HMp. SVS-cop coupling was determined by correlation analysis in frequency and time domains. HMP was quantified as the proportion of head motion variance that can be explained by the average head trajectory across the locomotor cycle. SVS-COP coupling decreased from standing to walking and further dropped with faster locomotion. Correspondingly, HMP increased with faster locomotion. Furthermore, SVS-COP coupling depended on the gait-cycle-phase with peaks corresponding to periods of least HMP. These findings support the assumption that during stereotyped human self-motion, locomotor efference copies selectively replace vestibular cues, similar to what was previously observed in animal models.}, language = {en} } @misc{SalmasiGlasauerStemmler, author = {Salmasi, Mehrdad and Glasauer, Stefan and Stemmler, Martin}, title = {Short-term facilitation and neurotransmitter spillover counteract each other in neuronal information transmission}, series = {28th Annual Computational Neuroscience Meeting: CNS*2019}, journal = {28th Annual Computational Neuroscience Meeting: CNS*2019}, issn = {1471-2202}, doi = {10.1186/s12868-019-0538-0}, pages = {155 -- 156}, language = {en} } @misc{Glasauer, author = {Glasauer, Stefan}, title = {Magnitude Estimation}, abstract = {Data from the publication Petzschner FH, Glasauer S (2011) Iterative Bayesian Estimation as an Explanation for Range and Regression Effects: A Study on Human Path Integration. J Neurosci 31(47):17220 -17229. DOI:10.1523/JNEUROSCI.2028-11.2011 Data is stored in two Matlab files. AE_all.mat contains the raw angular estimation data, DE_all.mat the raw distance estimation data for all participants. Each structure in the cell array Data is for one participant and contains pdata (produced distance or angle, that's the stimulus) and rdata (re-produced distance or angle, the response). There are 3x180 values, first dimension are the three ranges used, so Data{1}.pdata(1,:) contains the stimuli for participant 1 and the short range in the angular estimation experiment (given you loaded AE_all.mat).}, language = {en} } @misc{LehnenRadziejWeigeletal., author = {Lehnen, Nadine and Radziej, Katharina and Weigel, Angelika and K{\"a}nel, Roland von and Glasauer, Stefan and Pietron, Victor and Van den Bergh, Omer and L{\"o}we, Bernd and Lehmann, Marco and Henningsen, Peter}, title = {Complementing conceptual models of persistent somatic symptoms with mathematical formalization}, series = {Psychosomatic Medicine}, volume = {82}, journal = {Psychosomatic Medicine}, number = {5}, issn = {1534-7796}, doi = {10.1097/PSY.0000000000000801}, pages = {527 -- 528}, language = {en} } @misc{KostorzFlanaginGlasauer, author = {Kostorz, Kathrin and Flanagin, Virginia and Glasauer, Stefan}, title = {Synchronization between instructor and observer when learning a complex bimanual skill}, series = {Neuroimage}, journal = {Neuroimage}, issn = {1053-8119}, doi = {10.1016/j.neuroimage.2020.116659}, pages = {20}, abstract = {While learning from an instructor by watching a 'how-to' video has become common practice, we know sur- prisingly little about the relation between brain activities in instructor and observers. In this fMRI study we investigated the temporal synchronization between instructor and observers using intersubject correlation in the naturalistic setting of learning to fold origami. Brain activity of the blindfolded instructor during action pro- duction was compared to the observers while they viewed the instructor's video-taped actions. We demonstrate for the first time that the BOLD activity in the instructor's and observer's brain are synchronized while observing and learning a manual complex task with the goal of reproducing it. We can rule out that this synchrony originates from visual feedback. Observers exhibiting higher synchrony with the instructor in the ventral premotor cortex, while viewing the video for the first time, were more successful in reproducing the origami afterwards. Furthermore, changes in instructor-observer synchrony across observational learning sessions occur in cerebellar areas, as well as differences in instructor-observer synchrony between learning and the counting folds, our non- learning control. Not only known cerebellar motor production areas show synchrony, shedding new light on the involvement of the cerebellum in action observation and learning.}, language = {en} } @misc{KutzKolbGlasaueretal., author = {Kutz, Dieter F. and Kolb, Florian P. and Glasauer, Stefan and Straka, Hans}, title = {Somatosensory Influence on Platform-Induced Translational Vestibulo-Ocular Reflex in Vertical Direction in Humans}, series = {Frontiers in Neurology}, volume = {11}, journal = {Frontiers in Neurology}, issn = {1664-2295}, doi = {10.3389/fneur.2020.00332}, pages = {1 -- 10}, abstract = {The vestibulo-ocular reflex (VOR) consists of two components, the rotational VOR (rVOR) elicited by semicircular canal signals and the translational VOR (tVOR) elicited by otolith signals. Given the relevant role of the vertical tVOR in human walking, this study aimed at measuring the time delay of eye movements in relation to whole-body vertical translations in natural standing position. Twenty (13 females and 7 males) healthy, young subjects (mean 25 years) stood upright on a motor-driven platform and were exposed to sinusoidal movements while fixating a LED, positioned at a distance of 50 cm in front of the eyes. The platform motion induced a vertical translation of 2.6 cm that provoked counteracting eye movements similar to self-paced walking. The time differences between platform and eye movements indicated that the subject's timing of the extraocular motor reaction depended on stimulus frequency and number of repetitions. At low stimulus frequencies (<0.8 Hz) and small numbers of repetitions (<3), eye movements were phase advanced or in synchrony with platform movements. At higher stimulus frequencies or continuous stimulation, eye movements were phase lagged by ~40 ms. Interestingly, the timing of eye movements depended on the initial platform inclination. Starting with both feet in dorsiflexion, eye movements preceded platform movements by 137 ms, whereas starting with both feet in plantar flexion eye movement precession was only 19 ms. This suggests a remarkable influence of foot proprioceptive signals on the timing of eye movements, indicating that the dynamics of the vertical tVOR is controlled by somatosensory signals.}, language = {en} } @misc{ShirzhiyanKeihaniFarahietal., author = {Shirzhiyan, Zahra and Keihani, Ahmadreza and Farahi, Morteza and Shamsi, Elham and GolMohammadi, Mina and Mahnam, Amin and Haidari, Mohsen Reza and Jafari, Amir Homayoun}, title = {Toward New Modalities in VEP-Based BCI Applications Using Dynamical Stimuli: Introducing Quasi-Periodic and Chaotic VEP-Based BCI}, series = {Frontiers in Neuroscience}, volume = {14}, journal = {Frontiers in Neuroscience}, issn = {1662-453X}, doi = {10.3389/fnins.2020.534619}, abstract = {Visual evoked potentials (VEPs) to periodic stimuli are commonly used in brain computer interfaces for their favorable properties such as high target identification accuracy, less training time, and low surrounding target interference. Conventional periodic stimuli can lead to subjective visual fatigue due to continuous and high contrast stimulation. In this study, we compared quasi-periodic and chaotic complex stimuli to common periodic stimuli for use with VEP-based brain computer interfaces (BCIs). Canonical correlation analysis (CCA) and coherence methods were used to evaluate the performance of the three stimulus groups. Subjective fatigue caused by the presented stimuli was evaluated by the Visual Analogue Scale (VAS). Using CCA with the M2 template approach, target identification accuracy was highest for the chaotic stimuli (M = 86.8, SE = 1.8) compared to the quasi-periodic (M = 78.1, SE = 2.6, p = 0.008) and periodic (M = 64.3, SE = 1.9, p = 0.0001) stimulus groups. The evaluation of fatigue rates revealed that the chaotic stimuli caused less fatigue compared to the quasi-periodic (p = 0.001) and periodic (p = 0.0001) stimulus groups. In addition, the quasi-periodic stimuli led to lower fatigue rates compared to the periodic stimuli (p = 0.011). We conclude that the target identification results were better for the chaotic group compared to the other two stimulus groups with CCA. In addition, the chaotic stimuli led to a less subjective visual fatigue compared to the periodic and quasi-periodic stimuli and can be suitable for designing new comfortable VEP-based BCIs.}, language = {en} } @incollection{GlasauerKnorr, author = {Glasauer, Stefan and Knorr, Alexander G.}, title = {Physical Nature of Vestibular Stimuli}, series = {The Senses: A Comprehensive Reference, Volume 6: Vestibular System and Balance}, booktitle = {The Senses: A Comprehensive Reference, Volume 6: Vestibular System and Balance}, editor = {Fritzsch, Bernd and Straka, Hans}, edition = {2. Edition}, publisher = {Elsevier}, address = {Amsterdam}, doi = {10.1016/B978-0-12-809324-5.23909-6}, pages = {6 -- 11}, abstract = {The vestibular sensors in the inner ear measure head movement with respect to an inertial frame of reference. The chapter describes the principles of measurement of the vestibular sensors, the physical stimuli that are measured, and specific issues that require central processing. An overview about so-called artificial vestibular stimuli that mimic the effect of natural head movement is provided.}, language = {en} } @incollection{GlasauerMacNeilage, author = {Glasauer, Stefan and MacNeilage, Paul R.}, title = {Computational Rules for Integrating Vestibular and Multi-Modal Motion Signals in the Central Nervous System}, series = {The Senses: A Comprehensive Reference; Volume 6: Vestibular System and Balance}, booktitle = {The Senses: A Comprehensive Reference; Volume 6: Vestibular System and Balance}, editor = {Fritzsch, Bernd and Straka, Hans}, edition = {2. Edition}, publisher = {Elsevier}, address = {Amsterdam}, doi = {10.1016/B978-0-12-809324-5.24262-4}, pages = {445 -- 457}, abstract = {Integration of multi-sensory signals is normally required to infer the properties and states of the external world and of the own body. This applies also to vestibular signals, which, when activated are naturally accompanied by other sensory or self-generated signals. Here, we review computational schemes and normative principles that have been proposed to achieve meaningful signal fusion that allows perception and action in the face of uncertain information.}, language = {en} } @misc{BasserehFleurietMustarietal., author = {Bassereh, Hassan and Fleuriet, J{\´e}rome and Mustari, Michael J. and Glasauer, Stefan}, title = {Linear regression versus information-theoretic approach; efficiencies and deficiencies}, series = {Bernstein Conference 2020, September, 29 - October, 1, 2020}, journal = {Bernstein Conference 2020, September, 29 - October, 1, 2020}, doi = {10.12751/nncn.bc2020.0023}, pages = {1}, language = {en} } @misc{LutfiGlasauerSpittler, author = {Lutfi, Helana and Glasauer, Stefan and Spittler, Thomas}, title = {The healthcare benefits and impact of artificial intelligence applications on behaviour of healthcare users: a structured review of primary literature}, series = {Journal of the International Society for Telemedicine and EHealth}, volume = {8}, journal = {Journal of the International Society for Telemedicine and EHealth}, issn = {2308-0310}, doi = {10.29086/JISfTeH.8.e10}, pages = {1 -- 5}, abstract = {Introduction: Artificial intelligence (AI) is one of the most considered topics of the current time. AI has the power to bring revolutionary improvements to the world of technology not only in the field of computer science but also in other fields like medical sciences. Objectives: This paper assumes the adoption of appropriate AI engineering principals in previous studies, and focusses on providing a structured review of the impact of AI on human society and the individual human being as a technology user. Additionally, it opens a window on how the future will look like in terms of AI and personalised medicine. Methods: The paper employed a qualitative research approach and data were collected through a structured literature review. Twenty-three peer reviewed papers were identified and analysed in relation to their relevance to the study. Results: Previous studies show a positive impact on users' behaviour is expected in supporting their healthcare needs especially in decision-making, personalised treatment and future diseases prediction, and that integrating users in studying AI impact is essential to test possible implications of the technology. Conclusion: Results indicate that without a clear understanding of why patients need AI, or how AI can support individuals with their healthcare needs, it is difficult to visualise the kinds of AI applications that have a meaningful and sustainable impact the daily lives of individuals. Therefore, there is an emerging need to understand the impact of AI technology on users' behaviour to maximise the potential benefits of AI technology.}, language = {en} } @misc{GlasauerHausmannMacNeilage, author = {Glasauer, Stefan and Hausmann, Peter and MacNeilage, Paul R.}, title = {Statistics of natural head motion suggest different head motion priors for rest and movement}, series = {Bernstein Conference 2018}, journal = {Bernstein Conference 2018}, doi = {10.12751/nncn.bc2018.0132}, language = {en} } @misc{GlasauerSalmasiStemmler, author = {Glasauer, Stefan and Salmasi, Mehrdad and Stemmler, Martin}, title = {The synergy between neurotransmitter spillover and asynchronous release in information transmission}, series = {Bernstein Conference 2018}, journal = {Bernstein Conference 2018}, doi = {10.12751/nncn.bc2018.0209}, language = {en} } @misc{BasserehRattayGlasauer, author = {Bassereh, Hassan and Rattay, Frank and Glasauer, Stefan}, title = {A mathematical framework for vesicle release from a retinal bipolar cell}, series = {Bernstein Conference}, journal = {Bernstein Conference}, doi = {10.12751/nncn.bc2019.0209}, language = {en} } @misc{KnorrGravotGlasaueretal., author = {Knorr, Alexander G. and Gravot, C{\´e}line M. and Glasauer, Stefan and Straka, Hans}, title = {Image motion with color contrast suffices to elicit an optokinetic reflex in Xenopus laevis tadpoles}, series = {Scientific Reports}, volume = {11}, journal = {Scientific Reports}, issn = {2045-2322}, doi = {10.1038/s41598-021-87835-2}, abstract = {The optokinetic reflex is a closed-loop gaze-stabilizing ocular motor reaction that minimizes residual retinal image slip during vestibulo-ocular reflexes. In experimental isolation, the reflex is usually activated by motion of an achromatic large-field visual background with strong influence of radiance contrast on visual motion estimation and behavioral performance. The presence of color in natural environments, however, suggests that chromatic cues of visual scenes provide additional parameters for image motion detection. Here, we employed Xenopus laevis tadpoles to study the influence of color cues on the performance of the optokinetic reflex and multi-unit optic nerve discharge during motion of a large-field visual scene. Even though the amplitude of the optokinetic reflex decreases with smaller radiance contrast, considerable residual eye movements persist at the 'point of equiluminance' of the colored stimuli. Given the color motion preferences of individual optic nerve fibers, the underlying computation potentially originates in retinal circuits. Differential retinal ganglion cell projections and associated ocular motor signal transformation might further reinforce the color dependency in conceptual correspondence with head/body optomotor signaling. Optokinetic reflex performance under natural light conditions is accordingly influenced by radiance contrast as well as by the color composition of the moving visual scene.}, language = {en} } @misc{SchroederWerderRamaiolietal., author = {Schr{\"o}der, Lena and Werder, Dina von and Ramaioli, Cecilia and Wachtler, Thomas and Henningsen, Peter and Glasauer, Stefan and Lehnen, Nadine}, title = {Unstable Gaze in Functional Dizziness: A Contribution to Understanding the Pathophysiology of Functional Disorders}, series = {Frontiers in Neuroscience}, volume = {15}, journal = {Frontiers in Neuroscience}, issn = {1662-453X}, doi = {10.3389/fnins.2021.685590}, abstract = {Objective: We are still lacking a pathophysiological mechanism for functional disorders explaining the emergence and manifestation of characteristic, severely impairing bodily symptoms like chest pain or dizziness. A recent hypothesis based on the predictive coding theory of brain function suggests that in functional disorders, internal expectations do not match the actual sensory body states, leading to perceptual dysregulation and symptom perception. To test this hypothesis, we investigated the account of internal expectations and sensory input on gaze stabilization, a physiologically relevant parameter of gaze shifts, in functional dizziness. Methods: We assessed gaze stabilization in eight functional dizziness patients and 11 healthy controls during two distinct epochs of large gaze shifts: during a counter- rotation epoch (CR epoch), where the brain can use internal models, motor planning, and resulting internal expectations to achieve internally driven gaze stabilization; and during an oscillation epoch (OSC epoch), where, due to terminated motor planning, no movement expectations are present, and gaze is stabilized by sensory input alone. Results: Gaze stabilization differed between functional patients and healthy controls only when internal movement expectations were involved [F(1,17) = 14.63, p = 0.001, and partial η2 = 0.463]: functional dizziness patients showed reduced gaze stabilization during the CR (p = 0.036) but not OSC epoch (p = 0.26). Conclusion: While sensory-driven gaze stabilization is intact, there are marked, well- measurable deficits in internally-driven gaze stabilization in functional dizziness pointing at internal expectations that do not match actual body states. This experimental evidence supports the perceptual dysregulation hypothesis of functional disorders and is an important step toward understanding the underlying pathophysiology.}, language = {en} } @misc{GlasauerShi, author = {Glasauer, Stefan and Shi, Zhuanghua}, title = {The origin of Vierordt's law: The experimental protocol matters}, series = {PsyCH Journal}, volume = {10}, journal = {PsyCH Journal}, number = {5}, issn = {2046-0260}, doi = {10.1002/pchj.464}, pages = {732 -- 741}, abstract = {In 1868, Karl Vierordt discovered one type of errors in time perception—an overestimation of short duration and underestimation of long durations, known as Vierordt's law. Here we reviewed the original study in its historical context and asked whether Vierordt's law is a result of an unnatural experimental randomization protocol. Using iterative Bayesian updating, we simulated the original results with high accuracy. Importantly, the model also predicted that a slowly changing random-walk sequence produces less central tendency than a random sequence with the same durations. This was validated by a duration reproduction experiment from two sequences (random and random walk) with the same sampled distribution. The results showed that trial-wise variation influenced the magnitude of Vierordt's law. We concluded that Vierordt's law is caused by an unnatural yet widely used experimental protocol.}, language = {en} } @misc{GlasauerShi, author = {Glasauer, Stefan and Shi, Zhuanghua}, title = {Differences in beliefs about stimulus generation explain individual perceptual biases}, series = {Bernstein Conference 2021, September 21 - 23, 2021}, volume = {2021}, journal = {Bernstein Conference 2021, September 21 - 23, 2021}, doi = {10.12751/nncn.bc2021.p052}, language = {en} } @misc{ShirzhiyanGlasauer, author = {Shirzhiyan, Zahra and Glasauer, Stefan}, title = {Late CNV-P2 amplitude as neural index of time interval perception}, series = {Bernstein Conference 2021, September 21 - 23, 2021}, volume = {2021}, journal = {Bernstein Conference 2021, September 21 - 23, 2021}, doi = {10.12751/nncn.bc2021.p153}, language = {de} } @misc{KostorzFlanaginGlasauer, author = {Kostorz, Kathrin and Flanagin, Virginia and Glasauer, Stefan}, title = {Intersubject synchrony of viewers during naturalistic observational learning of a complex bimanual task}, series = {Neuroimage: Reports}, volume = {2}, journal = {Neuroimage: Reports}, number = {2}, issn = {2666-9560}, doi = {10.1016/j.ynirp.2022.100084}, pages = {18}, abstract = {Watching an instructional video has become a common way to learn a new task. However, we have but a sparse understanding of the neural processes involved during observational learning in naturalistic settings. Recently developed data driven methods for analyzing brain activity provide an opportunity for further investigation. Here, we evaluate intersubject synchrony during fMRI to understand common brain processes during naturalistic observational learning. Participants solitarily watched an instructional video and learned how to fold a paper figure. Three learning runs were sufficient to successfully solve the task. To assess interbrain synchrony, we extended previous principal component (PCA)-based methods to an intersubject principal component analysis (PCA), which offers multiple measures for additional insights into the nature of the synchrony. Using the different metrics of this method, we show a robust synchronous involvement of the action observation execution network (AOEN) in observational learning, between subjects as well as within subjects, regardless of the task or video content. Importantly, additional areas such as the cerebellum, primary motor cortex, control, and sensory integration areas also showed robust synchrony in observational learning. Complimentary to this robust general synchrony, individual regions of the AOEN exhibited task-related differences. Synchrony decreased during the learning process, likely reflecting task state and individual learning strategies. To test the stimulus as a possible source of synchrony, we quantified the temporal structure as the optic flow of the instructional video. Optic flow was strongly related to common activation of the somatomotor areas of the AOEN well beyond visual areas, but could not completely explain synchrony. Thus, although visual motion provides a proxy for meaningful hand actions, our results suggest that intersubject synchrony reflects common cognitive processing during observa- tional learning beyond sensory input.}, language = {en} } @misc{GlasauerShi, author = {Glasauer, Stefan and Shi, Zhuanghua}, title = {Individual beliefs about temporal continuity explain variation of perceptual biases}, series = {Scientific Reports}, volume = {12}, journal = {Scientific Reports}, issn = {2045-2322}, doi = {10.1038/s41598-022-14939-8}, abstract = {Perception of magnitudes such as duration or distance is often found to be systematically biased. The biases, which result from incorporating prior knowledge in the perceptual process, can vary considerably between individuals. The variations are commonly attributed to differences in sensory precision and reliance on priors. However, another factor not considered so far is the implicit belief about how successive sensory stimuli are generated: independently from each other or with certain temporal continuity. The main types of explanatory models proposed so far—static or iterative—mirror this distinction but cannot adequately explain individual biases. Here we propose a new unifying model that explains individual variation as combination of sensory precision and beliefs about temporal continuity and predicts the experimentally found changes in biases when altering temporal continuity. Thus, according to the model, individual differences in perception depend on beliefs about how stimuli are generated in the world.}, language = {en} } @misc{GlasauerStraka, author = {Glasauer, Stefan and Straka, Hans}, title = {Low Gain Values of the Vestibulo-Ocular Reflex Can Optimize Retinal Image Slip}, series = {Frontiers in Neurology}, volume = {13}, journal = {Frontiers in Neurology}, issn = {1664-2295}, doi = {10.3389/fneur.2022.897293}, abstract = {The angular vestibulo-ocular reflex (aVOR) stabilizes retinal images by counter-rotating the eyes during head rotations. Perfect compensatory movements would thus rotate the eyes exactly opposite to the head, that is, eyes vs. head would exhibit a unity gain. However, in many species, but also in elderly humans or patients with a history of vestibular damage, the aVOR is far from compensatory with gains that are in part considerably lower than unity. The reason for this apparent suboptimality is unknown. Here, we propose that low VOR gain values reflect an optimal adaptation to sensory and motor signal variability. According to this hypothesis, gaze stabilization mechanisms that aim at minimizing the overall retinal image slip must consider the effects of (1) sensory and motor noise and (2) dynamic constraints of peripheral and central nervous processing. We demonstrate that a computational model for optimizing retinal image slip in the presence of such constraints of signal processing in fact predicts gain values smaller than unity. We further show specifically for tadpoles of the clawed toad, Xenopus laevis with particularly low gain values that previously reported VOR gains quantitatively correspond to the observed variability of eye movements and thus constitute an optimal adaptation mechanism. We thus hypothesize that lower VOR gain values in elderly human subjects or recovered patients with a history of vestibular damage may be the sign of an optimization given higher noise levels rather than a direct consequence of the damage, such as an inability of executing fast compensatory eye movements.}, language = {en} } @misc{GlasauerStraka, author = {Glasauer, Stefan and Straka, Hans}, title = {Ear pins down evolution of thermoregulation}, series = {Nature}, journal = {Nature}, number = {607}, doi = {10.1038/d41586-022-01943-1}, pages = {661 -- 662}, abstract = {An analysis of fossil specimens of the inner ear helps to refine the timeframe of a key transition in vertebrate evolution — when our mammal-like ancestors began to regulate and maintain a high body temperature.}, language = {en} } @misc{SchroederRegnathGlasaueretal., author = {Schr{\"o}der, Lena and Regnath, Franziska and Glasauer, Stefan and Hackenberg, Anna and Hente, Juliane and Weilenmann, Sonja and Pohl, Daniel and K{\"a}nel, Roland von and Lehnen, Nadine}, title = {Altered sensorimotor processing in irritable bowel syndrome: Evidence for a transdiagnostic pathomechanism in functional somatic disorders}, series = {Frontiers in Neuroscience}, volume = {16}, journal = {Frontiers in Neuroscience}, issn = {1662-453X}, doi = {10.3389/fnins.2022.1029126}, abstract = {Objective A recent hypothesis suggests that functional somatic symptoms are due to altered information processing in the brain, with rigid expectations biasing sensorimotor signal processing. First experimental results confirmed such altered processing within the affected symptom modality, e.g., deficient eye-head coordination in patients with functional dizziness. Studies in patients with functional somatic symptoms looking at general, trans-symptomatic processing deficits are sparse. Here, we investigate sensorimotor processing during eye-head gaze shifts in irritable bowel syndrome (IBS) to test whether processing deficits exist across symptom modalities. Methods Study participants were seven patients suffering from IBS and seven age- and gender-matched healthy controls who performed large gaze shifts toward visual targets. Participants performed combined eye-head gaze shifts in the natural condition and with experimentally increased head moment of inertia. Head oscillations as a marker for sensorimotor processing deficits were assessed. Bayes statistics was used to assess evidence for the presence or absence of processing differences between IBS patients and healthy controls. Results With the head moment of inertia increased, IBS patients displayed more pronounced head oscillations than healthy controls (Bayes Factor 10 = 56.4, corresponding to strong evidence). Conclusion Patients with IBS show sensorimotor processing deficits, reflected by increased head oscillations during large gaze shifts to visual targets. In particular, patients with IBS have difficulties to adapt to the context of altered head moment of inertia. Our results suggest general transdiagnostic processing deficits in functional somatic disorders.}, language = {en} } @misc{GlasauerStraka, author = {Glasauer, Stefan and Straka, Hans}, title = {Der Beginn der Warmbl{\"u}tigkeit}, series = {Spektrum der Wissenschaft}, journal = {Spektrum der Wissenschaft}, number = {2}, issn = {0170-2971}, pages = {30 -- 31}, language = {de} } @misc{WerderRegnathSchaeferetal., author = {Werder, Dina von and Regnath, Franziska and Sch{\"a}fer, Daniel and J{\"o}rres, Rudolf and Lehnen, Nadine and Glasauer, Stefan}, title = {Post-COVID breathlessness: a mathematical model of respiratory processing in the brain}, series = {European Archives of Psychiatry and Clinical Neuroscience}, journal = {European Archives of Psychiatry and Clinical Neuroscience}, issn = {0940-1334}, doi = {10.1007/s00406-023-01739-y}, abstract = {Breathlessness is among the most common post-COVID symptoms. In a considerable number of patients, severe breathlessness cannot be explained by peripheral organ impairment. Recent concepts have described how such persistent breathlessness could arise from dysfunctional processing of respiratory information in the brain. In this paper, we present a first quantitative and testable mathematical model of how processing of respiratory-related signals could lead to breathlessness perception. The model is based on recent theories that the brain holds an adaptive and dynamic internal representation of a respiratory state that is based on previous experiences and comprises gas exchange between environment, lung and tissue cells. Perceived breathlessness reflects the brain's estimate of this respiratory state signaling a potentially hazardous disequilibrium in gas exchange. The internal respiratory state evolves from the respiratory state of the last breath, is updated by a sensory measurement of CO2 concentration, and is dependent on the current activity context. To evaluate our model and thus test the assumed mechanism, we used data from an ongoing rebreathing experiment investigating breathlessness in patients with post-COVID without peripheral organ dysfunction (N = 5) and healthy control participants without complaints after COVID-19 (N = 5). Although the observed breathlessness patterns varied extensively between individual participants in the rebreathing experiment, our model shows good performance in replicating these individual, heterogeneous time courses. The model assumes the same underlying processes in the central nervous system in all individuals, i.e., also between patients and healthy control participants, and we hypothesize that differences in breathlessness are explained by different weighting and thus influence of these processes on the final percept. Our model could thus be applied in future studies to provide insight into where in the processing cascade of respiratory signals a deficit is located that leads to (post-COVID) breathlessness. A potential clinical application could be, e.g., the monitoring of effects of pulmonary rehabilitation on respiratory processing in the brain to improve the therapeutic strategies.}, language = {en} } @misc{Glasauer, author = {Glasauer, Stefan}, title = {Individual differences do matter}, series = {Behavioral and Brain Sciences}, volume = {47}, journal = {Behavioral and Brain Sciences}, issn = {0140-525X}, doi = {10.1017/S0140525X2300242X}, abstract = {The integrative experiment design proposal currently only relates to group results, but downplays individual differences between participants, which may nevertheless be substantial enough to constitute a relevant dimension in the design space. Excluding the individual participant in the integrative design will not solve all problems mentioned in the target article, because averaging results may obscure the underlying mechanisms.}, language = {en} } @misc{SchaeferJoerresNowaketal., author = {Schaefer, Daniel and J{\"o}rres, Rudolf and Nowak, Dennis and Van Den Bergh, Omer and Bogaerts, Katleen and Glasauer, Stefan and Lehnen, Nadine and Von Werder, Dina}, title = {Late breaking abstract : replication and validation of a rebreathing experiment to investigate post-COVID symptoms}, series = {European Respiratory Journal}, volume = {62}, journal = {European Respiratory Journal}, number = {Suppl. 67}, publisher = {European Respiratory Society}, doi = {10.1183/13993003.congress-2023.PA5072}, language = {en} } @misc{HessvonWerderHarrisonetal., author = {Hess, Alexander J. and von Werder, Dina and Harrison, Olivia K. and Heinzle, Jakob and Stephan, Klaas Enno}, title = {Refining the allostatic self-efficacy theory of fatigue and depression using causal inference}, series = {Entropy}, volume = {26 (2024)}, journal = {Entropy}, number = {12}, publisher = {MDPI AG}, issn = {1099-4300}, doi = {10.3390/e26121127}, pages = {1 -- 18}, abstract = {Allostatic self-efficacy (ASE) represents a computational theory of fatigue and depression. In brief, it postulates that (i) fatigue is a feeling state triggered by a metacognitive diagnosis of loss of control over bodily states (persistently elevated interoceptive surprise); and that (ii) generalization of low self-efficacy beliefs beyond bodily control induces depression. Here, we converted ASE theory into a structural causal model (SCM). This allowed identification of empirically testable hypotheses regarding causal relationships between the variables of interest. Applying conditional independence tests to questionnaire data from healthy volunteers, we sought to identify contradictions to the proposed SCM. Moreover, we estimated two causal effects proposed by ASE theory using three different methods. Our analyses identified specific aspects of the proposed SCM that were inconsistent with the available data. This enabled formulation of an updated SCM that can be tested against future data. Second, we confirmed the predicted negative average causal effect from metacognition of allostatic control to fatigue across all three different methods of estimation. Our study represents an initial attempt to refine and formalize ASE theory using methods from causal inference. Our results confirm key predictions from ASE theory but also suggest revisions which require empirical verification in future studies.}, language = {en} } @misc{RegnathBiersackSchroederetal., author = {Regnath, Franziska and Biersack, Katharina and Schr{\"o}der, Lena and Stainer, Marie-Christin and von Werder, Dina and P{\"u}rner, Dominik and Haslinger, Bernhard and Lehnen, Nadine}, title = {Experimental evidence for a robust, transdiagnostic marker in functional disorders: Erroneous sensorimotor processing in functional dizziness and functional movement disorder}, series = {Journal of Psychosomatic Research}, volume = {183}, journal = {Journal of Psychosomatic Research}, editor = {Glasauer, Stefan}, publisher = {Elsevier BV}, issn = {0022-3999}, doi = {10.1016/j.jpsychores.2024.111694}, pages = {10}, language = {en} } @incollection{JahrmannBrandstetterGlasauer, author = {Jahrmann, Margarete and Brandstetter, Thomas and Glasauer, Stefan}, title = {Kopfgeld : dark play in an AI based individualized money game}, series = {MONEY | GAMES | ECONOMIES}, booktitle = {MONEY | GAMES | ECONOMIES}, editor = {K{\"o}nig, Nikolaus and Denk, Natalie and Pfeiffer, Alexander and Wernbacher, Thomas and Wimmer, Simon}, publisher = {University of Krems Press}, address = {Krems}, isbn = {978-3-903470-14-9}, doi = {10.48341/pwsk-m637}, pages = {171 -- 188}, abstract = {The exemplary low interaction game KOPFGELD, developed in 2023 by Margarete Jahrmann and Stefan Glasauer and first exhibited in a show on the topic of cash at Re:Publica Berlin (RP23.-) defines the price of a player's face by using the latest developments in AI image generation and face recognition systems. In a theoretical framework we reflect KOPFGELD as a radical art game on "non- consensual play" by AI systems with human entities. In playful settings actual face recognition directly capitalizes biometric data. The emerging AI systems use human play with AI for training of their own systems and turn interaction and attention into cash. Using methods of playful artistic research (LUDIC method), the artistic low interaction game KOPFGELD furthers the understanding of non- consensual play and so-called "dark patterns of game design". Situating the installation in the context of idle/low interactions and the artistic tradition of "dark play", we show how actual games, exemplified by a mobile racing game, provide a dark mirror in which we can see glimpses of a future of pervasive gamification driven by non-human players: "you are being played".}, language = {en} } @misc{ShiGuGlasaueretal., author = {Shi, Zhuanghua and Gu, Bon-Mi and Glasauer, Stefan and Meck, Warren H.}, title = {Beyond Scalar Timing Theory: Integrating Neural Oscillators with Computational Accessibility in Memory}, series = {Timing \& Time Perception}, journal = {Timing \& Time Perception}, issn = {2213-4468}, doi = {10.1163/22134468-bja10059}, pages = {1 -- 22}, abstract = {One of the major challenges for computational models of timing and time perception is to identify a neurobiological plausible implementation that predicts various behavioral properties, including the scalar property and retrospective timing. The available timing models primarily focus on the scalar property and prospective timing, while virtually ignoring the computational accessibility. Here, we first selectively review timing models based on ramping activity, oscillatory pattern, and time cells, and discuss potential challenges for the existing models. We then propose a multifrequency oscilla- tory model that offers computational accessibility, which could account for a much broader range of timing features, including both retrospective and prospective timing.}, language = {en} } @misc{FlanaginKlinkowskiBrodtetal., author = {Flanagin, Virginia and Klinkowski, Svenja and Brodt, Svenja and Graetsch, Melanie and Roselli, Carolina and Glasauer, Stefan and Gais, Steffen}, title = {The precuneus as a central node in declarative memory retrieval}, series = {Cerebral Cortex}, volume = {33}, journal = {Cerebral Cortex}, number = {10}, issn = {1460-2199}, doi = {10.1093/cercor/bhac476}, pages = {5981 -- 5990}, abstract = {Both, the hippocampal formation and the neocortex are contributing to declarative memory, but their functional specialization remains unclear. We investigated the differential contribution of both memory systems during free recall of word lists. In total, 21 women and 17 men studied the same list but with the help of different encoding associations. Participants associated the words either sequentially with the previous word on the list, with spatial locations on a well-known path, or with unique autobiographical events. After intensive rehearsal, subjects recalled the words during functional magnetic resonance imaging (fMRI). Common activity to all three types of encoding associations was identified in the posterior parietal cortex, in particular in the precuneus. Additionally, when associating spatial or autobiographical material, retrosplenial cortex activity was elicited during word list recall, while hippocampal activity emerged only for autobiographically associated words. These findings support a general, critical function of the precuneus in episodic memory storage and retrieval. The encoding-retrieval repetitions during learning seem to have accelerated hippocampus-independence and lead to direct neocortical integration in the sequentially associated and spatially associated word list tasks. During recall of words associated with autobiographical memories, the hippocampus might add spatiotemporal information supporting detailed scenic and contextual memories.}, language = {en} }