TY - JOUR A1 - Yan, Ming A1 - Zhou, Wei A1 - Shu, Hua A1 - Kliegl, Reinhold T1 - Perceptual span depends on font size during the reading of chinese sentences JF - Journal of experimental psychology : Learning, memory, and cognition N2 - The present study explored the perceptual span (i.e., the physical extent of an area from which useful visual information is extracted during a single fixation) during the reading of Chinese sentences in 2 experiments. In Experiment 1, we tested whether the rightward span can go beyond 3 characters when visually similar masks were used. Results showed that Chinese readers needed at least 4 characters to the right of fixation to maintain a normal reading behavior when visually similar masks were used and when characters were displayed in small fonts, indicating that the span is dynamically influenced by masking materials. In Experiments 2 and 3, we asked whether the perceptual span varies as a function of font size in spaced (German) and unspaced (Chinese) scripts. Results clearly suggest perceptual span depends on font size in Chinese, but we failed to find such evidence for German. We propose that the perceptual span in Chinese is flexible; it is strongly constrained by its language-specific properties such as high information density and lack of word spacing. Implications for saccade-target selection during the reading of Chinese sentences are discussed. KW - eye movements KW - parafoveal processing KW - perceptual span KW - Chinese reading Y1 - 2015 U6 - https://doi.org/10.1037/a0038097 SN - 0278-7393 SN - 1939-1285 VL - 41 IS - 1 SP - 209 EP - 219 PB - American Psychological Association CY - Washington ER - TY - JOUR A1 - Werner, Karsten A1 - Raab, Markus A1 - Fischer, Martin H. T1 - Moving arms BT - the effects of sensorimotor information on the problem-solving process JF - Thinking & Reasoning N2 - Embodied cognition postulates a bi-directional link between the human body and its cognitive functions. Whether this holds for higher cognitive functions such as problem solving is unknown. We predicted that arm movement manipulations performed by the participants could affect the problem-solving solutions. We tested this prediction in quantitative reasoning tasks that allowed two solutions to each problem (addition or subtraction). In two studies with healthy adults (N=53 and N=50), we found an effect of problem-congruent movements on problem solutions. Consistent with embodied cognition, sensorimotor information gained via right or left arm movements affects the solution in different types of problem-solving tasks. KW - Embodied cognition KW - eye movements KW - problem solving Y1 - 2018 U6 - https://doi.org/10.1080/13546783.2018.1494630 SN - 1354-6783 SN - 1464-0708 VL - 25 IS - 2 SP - 171 EP - 191 PB - Routledge, Taylor & Francis Group CY - Abingdon ER - TY - JOUR A1 - Seelig, Stefan A. A1 - Rabe, Maximilian Michael A1 - Malem-Shinitski, Noa A1 - Risse, Sarah A1 - Reich, Sebastian A1 - Engbert, Ralf T1 - Bayesian parameter estimation for the SWIFT model of eye-movement control during reading JF - Journal of mathematical psychology N2 - Process-oriented theories of cognition must be evaluated against time-ordered observations. Here we present a representative example for data assimilation of the SWIFT model, a dynamical model of the control of fixation positions and fixation durations during natural reading of single sentences. First, we develop and test an approximate likelihood function of the model, which is a combination of a spatial, pseudo-marginal likelihood and a temporal likelihood obtained by probability density approximation Second, we implement a Bayesian approach to parameter inference using an adaptive Markov chain Monte Carlo procedure. Our results indicate that model parameters can be estimated reliably for individual subjects. We conclude that approximative Bayesian inference represents a considerable step forward for computational models of eye-movement control, where modeling of individual data on the basis of process-based dynamic models has not been possible so far. KW - dynamical models KW - reading KW - eye movements KW - saccades KW - likelihood function KW - Bayesian inference KW - MCMC KW - interindividual differences Y1 - 2020 U6 - https://doi.org/10.1016/j.jmp.2019.102313 SN - 0022-2496 SN - 1096-0880 VL - 95 PB - Elsevier CY - San Diego ER - TY - JOUR A1 - Schütt, Heiko Herbert A1 - Rothkegel, Lars Oliver Martin A1 - Trukenbrod, Hans Arne A1 - Reich, Sebastian A1 - Wichmann, Felix A. A1 - Engbert, Ralf T1 - Likelihood-based parameter estimation and comparison of dynamical cognitive models JF - Psychological Review N2 - Dynamical models of cognition play an increasingly important role in driving theoretical and experimental research in psychology. Therefore, parameter estimation, model analysis and comparison of dynamical models are of essential importance. In this article, we propose a maximum likelihood approach for model analysis in a fully dynamical framework that includes time-ordered experimental data. Our methods can be applied to dynamical models for the prediction of discrete behavior (e.g., movement onsets); in particular, we use a dynamical model of saccade generation in scene viewing as a case study for our approach. For this model, the likelihood function can be computed directly by numerical simulation, which enables more efficient parameter estimation including Bayesian inference to obtain reliable estimates and corresponding credible intervals. Using hierarchical models inference is even possible for individual observers. Furthermore, our likelihood approach can be used to compare different models. In our example, the dynamical framework is shown to outperform nondynamical statistical models. Additionally, the likelihood based evaluation differentiates model variants, which produced indistinguishable predictions on hitherto used statistics. Our results indicate that the likelihood approach is a promising framework for dynamical cognitive models. KW - likelihood KW - model fitting KW - dynamical model KW - eye movements KW - model comparison Y1 - 2017 U6 - https://doi.org/10.1037/rev0000068 SN - 0033-295X SN - 1939-1471 VL - 124 IS - 4 SP - 505 EP - 524 PB - American Psychological Association CY - Washington ER - TY - JOUR A1 - Schütt, Heiko Herbert A1 - Rothkegel, Lars Oliver Martin A1 - Trukenbrod, Hans Arne A1 - Engbert, Ralf A1 - Wichmann, Felix A. T1 - Disentangling bottom-up versus top-down and low-level versus high-level influences on eye movements over time JF - Journal of vision N2 - Bottom-up and top-down as well as low-level and high-level factors influence where we fixate when viewing natural scenes. However, the importance of each of these factors and how they interact remains a matter of debate. Here, we disentangle these factors by analyzing their influence over time. For this purpose, we develop a saliency model that is based on the internal representation of a recent early spatial vision model to measure the low-level, bottom-up factor. To measure the influence of high-level, bottom-up features, we use a recent deep neural network-based saliency model. To account for top-down influences, we evaluate the models on two large data sets with different tasks: first, a memorization task and, second, a search task. Our results lend support to a separation of visual scene exploration into three phases: the first saccade, an initial guided exploration characterized by a gradual broadening of the fixation density, and a steady state that is reached after roughly 10 fixations. Saccade-target selection during the initial exploration and in the steady state is related to similar areas of interest, which are better predicted when including high-level features. In the search data set, fixation locations are determined predominantly by top-down processes. In contrast, the first fixation follows a different fixation density and contains a strong central fixation bias. Nonetheless, first fixations are guided strongly by image properties, and as early as 200 ms after image onset, fixations are better predicted by high-level information. We conclude that any low-level, bottom-up factors are mainly limited to the generation of the first saccade. All saccades are better explained when high-level features are considered, and later, this high-level, bottom-up control can be overruled by top-down influences. KW - saliency KW - fixations KW - natural scenes KW - visual search KW - eye movements Y1 - 2019 U6 - https://doi.org/10.1167/19.3.1 SN - 1534-7362 VL - 19 IS - 3 PB - Association for Research in Vision and Opthalmology CY - Rockville ER - TY - JOUR A1 - Schotter, Elizabeth Roye A1 - von der Malsburg, Titus Raban A1 - Leinenger, Mallorie T1 - Forced Fixations, Trans-Saccadic Integration, and Word Recognition BT - Evidence for a Hybrid Mechanism of Saccade Triggering in Reading JF - Journal of experimental psychology : Learning, memory, and cognition N2 - Recent studies using the gaze-contingent boundary paradigm reported a reversed preview benefit- shorter fixations on a target word when an unrelated preview was easier to process than the fixated target (Schotter & Leinenger, 2016). This is explained viaforeedfixatiotzs-short fixations on words that would ideally be skipped (because lexical processing has progressed enough) but could not be because saccade planning reached a point of no return. This contrasts with accounts of preview effects via trans-saccadic integration-shorter fixations on a target word when the preview is more similar to it (see Cutter. Drieghe, & Liversedge, 2015). In addition, if the previewed word-not the fixated target-determines subsequent eye movements, is it also this word that enters the linguistic processing stream? We tested these accounts by having 24 subjects read 150 sentences in the boundary paradigm in which both the preview and target were initially plausible but later one, both, or neither became implausible, providing an opportunity to probe which one was linguistically encoded. In an intervening buffer region, both words were plausible, providing an opportunity to investigate trans-saccadic integration. The frequency of the previewed word affected progressive saccades (i.e.. forced fixations) as well as when transsaccadic integration failure increased regressions, but, only the implausibility of the target word affected semantic encoding. These data support a hybrid account of saccadic control (Reingold, Reichle. Glaholt, & Sheridan, 2012) driven by incomplete (often parafoveal) word recognition, which occurs prior to complete (often foveal) word recognition. KW - parafoveal processing KW - word recognition KW - regressive saccades KW - eye movements KW - reading Y1 - 2019 U6 - https://doi.org/10.1037/xlm0000617 SN - 0278-7393 SN - 1939-1285 VL - 45 IS - 4 SP - 677 EP - 688 PB - American Psychological Association CY - Washington ER - TY - THES A1 - Schad, Daniel T1 - Mindless reading and eye movements : theory, experiments and computational modeling T1 - Gedankenverlorenes Lesen und Blickbewegungen : Theorie, Experimente, und Computationale Modellierung N2 - It sometimes happens that we finish reading a passage of text just to realize that we have no idea what we just read. During these episodes of mindless reading our mind is elsewhere yet the eyes still move across the text. The phenomenon of mindless reading is common and seems to be widely recognized in lay psychology. However, the scientific investigation of mindless reading has long been underdeveloped. Recent progress in research on mindless reading has been based on self-report measures and on treating it as an all-or-none phenomenon (dichotomy-hypothesis). Here, we introduce the levels-of-inattention hypothesis proposing that mindless reading is graded and occurs at different levels of cognitive processing. Moreover, we introduce two new behavioral paradigms to study mindless reading at different levels in the eye-tracking laboratory. First (Chapter 2), we introduce shuffled text reading as a paradigm to approximate states of weak mindless reading experimentally and compare it to reading of normal text. Results from statistical analyses of eye movements that subjects perform in this task qualitatively support the ‘mindless’ hypothesis that cognitive influences on eye movements are reduced and the ‘foveal load’ hypothesis that the response of the zoom lens of attention to local text difficulty is enhanced when reading shuffled text. We introduce and validate an advanced version of the SWIFT model (SWIFT 3) incorporating the zoom lens of attention (Chapter 3) and use it to explain eye movements during shuffled text reading. Simulations of the SWIFT 3 model provide fully quantitative support for the ‘mindless’ and the ‘foveal load’ hypothesis. They moreover demonstrate that the zoom lens is an important concept to explain eye movements across reading and mindless reading tasks. Second (Chapter 4), we introduce the sustained attention to stimulus task (SAST) to catch episodes when external attention spontaneously lapses (i.e., attentional decoupling or mind wandering) via the overlooking of errors in the text and via signal detection analyses of error detection. Analyses of eye movements in the SAST revealed reduced influences from cognitive text processing during mindless reading. Based on these findings, we demonstrate that it is possible to predict states of mindless reading from eye movement recordings online. That cognition is not always needed to move the eyes supports autonomous mechanisms for saccade initiation. Results from analyses of error detection and eye movements provide support to our levels-of-inattention hypothesis that errors at different levels of the text assess different levels of decoupling. Analyses of pupil size in the SAST (Chapter 5) provide further support to the levels of inattention hypothesis and to the decoupling hypothesis that off-line thought is a distinct mode of cognitive functioning that demands cognitive resources and is associated with deep levels of decoupling. The present work demonstrates that the elusive phenomenon of mindless reading can be vigorously investigated in the cognitive laboratory and further incorporated in the theoretical framework of cognitive science. N2 - Beim Lesen passiert es manchmal dass wir zum Ende einer Textpassage gelangen und dabei plötzlich bemerken dass wir keinerlei Erinnerung daran haben was wir soeben gelesen haben. In solchen Momenten von gedankenverlorenem Lesen ist unser Geist abwesend, aber die Augen bewegen sich dennoch über den Text. Das Phänomen des gedankenverlorenen Lesens ist weit verbreitet und scheint in der Laienpsychologie allgemein anerkannt zu sein. Die wissenschaftliche Untersuchung von gedankenverlorenem Lesen war jedoch lange Zeit unzureichend entwickelt. Neuerer Forschungsfortschritt basierte darauf gedankenverlorenes Lesen durch Selbstberichte zu untersuchen und als ein Phänomen zu behandeln das entweder ganz oder gar nicht auftritt (Dichotomie-Hypothese). Hier stellen wir die ‚Stufen der Unaufmerksamkeit’-Hypothese auf, dass gedankenverlorenes Lesen ein graduelles Phänomen ist, das auf verschiedenen kognitiven Verarbeitungsstufen entsteht. Wir stellen zudem zwei neue Verhaltensparadigmen vor um verschiedene Stufen von gedankenverlorenem Lesen im Augenbewegungslabor zu untersuchen. Als erstes (in Kapitel 2) stellen wir das Lesen von verwürfeltem Text vor als ein Paradigma um Zustände von schwach gedankenverlorenem Lesen experimentell anzunähern, und vergleichen es mit dem Lesen von normalem Text. Die Ergebnisse von statistischen Augenbewegungsanalysen unterstützen qualitativ die ‚Unaufmerksamkeits’-Hypothese, dass kognitive Einflüsse auf Augenbewegungen beim Lesen von verwürfeltem Text reduziert ist, und die ‚Foveale Beanspruchungs’-Hypothese, dass die Reaktion der zoom lens visueller Aufmerksamkeit auf lokale Textschwierigkeit beim Lesen von verwürfeltem Text verstärkt ist. Wir stellen eine weiterentwickelte Version des SWIFT Modells (SWIFT 3) vor, welches die zoom lens der Aufmerksamkeit implementiert, und validieren dieses Modell am Lesen von verwürfeltem und normalem Text (Kapitel 3). Simulationen des SWIFT 3 Modells unterstützen die ‚Unaufmerksamkeits’ und die ‚Foveal Beanspruchungs’-Hypothese in einem vollständig quantitativen Modell. Zudem zeigen sie, dass die zoom lens der Aufmerksamkeit ein wichtiges Konzept ist um Augenbewegungen in Aufgaben zum Lesen und gedankenverlorenen Lesen zu erklären. Als zweites (Kapitel 4) stellen wir den sustained attention to stimulus task (SAST) vor um Episoden von spontaner externer Unaufmerksamkeit (also Entkopplung der Aufmerksamkeit oder Abschweifen der Gedanken) in einem Paradigma über Verhaltensparameter wie das Übersehen von Fehlern im Text und Signal-Detektions-Analysen von Fehlerentdeckung zu messen. Augenbewegungsanalysen im SAST decken abgeschwächte Einflüsse von kognitiver Textverarbeitung während gedankenverlorenem Lesen auf. Basierend auf diesen Befunden zeigen wir, dass es möglich ist Zustände von gedankenverlorenem Lesen online, also während dem Lesen, aus Augenbewegungen vorherzusagen bzw. abzulesen. Dass höhere Kognition nicht immer notwendig ist um die Augen zu bewegen unterstützt zudem autonome Mechanismen der Sakkadeninitiierung. Ergebnisse aus Analysen von Fehlerdetektion und Augenbewegungen unterstützen unsere ‚Stufen der Unaufmerksamkeit’-Hypothese, dass Fehler auf verschiedenen Textebenen verschiedene Stufen von Entkopplung messen. Analysen der Pupillengröße im SAST (Kapitel 5) bieten weitere Unterstützung für die ‚Stufen der Unaufmerksamkeit’-Hypothese, sowie für die Entkopplungs-Hypothese, dass abschweifende Gedanken eine abgegrenzte kognitiver Funktionsweise darstellen, welche kognitive Ressourcen benötigt und mit tiefen Stufen von Unaufmerksamkeit zusammenhängt. Die aktuelle Arbeit zeigt, dass das flüchtige Phänomen des gedankenverlorenen Lesens im kognitiven Labor mit strengen Methoden untersucht und weitergehend in den theoretischen Rahmen der Kognitionswissenschaft eingefügt werden kann. KW - Gedankenverlorenes Lesen KW - Blickbewegungen KW - Gedankenschweifen KW - Computationale Modellierung KW - Levels-of-inattention Hypothese KW - mindless reading KW - eye movements KW - mind wandering KW - computational modeling KW - levels-of-inattention hypothesis Y1 - 2012 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus-70822 ER - TY - THES A1 - Rothkegel, Lars Oliver Martin T1 - Human scanpaths in natural scene viewing and natural scene search T1 - Menschliche Blickspuren beim Betrachten und Durchsuchen natürlicher Szenen BT - the role of systematic eye-movement tendencies N2 - Understanding how humans move their eyes is an important part for understanding the functioning of the visual system. Analyzing eye movements from observations of natural scenes on a computer screen is a step to understand human visual behavior in the real world. When analyzing eye-movement data from scene-viewing experiments, the impor- tant questions are where (fixation locations), how long (fixation durations) and when (ordering of fixations) participants fixate on an image. By answering these questions, computational models can be developed which predict human scanpaths. Models serve as a tool to understand the underlying cognitive processes while observing an image, especially the allocation of visual attention. The goal of this thesis is to provide new contributions to characterize and model human scanpaths on natural scenes. The results from this thesis will help to understand and describe certain systematic eye-movement tendencies, which are mostly independent of the image. One eye-movement tendency I focus on throughout this thesis is the tendency to fixate more in the center of an image than on the outer parts, called the central fixation bias. Another tendency, which I will investigate thoroughly, is the characteristic distribution of angles between successive eye movements. The results serve to evaluate and improve a previously published model of scanpath generation from our laboratory, the SceneWalk model. Overall, six experiments were conducted for this thesis which led to the following five core results: i) A spatial inhibition of return can be found in scene-viewing data. This means that locations which have already been fixated are afterwards avoided for a certain time interval (Chapter 2). ii) The initial fixation position when observing an image has a long-lasting influence of up to five seconds on further scanpath progression (Chapter 2 & 3). iii) The often described central fixation bias on images depends strongly on the duration of the initial fixation. Long-lasting initial fixations lead to a weaker central fixation bias than short fixations (Chapter 2 & 3). iv) Human observers adjust their basic eye-movement parameters, like fixation dura- tions and saccade amplitudes, to the visual properties of a target they look for in visual search (Chapter 4). v) The angle between two adjacent saccades is an indicator for the selectivity of the upcoming saccade target (Chapter 4). All results emphasize the importance of systematic behavioral eye-movement tenden- cies and dynamic aspects of human scanpaths in scene viewing. N2 - Die Art und Weise, wie wir unsere Augen bewegen, ist ein bedeutender Aspekt des visuellen Systems. Die Analyse von Augenbewegungen beim Betrachten natürlicher Szenen auf einem Bildschirm soll helfen, natürliches Blickverhalten zu verstehen. Durch Beantwortung der Fragen wohin (Fixationsposition), wie lange (Fixationsdauern) und wann (Reihenfolge von Fixationen) Versuchspersonen auf einem Bild fixieren, lassen sich computationale Modelle entwickeln, welche Blickspuren auf natürlichen Bildern vorhersagen. Modelle sind ein Werkzeug, um zugrunde liegende kognitive Prozesse, insbesondere die Zuweisung visueller Aufmerksamkeit, während der Betrachtung von Bildern zu verstehen. Das Ziel der hier vorliegenden Arbeit ist es, neue Beitr¨age zur Modellierung und Charakterisierung menschlicher Blickspuren auf natürlichen Szenen zu liefern. Speziell systematische Blicksteuerungstendenzen, welche größtenteils unabhängig vom betrachteten Bild sind, sollen durch die vorliegenden Studien besser verstanden und beschrieben werden. Eine dieser Tendenzen, welche ich gezielt untersuche, ist die Neigung von Versuchspersonen, die Mitte eines Bildes häufiger als äußere Bildregionen zu fixieren. Außerdem wird die charakteristische Verteilung der Winkel zwischen zwei aufeinanderfolgenden Sakkaden systematisch untersucht. Die Ergebnisse dienen der Evaluation und Verbesserung des SceneWalk Modells für Blicksteuerung aus unserer Arbeitsgruppe. Insgesamt wurden 6 Experimente durchgeführt, welche zu den folgenden fünf Kernbefunden führten: i) Ein örtlicher inhibition of return kann in Blickbewegungsdaten von Szenenbetrachtungsexperimenten gefunden werden. Das bedeutet, fixierte Positionen werden nach der Fixation für einen bestimmten Zeitraum gemieden (Kapitel 2). ii) Die Startposition der Betrachtung eines Bildes hat einen langanhaltenden Einfluss von bis zu fünf Sekunden auf die nachfolgende Blickspur (Kapitel 2 & 3). iii) Die viel beschriebene zentrale Fixationstendenz auf Bildern hängt davon ab, wie lange die erste Fixation dauert. Lange initiale Fixationen führen zu deutlich geringerer zentraler Fixationstendenz als kurze Fixationen (Kapitel 2 & 3). iv) Menschliche Betrachter passen Fixationsdauern und Sakkadenamplituden an die visuellen Eigenschaften eines Zielreizes in visueller Suche an (Kapitel 4). v) Der Winkel zwischen zwei Sakkaden ist ein Indikator dafür, wie selektiv das Ziel der zweiten Sakkade ist (Kapitel 4). Alle Ergebnisse betonen die Wichtigkeit von systematischem Blickbewegungsverhalten und dynamischen Aspekten menschlicher Blickspuren beim Betrachten von natürlichen Szenen. KW - eye movements KW - scene viewing KW - computational modeling KW - scanpaths KW - visual attention KW - Augenbewegungen KW - Szenenbetrachtung KW - Computationale Modellierung KW - Blickspuren KW - Visuelle Aufmerksamkeit Y1 - 2018 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-420005 ER - TY - JOUR A1 - Risse, Sarah A1 - Kliegl, Reinhold T1 - Evidence for delayed Parafoveal-on-Foveal effects from word n+2 in reading JF - Journal of experimental psychology : Human perception and performance N2 - During reading information is acquired from word(s) beyond the word that is currently looked at. It is still an open question whether such parafoveal information can influence the current viewing of a word, and if so, whether such parafoveal-on-foveal effects are attributable to distributed processing or to mislocated fixations which occur when the eyes are directed at a parafoveal word but land on another word instead. In two display-change experiments, we orthogonally manipulated the preview and target difficulty of word n+2 to investigate the role of mislocated fixations on the previous word n+1. When the eyes left word n, an easy or difficult word n+2 preview was replaced by an easy or difficult n+2 target word. In Experiment 1, n+2 processing difficulty was manipulated by means of word frequency (i.e., easy high-frequency vs. difficult low-frequency word n+2). In Experiment 2, we varied the visual familiarity of word n+2 (i.e., easy lower-case vs. difficult alternating-case writing). Fixations on the short word n+1, which were likely to be mislocated, were nevertheless not influenced by the difficulty of the adjacent word n+2, the hypothesized target of the mislocated fixation. Instead word n+1 was influenced by the preview difficulty of word n+2, representing a delayed parafoveal-on-foveal effect. The results challenge the mislocated-fixation hypothesis as an explanation of parafoveal-on-foveal effects and provide new insight into the complex spatial and temporal effect structure of processing inside the perceptual span during reading. KW - perceptual span KW - n+2-boundary paradigm KW - preview benefit KW - parafoveal-on-foveal effect KW - mislocated fixations KW - eye movements Y1 - 2012 U6 - https://doi.org/10.1037/a0027735 SN - 0096-1523 VL - 38 IS - 4 SP - 1026 EP - 1042 PB - American Psychological Association CY - Washington ER - TY - JOUR A1 - Risse, Sarah A1 - Kliegl, Reinhold T1 - Dissociating preview validity and preview difficulty in parafoveal processing of word n+1 during reading JF - Journal of experimental psychology : Human perception and performance N2 - Many studies have shown that previewing the next word n + 1 during reading leads to substantial processing benefit (e.g., shorter word viewing times) when this word is eventually fixated. However, evidence of such preprocessing in fixations on the preceding word n when in fact the information about the preview is acquired is far less consistent. A recent study suggested that such effects may be delayed into fixations on the next word n + 1 (Risse & Kliegl, 2012). To investigate the time course of parafoveal information-acquisition on the control of eye movements during reading, we conducted 2 gaze-contingent display-change experiments and orthogonally manipulated the processing difficulty (i.e., word frequency) of an n + 1 preview word and its validity relative to the target word. Preview difficulty did not affect fixation durations on the pretarget word n but on the target word n + 1. In fact, the delayed preview-difficulty effect was almost of the same size as the preview benefit associated with the n + 1 preview validity. Based on additional results from quantile-regression analyses on the time course of the 2 preview effects, we discuss consequences as to the integration of foveal and parafoveal information and potential implications for computational models of eye guidance in reading. KW - display-change awareness KW - eye movements KW - parafoveal-on-foveal effect KW - parafoveal preview benefit KW - perceptual span Y1 - 2014 U6 - https://doi.org/10.1037/a0034997 SN - 0096-1523 SN - 1939-1277 VL - 40 IS - 2 SP - 653 EP - 668 PB - American Psychological Association CY - Washington ER - TY - THES A1 - Risse, Sarah T1 - Processing in the perceptual span : investigations with the n+2-boundary paradigm T1 - Verarbeitung in der Wahrnehmungsspanne : Untersuchungen mit dem n+2-Boundary Paradigm N2 - Cognitive psychology is traditionally interested in the interaction of perception, cognition, and behavioral control. Investigating eye movements in reading constitutes a field of research in which the processes and interactions of these subsystems can be studied in a well-defined environment. Thereby, the following questions are pursued: How much information is visually perceived during a fixation, how is processing achieved and temporally coordinated from visual letter encoding to final sentence comprehension, and how do such processes reflect on behavior such as the control of the eyes’ movements during reading. Various theoretical models have been proposed to account for the specific eye-movement behavior in reading (for a review see Reichle, Rayner, & Pollatsek, 2003). Some models are based on the idea of shifting attention serially from one word to the next within the sentence whereas others propose distributed attention allocating processing resources to more than one word at a time. As attention is assumed to drive word recognition processes one major difference between these models is that word processing must either occur in strict serial order, or that word processing is achieved in parallel. In spite of this crucial difference in the time course of word processing, both model classes perform well on explaining many of the benchmark effects in reading. In fact, there seems to be not much empirical evidence that challenges the models to a point at which their basic assumptions could be falsified. One issue often perceived as being decisive in the debate on serial and parallel word processing is how not-yet-fixated words to the right of fixation affect eye movements. Specifically, evidence is discussed as to what spatial extent such parafoveal words are previewed and how this influences current and subsequent word processing. Four experiments investigated parafoveal processing close to the spatial limits of the perceptual span. The present work aims to go beyond mere existence proofs of previewing words at such spatial distances. Introducing a manipulation that dissociates the sources of long-range preview effects, benefits and costs of parafoveal processing can be investigated in a single analysis and the differing impact is tracked across a three-word target region. In addition, the same manipulation evaluates the role of oculomotor error as the cause of non-local distributed effects. In this respect, the results contribute to a better understanding of the time course of word processing inside the perceptual span and attention allocation during reading. N2 - Die kognitive Psychologie beschäftigt sich traditionell mit dem Zusammenspiel von Wahrnehmung, Kognition und Verhaltenssteuerung. Die Untersuchung von Blickbewegungen beim Lesen bildet dabei ein Forschungsfeld, in dem die Prozesse und Interaktionen dieser Subsysteme in einem klar definierten Rahmen untersucht werden können. Dabei geht es speziell um die Frage, wie viel Information visuell wahrgenommen wird, wie die kognitive Weiterverarbeitung der visuellen Buchstabeninformation über lexikalische Wortverarbeitung hin zu einem inhaltlichen Satzverständnis zeitlich koordiniert ist, und wie sich diese Prozesse auf das Verhalten – die Steuerung der Blickbewegung – auswirken. Verschiedene Modelle zur Erklärung des spezifischen Blickbewegungsverhaltens beim Lesen wurden vorgeschlagen (für einen Überblick siehe Reichle, Rayner, & Pollatsek, 2003). Einige Modelle basieren auf der Annahme serieller Aufmerksamkeitsverschiebung von Wort zu Wort, wohingegen andere verteilte Aufmerksamkeit auf eine Region mehrerer Wörter im Satz gleichzeitig annehmen. Da Aufmerksamkeit eng mit der eigentlichen Wortverarbeitung assoziiert ist, besteht ein wesentlicher Unterschied zwischen den Modellen darin, dass die eigentlichen Wortverarbeitungsprozesse entweder ebenfalls strikt seriell oder parallel erfolgen. Trotz solch entscheidender Unterschiede im zeitlichen Verlauf der Wortverarbeitung können beide Modellklassen viele der Benchmark-Effekte beim Lesen hinreichend erklären. Tatsächlich scheint es nicht viel empirische Evidenz zu geben, die die Grundannahmen der Modelle falsifizieren könnte. Die Frage, ob und wie noch nicht direkt angesehene Wörter rechts der Fixation die Blickbewegung beeinflussen, wird in der Debatte über serielle oder parallele Wortverarbeitung oft als entscheidend betrachtet. Insbesondere wird diskutiert, bis zu welcher Entfernung parafoveale Wörter vorverarbeitet werden und wie das die gegenwärtige und folgende Wortverarbeitung beeinflusst. In einer Serie von vier Leseexperimenten wurde die Vorverarbeitung von Wörtern an den Grenzen der Wahrnehmungsspanne untersucht. Die vorliegende Arbeit versucht zudem, über einen einfachen Existenzbeweis der Vorverarbeitung von Wörtern in solchen Distanzen hinaus zu gehen. Mit einer Manipulation, die verschiedene Quellen solcher weitreichenden Vorverarbeitungseffekte dissoziiert, können Nutzen und Kosten der parafovealen Vorschau in einer einzigen Analyse untersucht und über eine Zielregion von drei Wörtern hinweg verfolgt werden. Dieselbe Manipulation überprüft gleichzeitig die Rolle okulomotorischer Fehler als Ursache für nicht lokale, verteilte Effekte beim Lesen. Die Ergebnisse tragen zu einem differenzierteren Verständnis der Wortverarbeitung in der Wahrnehmungsspanne und der zeitlich-räumlichen Verteilung der Aufmerksamkeit beim Lesen bei. KW - Blickbewegungen KW - Lesen KW - parafoveale Wortverarbeitung KW - Aufmerksamkeit KW - Preview Benefit KW - eye movements KW - reading KW - parafoveal processing KW - attention KW - preview benefit Y1 - 2011 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus-60414 ER - TY - THES A1 - Rettig, Anja T1 - Learning to read in German BT - eye movements and the perceptual span of German beginning readers and their relation to reading motivation BT - Blickbewegungen und die perzentuelle Lesespanne von deutschsprachigen Leseanfängern und der Zusammenhang zur Lesemotivation N2 - In the present dissertation, the development of eye movement behavior and the perceptual span of German beginning readers was investigated in Grades 1 to 3 (Study 1) and longitudinally within a one-year time interval (Study 2), as well as in relation to intrinsic and extrinsic reading motivation (Study 3). The presented results are intended to fill the gap of only sparse information on young readers’ eye movements and completely missing information on German young readers’ perceptual span and its development. On the other hand, reading motivation data have been scrutinized with respect to reciprocal effects on reading comprehension but not with respect to more immediate, basic cognitive processing (e.g., word decoding) that is indicated by different eye movement measures. Based on a longitudinal study design, children in Grades 1–3 participated in a moving window reading experiment with eye movement recordings in two successive years. All children were participants of a larger longitudinal study on intrapersonal developmental risk factors in childhood and adolescence (PIER study). Motivation data and other psychometric reading data were collected during individual inquiries and tests at school. Data analyses were realized in three separate studies that focused on different but related aspects of reading and perceptual span development. Study 1 presents the first cross-sectional report on the perceptual span of beginning German readers. The focus was on reading rate changes in Grades 1 to 3 and on the issue of the onset of the perceptual span development and its dependence on basic foveal reading processes. Study 2 presents a successor of Study 1 providing first longitudinal data of the perceptual span in elementary school children. It also includes information on the stability of observed and predicted reading rates and perceptual span sizes and introduces a new measure of the perceptual span based on nonlinear mixed-effects models. Another issue addressed in this study is the longitudinal between-group comparison of slower and faster readers which refers to the detection of developmental patterns. Study 3 includes longitudinal reading motivation data and investigates the relation between different eye movement measures including perceptual span and intrinsic as well as extrinsic reading motivation. In Study 1, a decelerated increase in reading rate was observed between Grades 1 to 3. Grade effects were also reported for saccade length, refixation probability, and different fixation duration measures. With higher grade, mean saccade length increased, whereas refixation probability, first-fixation duration, gaze duration, and total reading time decreased. Perceptual span development was indicated by an increase in window size effects with grade level. Grade level differences with respect to window size effects were stronger between Grades 2 and 3 than between Grades 1 and 2. These results were replicated longitudinally in Study 2. Again, perceptual span size significantly changed between Grades 2 and 3, but not between Grades 1 and 2 or Grades 3 and 4. Observed and predicted reading rates were found to be highly stable after first grade, whereas stability of perceptual span was only moderate for all grade levels. Group differences between slower and faster readers in Year 1 remained observable in Year 2 showing a pattern of stable achievement differences rather than a compensatory pattern. Between Grades 2 and 3, between-group differences in reading rate even increased resulting in a Matthew effect. A similar effect was observed for perceptual span development between Grades 3 and 4. Finally, in Study 3, significant relations between beginning readers’ eye movements and their reading motivation were observed. In both years of measurement, higher intrinsic reading motivation was related to more skilled eye movement patterns as indicated by short fixations, longer saccades, and higher reading rates. In Year 2, intrinsic reading motivation was also significantly and negatively correlated with refixation probability. These correlational patterns were confirmed in cross-sectional linear models controlling for grade level and reading amount and including both reading motivation measures, extrinsic and intrinsic motivation. While there were significant positive relations between intrinsic reading motivation and word decoding as indicated by the above stated eye movement measures, extrinsic reading motivation only predicted variance in eye movements in Year 2 (significant for fixation durations and reading rate), with a consistently opposite pattern of effects as compared to intrinsic reading motivation. Finally, longitudinal effects of Year 1 intrinsic reading motivation on Year 2 word decoding were observed for gaze duration, total reading time, refixation probability, and perceptual span within cross-lagged panel models. These effects were reciprocal because all eye movement measures significantly predicted variance in intrinsic reading motivation. Extrinsic reading motivation in Year 1 did not affect any eye movement measure in Year 2, and vice versa, except for a significant, negative relation with perceptual span. Concluding, the present dissertation demonstrates that largest gains in reading development in terms of eye movement changes are observable between Grades 1 and 2. Together with the observed pattern of stable differences between slower and faster readers and a widening achievement gap between Grades 2 and 3 for reading rate, these results underline the importance of the first year(s) of formal reading instruction. The development of the perceptual span lags behind as it is most apparent between Grades 2 and 3. This suggests that efficient parafoveal processing presupposes a certain degree of foveal reading proficiency (e.g., word decoding). Finally, this dissertation demonstrates that intrinsic reading motivation—but not extrinsic motivation—effectively supports the development of skilled reading. N2 - In der vorliegenden Dissertation wurde die Entwicklung der Blickbewegungen und der perzeptuellen Lesespanne von deutschsprachigen Leseanfängern in den Klassenstufen 1–3 im Querschnitt (Studie 1) als auch im Längsschnitt innerhalb eines Jahres (Studie 2) sowie hinsichtlich des Zusammenhangs mit der intrinsischen und der extrinsischen Lesemotivation (Studie 3) untersucht. Die Ergebnisse dieser Arbeit stellen einen bedeutsamen empirischen Beitrag zur ansonsten verhältnismäßig eher spärlichen empirisch-experimentellen Forschung zur frühen Leseentwicklung dar und liefern erste Erkenntnisse über die perzeptuelle Spanne von jungen deutschsprachigen Lesern. Des Weiteren wurde Neuland betreten, indem Blickdaten im Zusammenhang mit Lesemotivationsdaten ausgewertet wurden. Während es umfangreiche Forschungsarbeiten zum reziproken Zusammenhang zwischen Lesemotivation und dem Leserverstehen gibt, ist kaum etwas zu wechselseitigen Lesemotivationseffekten in Bezug auf basale kognitive Prozesse (z.B. die Wort-Dekodierung), wie sie durch verschiedene Blickbewegungsmaße indiziert werden, bekannt. Auf Grundlage eines längsschnittlichen Untersuchungsdesigns nahmen Kinder der Klassenstufen 1–3 in zwei aufeinanderfolgenden Jahren an einem Moving-Window-Leseexperiment mit manipuliertem Text teil. Alle Kinder waren Teilnehmer einer größeren Längsschnittstudie zur Untersuchung von intrapersonellen Risikofaktoren im Kindes- und Jugendalter (PIER-Studie). In individuellen Befragungen und Testungen in den Schulen wurden u.a. auch Lesemotivations- und andere psychometrische Lesedaten erhoben. Die im Labor erfassten Blickdaten wurden zusammen mit diesen psychometrischen Daten im Rahmen von drei separaten Studien ausgewertet, die jeweils verschiedene, jedoch miteinander in Bezug stehende Aspekte der Lese- und Lesespannen-Entwicklung untersuchen. Studie 1 präsentiert einen ersten querschnittlichen Bericht zur perzeptuellen Lesespanne von deutschsprachigen Leseanfängern. Hierbei lag der Fokus auf Veränderungen der Leserate in den Klassenstufen 1–3 und auf der Frage, wann die Entwicklung der perzeptuellen Spanne beginnt und inwiefern diese Entwicklung von basalen fovealen Leseprozessen abhängig ist. Studie 2 stellt eine Folgeuntersuchung dar, die erste Längsschnittdaten zur Entwicklung der perzeptuellen Lesespanne bei Grundschulkindern liefert. Untersucht wurden desweiteren die Stabilität der beobachteten und vorhergesagten Leserate als auch der perzeptuellen Lesespanne. In diesem Zusammenhang wird ein neues Spannenmaß vorgestellt, welches auf nicht-linearen gemischten Modellen basiert. Eine weitere Fragestellung der Studie ist der längsschnittliche Gruppenvergleich von langsameren und schnelleren Lesern, welcher auf die Entdeckung von Entwicklungsmustern abzielt. Studie 3 inkludiert längsschnittliche Lesemotivatonsdaten und untersucht die Beziehung zwischen verschiedenen Blickbewegungsmaßen einschließlich der perzeptuellen Lesespanne und der intrinsischen als auch extrinsischen Lesemotivation unter Berücksichtigung der Lesehäufigkeit. In Hinblick auf die Leseentwicklung in Klassenstufe 1–3 wurde ein zwischen den Klassenstufen abnehmender sukzessiver Anstieg in der Leserate beobachtet. Klassenstufeneffekte wurden außerdem berichtet für die Sakkadenlänge, die Refixationswahrscheinlichkeit und für verschiedene Fixationsdauermaße. Mit höherer Klassenstufe stieg die mittlere Sakkadenlänge, wohingegen die Refixationswahrscheinlichkeit, die Dauer der ersten Fixation auf einem Wort, die Blickdauer im sogenannten First-Pass und die Gesamtlesedauer von Worten abnahmen. Die Entwicklung der perzeptuellen Lesespanne wurde ersichtlich durch einen Anstieg von Fenstergrößen-Effekten mit steigender Klassenstufe. Der Unterschied zwischen den Klassenstufen im Hinblick auf Fenstergrößen-Effekte war größer zwischen Klasse 2 und 3 als zwischen den Klassen 1 und 2. Diese Ergebnisse wurden längsschnittlich repliziert in Studie 2. Wieder zeigte sich ein signifikanter Unterschied in der perzeptuellen Lesespanne zwischen Klassenstufe 2 und 3, jedoch nicht zwischen Klassenstufe 1 und 2 oder Klassenstufe 3 und 4. Die beobachtete und die vorhergesagte Leserate waren hoch stabil jenseits der ersten Klasse, wohingegen für die perzeptuelle Lesespanne für alle Klassenstufen nur eine moderate Stabilität gefunden wurde. Gruppenunterschiede zwischen langsameren und schnelleren Lesern im ersten Untersuchungsjahr wurden auch im zweiten Untersuchungsjahr beobachtet. Dabei zeichnete sich ein Muster eher stabiler anstatt kompensatorischer Leistungsunterschiede ab. Zwischen Klassenstufe 2 und 3 gab es sogar einen Anstieg der Disparität zwischen den Gruppen für die Leserate. Es zeichnete sich also ein sogenannter Matthäus-Effekt ab. Ein ähnlicher Effekt wurde für die perzeptuelle Lesespanne zwischen Klassenstufe 3 und 4 beobachtet. Abschließend wurde in Studie 3 ein signifikanter Zusammenhang zwischen den Blickbewegungen von Leseanfängern und ihrer Lesemotivation gefunden. In beiden Erhebungsjahren, korrelierte eine höhere intrinsische Lesemotivation mit geübteren Blickbewegungsmustern, was sich in kürzeren Fixationen, längeren Sakkaden und höheren Leseraten zeigte sowie im zweiten Erhebungsjahr auch in kleineren Refixationswahrscheinlichkeiten. In querschnittlichen linearen Modellen erwies sich die intrinsiche Lesemotivation als signifikanter Prädiktor für die oben genannten Blickmaße, selbst wenn für Klassenstufe und Lesehäufigkeit kontrolliert wurde und beide Motivationsmaße, die intrinische und die extrinsische Motivation, gleichzeitig ins Modell aufgenommen wurden. Die extrinsische Lesemotivation erwies sich hingegen nur im zweiten Erhebungsjahr als signifikanter Prädiktor der verschiedenen Fixationsdauern und der Leserate, wobei das Effektmuster durchweg entgegengesetzt zu dem für die intrinsische Lesemotivation beobachteten war. Schließlich wurden in kreuzverzögerten Autoregressionsmodellen längsschnittliche Effekte der intrinisichen Lesemotivation auf verschiedene Blickbewegungsmaße (Blickdauer im First-Pass, Gesamtlesezeit, Refixationswahrscheinlichkeit und perzeptuelle Lesespanne) beobachet. Diese Effekte waren reziprok, da alle Blickbewegungsmaße auch signifikant Varianz in der intrinsischen Lesemotivation vorhergesagt haben. Im Gegensatz dazu gab es weder signifikante längsschnittliche Effekte der extrinsichen Lesemotivation auf das Blickverhalten noch in die Gegenrichtung signifikante Effekte von Blickbewegungsmaßen auf die extrinsische Lesemotivation, mit Ausnahme einer signifikanten negativen Beziehung zwischen der extrinsischen Lesemotivation und der Lesespanne. Zusammenfassend lassen sich folgende Erkenntnisse festhalten: Die aktuelle Dissertation zeigt auf, dass der größte Zuwachs bei der Leseentwicklung im Sinne von Blickbewegungsänderungen zwischen den Klassenstufen 1 und 2 zu beobachten ist. Zusammen mit dem beobachteten Muster zeitlich stabiler Gruppenunterschiede zwischen langsameren und schnelleren Lesern und dem größer werdenden Leistungsabstand zwischen Klassenstufe 2 und 3 für das Maß der Leserate unterstreichen die Ergebnisse die Bedeutsamkeit des (der) ersten Jahre(s) formaler Leseinstruktion. Die Entwicklung der perzeptuellen Lesespanne ist verzögert, da sie am deutlichsten zwischen den Klassenstufen 2 und 3 sichtbar wird. Dies legt die Schlussfolgerung nah, dass effiziente parafoveale Verarbeitung einen gewissen Grad an fovealer Lesefertigkeit (d.h. basale Wortdekodierfähigkeiten) erfordert. Schließlich liefert die aktuelle Dissertation auch empirische Belege dafür, dass die intrinsische—aber nicht die extrinsische—Lesemotivation effektiv die Leseentwicklung unterstützt. T2 - Lesen Lernen im Deutschen KW - eye movements KW - perceptual span KW - reading development KW - beginning readers KW - German KW - moving window KW - longitudinal study KW - reading motivation KW - Blickbewegungen KW - perzentuelle Lesespanne KW - Leseentwicklung KW - Leseanfänger KW - Deutsch KW - Moving Window KW - Längsschnittstudie KW - Lesemotivation Y1 - 2021 ER - TY - THES A1 - Ohl, Sven T1 - Small eye movements during fixation : the case of postsaccadic fixation and preparatory influences T1 - Kleine Augenbewegungen während der Fixation: Der Fall der postsakkadischen Fixation und vorbereitender Einflüsse N2 - Describing human eye movement behavior as an alternating sequence of saccades and fixations turns out to be an oversimplification because the eyes continue to move during fixation. Small-amplitude saccades (e.g., microsaccades) are typically observed 1-2 times per second during fixation. Research on microsaccades came in two waves. Early studies on microsaccades were dominated by the question whether microsaccades affect visual perception, and by studies on the role of microsaccades in the process of fixation control. The lack of evidence for a unique role of microsaccades led to a very critical view on the importance of microsaccades. Over the last years, microsaccades moved into focus again, revealing many interactions with perception, oculomotor control and cognition, as well as intriguing new insights into the neurophysiological implementation of microsaccades. In contrast to early studies on microsaccades, recent findings on microsaccades were accompanied by the development of models of microsaccade generation. While the exact generating mechanisms vary between the models, they still share the assumption that microsaccades are generated in a topographically organized saccade motor map that includes a representation for small-amplitude saccades in the center of the map (with its neurophysiological implementation in the rostral pole of the superior colliculus). In the present thesis I criticize that models of microsaccade generation are exclusively based on results obtained during prolonged presaccadic fixation. I argue that microsaccades should also be studied in a more natural situation, namely the fixation following large saccadic eye movements. Studying postsaccadic fixation offers a new window to falsify models that aim to account for the generation of small eye movements. I demonstrate that error signals (visual and extra-retinal), as well as non-error signals like target eccentricity influence the characteristics of small-amplitude eye movements. These findings require a modification of a model introduced by Rolfs, Kliegl and Engbert (2008) in order to account for the generation of small-amplitude saccades during postsaccadic fixation. Moreover, I present a promising type of survival analysis that allowed me to examine time-dependent influences on postsaccadic eye movements. In addition, I examined the interplay of postsaccadic eye movements and postsaccadic location judgments, highlighting the need to include postsaccadic eye movements as covariate in the analyses of location judgments in the presented paradigm. In a second goal, I tested model predictions concerning preparatory influences on microsaccade generation during presaccadic fixation. The observation, that the preparatory set significantly influenced microsaccade rate, supports the critical model assumption that increased fixation-related activity results in a larger number of microsaccades. In the present thesis I present important influences on the generation of small-amplitude saccades during fixation. These eye movements constitute a rich oculomotor behavior which still poses many research questions. Certainly, small-amplitude saccades represent an interesting source of information and will continue to influence future studies on perception and cognition. N2 - Die Beschreibung des Blickbewegungsverhaltens als eine sich abwechselnde Folge von Sakkaden und Fixationen stellt eine starke Vereinfachung dar, denn auch während einer Fixation bewegen sich die Augen. Typischerweise treten Bewegungen von kleiner Amplitude (z.B. Mikrosakkaden), 1-2 mal pro Sekunde während einer Fixation auf. Frühe Studien zu Mikrosakkaden wurden von Fragen bezüglich des Einflusses von Mikrosakkaden auf die visuelle Wahrnehmung, und Studien zu der Rolle von Mikrosakkaden bei der Fixationskontrolle dominiert. Fehlende Evidenz für eine Rolle, die ausschließlich Mikrosakkaden zufällt, führten zu einer sehr kritischen Betrachtung von Mikrosakkaden. In den letzten Jahren rückten Mikrosakkaden wieder mehr in den Fokus. Vielerlei Zusammenhänge mit Wahrnehmung, okulomotorischer Kontrolle und Kognition, sowie neue Erkenntnisse bezüglich der neurophysiologischen Implementierung von Mikrosakkaden konnten aufgedeckt werden. In den letzten Jahren wurden verschiedene Modelle der Mikrosakkadengenerierung vorgestellt. Auch wenn sich diese in ihren exakten Mechanismen unterscheiden, so teilen sie doch die Annahme, dass Mikrosakkaden in einer topographisch organisierten motorischen Karte für Sakkaden ausgelöst werden. Diese Karten beinhalten eine Repräsentation für klein-amplitudige Sakkaden im Zentrum der Karte (mit dem rostralen Pol der colliculi superiores als neurophysiologische Implementierung). In der vorliegenden Arbeit kritisiere ich, dass Modelle der Mikrosakkadengenerierung ausschließlich auf Resultaten langanhaltender präsakkadischer Fixation beruhen. Ich führe an, dass Mikrosakkaden in einer natürlicheren Situation untersucht werden sollten, nämlich während der Fixation nach einer großen Sakkade. Die Untersuchung postsakkadischer Fixation bietet eine neue Möglichkeit Modelle der Mikrosakkadengenerierung zu falsifizieren. In den Studien zeige ich, dass Signale über den Fehler in der Sakkadenlandeposition (visuelle und extra-retinale), sowie fehler-unabhängige Signale, wie die Zielreiz-Exzentrizität, einen entscheidenden Einfluss auf kleine Sakkaden haben. Diese Resultate erfordern Modifikationen an dem kürzlich eingeführten Modell von Rolfs, Kliegl und Engbert (2008), um die Generierung von kleinen Sakkaden auch während der postsakkadischen Fixation erklären zu können. Darüber hinaus präsentiere ich eine viel versprechende Ereigniszeitanalyse, die uns erlaubt zeitabhängige Einflüsse auf das postsakkadische Blickbewegungsverhalten zu untersuchen. Außerdem untersuche ich das Zusammenspiel von postsakkadischen Augenbewegungen und postsakkadischen Positionsurteilen. Dabei wird die Bedeutung von postsakkadischen Augenbewegungen als Kovariate in den statistischen Analysen betont. Ein zweites Ziel dieser Arbeit besteht darin Modellvorhersagen bezüglich vorbereitender Einflüsse auf die Mikrosakkadengenerierung zu untersuchen. Die Ergebnisse, hinsichtlich eines signifikanten Einflusses des preparatory set auf die Mikrosakkadenrate unterstützt die wesentliche Modellannahme, dass erhöhte fixationsbezogene Aktivität zu einer größeren Anzahl an Mikrosakkaden führt. In der vorliegenden Arbeit präsentiere ich wichtige Einflüsse auf die Generierung von kleinen Sakkaden während der Fixation. Diese Augenbewegungen stellen ein vielseitiges okulomorisches Verhalten dar, welche weiterhin zahlreiche Fragen mit sich bringen und sicherlich zukünftige Studien zu Wahrnehmung und Kognition beeinflussen werden. KW - Augenbewegungen KW - Mikrosakkaden KW - Sekundärsakkaden KW - Korrektursakkaden KW - Landepositionsfehler KW - eye movements KW - microsaccades KW - secondary saccades KW - corrective saccades KW - saccadic error Y1 - 2013 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus-69862 ER - TY - THES A1 - Nuthmann, Antje T1 - The "where" and "when" of eye fixations in reading T1 - Das „Wo“ und „Wann“ von Blickfixationen beim Lesen N2 - To investigate eye-movement control in reading, the present thesis examined three phenomena related to the eyes’ landing position within words, (1) the optimal viewing position (OVP), (2) the preferred viewing location (PVL), and (3) the Fixation-Duration Inverted-Optimal Viewing Position (IOVP) Effect. Based on a corpus-analytical approach (Exp. 1), the influence of variables word length, launch site distance, and word frequency was systematically explored. In addition, five experimental manipulations were conducted. First, word center was identified as the OVP, that is the position within a word where refixation probability is minimal. With increasing launch site distance, however, the OVP was found to move towards the word beginning. Several possible causes of refixations were discussed. The issue of refixation saccade programming was extensively investigated, suggesting that pre-planned and directly controlled refixation saccades coexist. Second, PVL curves, that is landing position distributions, show that the eyes are systematically deviated from the OVP, due to visuomotor constraints. By far the largest influence on mean and standard deviation of the Gaussian PVL curve was exhibited by launch site distance. Third, it was investigated how fixation durations vary as a function of landing position. The IOVP effect was replicated: Fixations located at word center are longer than those falling near the edges of a word. The effect of word frequency and/or launch site distance on the IOVP function mainly consisted in a vertical displacement of the curve. The Fixation-Duration IOVP effect is intriguing because word center (the OVP) would appear to be the best place to fixate and process a word. A critical part of the current work was devoted to investigate the origin of the effect. It was suggested that the IOVP effect arises as a consequence of mislocated fixations, i.e. fixations on unintended words, which are caused by saccadic errors. An algorithm for estimating the proportion of mislocated fixations from empirical data was developed, based on extrapolations of landing position distributions beyond word boundaries. As a new central theoretical claim it was suggested that a new saccade program is started immediately if the intended target word is missed. On average, this will lead to decreased durations for mislocated fixations. Because mislocated fixations were shown to be most prevalent at the beginning and end of words, the proposed mechanism generated the inverted U-shape for fixation durations when computed as a function of landing position. The proposed mechanism for generating the effect is generally compatible with both oculomotor and cognitive models of eye-movement control in reading. N2 - Um Blickbewegungen beim Lesen zu untersuchen, wurden in der vorliegenden Dissertation drei Phänomene in Bezug auf die Landeposition des Auges innerhalb des Wortes betrachtet, (1) die optimale Blickposition (OVP), (2) die präferierte Blickposition (PVL) und (3) der Invertierte Optimale Blickpositionseffekt für Fixationsdauern (IOVP). In einem corpus-analytischen Ansatz (Exp. 1) wurde systematisch untersucht, wie die Variablen Wortlänge, Sakkadenstartdistanz und Wortfrequenz die Parameter der OVP-, PVL-, bzw. IOVP-Funktion beeinflussen. Des weiteren wurden fünf experimentelle Manipulationen durchgeführt. Erstens, die Wortmitte wurde als OVP identifiziert, operationalisiert als die Buchstabenposition innerhalb eines Wort, an der die Refixationswahrscheinlichkeit minimal ist. Mit zunehmender Sakkadenstartdistanz verschob sich die OVP jedoch in Richtung Wortanfang. Verschiedene in Betracht kommende ursächliche Faktoren für Refixationen wurden diskutiert. Des weiteren wurden Fragen zur Programmierung von Refixationen untersucht, wobei die Ergebnisse nahe legen, dass vorgeplante und unmittelbar gesteuerte Refixationssakkaden koexistieren. Zweitens, Landepositionsverteilungen (PVL-Kurven) zeigen, dass die Augen systematisch von der OVP abweichen, was im Wesentlichen auf visuomotorische Faktoren zurückzuführen ist. Mittelwert und Standardverteilung der normalverteilten PVL-Kurven wurden v.a. von der Sakkadenstartdistanz beeinflusst. Als dritter Schwerpunkt wurde untersucht, wie Fixationsdauern als Funktion der Landeposition variieren. Der Invertierte Optimale Blickpositionseffekt wurde repliziert: In der Wortmitte lokalisierte Fixationen sind länger als solche, die sich an den Worträndern befinden. Der Effekt von Wortfrequenz bzw. Sakkadenstartdistanz auf die IOVP-Funktion zeigte sich im Wesentlichen in einer vertikalen Verschiebung der Kurve. Der Befund eines invertierten OVP-Effektes für Fixationsdauern ist kontraintuitiv, denn die Wortmitte (OVP) wird als optimaler Ort betrachtet, um ein Wort zu fixieren und zu verarbeiten. Ein wesentlicher Beitrag der vorliegenden Arbeit bestand darin, ursächliche Faktoren für den IOVP-Effekt zu identifizieren. Es wurde vorgeschlagen, dass der Effekt auf sog. fehlplazierte Fixationen, d.h. Fixationen auf nicht-intendierten Wörtern, zurückzuführen ist. Fehlplazierte Fixationen werden durch okulomotorische Fehler in der Sakkadenprogrammierung verursacht. Es wurde ein Algorithmus entwickelt, um den Anteil fehlplazierter Fixationen aus empirischen Lesedaten abzuschätzen, basierend auf Extrapolationen von Landepositionsverteilungen über die Wortgrenzen hinweg. Als zentrale theoretische Annahme wurde formuliert, dass ein neues potentiell korrigierendes Sakkadenprogramm unverzüglich gestartet wird, wenn das intendierte Zielwort verfehlt wurde. Dadurch verringert sich die mittlere Dauer von fehlplazierten Fixationen. Da fehlplazierte Fixationen am häufigsten am Wortanfang und am Wortende auftreten, generierte der vorgeschlagene Mechanismus die invertierte U-Form für Fixationsdauern als Funktion der Landeposition. Der Mechanismus, der – gemäß der hier entwickelten Argumentation – dem IOVP-Effekt zugrunde liegt, ist prinzipiell sowohl mit okulomotorischen als auch mit kognitiven Theorien der Blicksteuerung beim Lesen vereinbar. KW - Allgemeine Psychologie KW - Lesen KW - Blickbewegungen KW - IOVP-Effekt KW - Optimale und Präferierte Blickposition KW - fehlplazierte Fixationen KW - reading KW - eye movements KW - IOVP effect KW - optimal and preferred viewing position KW - mislocated fixations Y1 - 2005 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus-7931 ER - TY - JOUR A1 - Meixner, Johannes M. A1 - Nixon, Jessie S. A1 - Laubrock, Jochen T1 - The perceptual span is dynamically adjusted in response to foveal load by beginning readers JF - Journal of experimental psychology : general N2 - The perceptual span describes the size of the visual field from which information is obtained during a fixation in reading. Its size depends on characteristics of writing system and reader, but-according to the foveal load hypothesis-it is also adjusted dynamically as a function of lexical processing difficulty. Using the moving window paradigm to manipulate the amount of preview, here we directly test whether the perceptual span shrinks as foveal word difficulty increases. We computed the momentary size of the span from word-based eye-movement measures as a function of foveal word frequency, allowing us to separately describe the perceptual span for information affecting spatial saccade targeting and temporal saccade execution. First fixation duration and gaze duration on the upcoming (parafoveal) word N + 1 were significantly shorter when the current (foveal) word N was more frequent. We show that the word frequency effect is modulated by window size. Fixation durations on word N + 1 decreased with high-frequency words N, but only for large windows, that is, when sufficient parafoveal preview was available. This provides strong support for the foveal load hypothesis. To investigate the development of the foveal load effect, we analyzed data from three waves of a longitudinal study on the perceptual span with German children in Grades 1 to 6. Perceptual span adjustment emerged early in development at around second grade and remained stable in later grades. We conclude that the local modulation of the perceptual span indicates a general cognitive process, perhaps an attentional gradient with rapid readjustment. KW - eye movements KW - attention KW - perceptual span KW - foveal load KW - reading KW - development Y1 - 2022 U6 - https://doi.org/10.1037/xge0001140 SN - 0096-3445 SN - 1939-2222 VL - 151 IS - 6 SP - 1219 EP - 1232 PB - American Psychological Association CY - Washington ER - TY - JOUR A1 - Luo, Yingyi A1 - Yan, Ming A1 - Zhou, Xiaolin T1 - Prosodic boundaries delay the processing of upcoming lexical information during silent sentence reading JF - Journal of experimental psychology : Learning, memory, and cognition N2 - Prosodic boundaries can be used to guide syntactic parsing in both spoken and written sentence comprehension, but it is unknown whether the processing of prosodic boundaries affects the processing of upcoming lexical information. In 3 eye-tracking experiments, participants read silently sentences that allow for 2 possible syntactic interpretations when there is no comma or other cue specifying which interpretation should be taken. In Experiments 1 and 2, participants heard a low-pass filtered auditory version of the sentence, which provided a prosodic boundary cue prior to each sentence. In Experiment 1, we found that the boundary cue helped syntactic disambiguation after the cue and led to longer fixation durations on regions right before the cue than on identical regions without prosodic boundary information. In Experiments 2 and 3, we used a gaze-contingent display-change paradigm to manipulate the parafoveal visibility of the first constituent character of the target word after the disambiguating position. Results of Experiment 2 showed that previewing the first character significantly reduced the reading time of the target word, but this preview benefit was greatly reduced when the prosodic boundary cue was introduced at this position. In Experiment 3, instead of the acoustic cues, a visually presented comma was inserted at the disambiguating position in each sentence. Results showed that the comma effect on lexical processing was essentially the same as the effect of prosodic boundary cue. These findings demonstrate that processing a prosodic boundary could impair the processing of parafoveal information during sentence reading. KW - prosodic boundary KW - sentence reading KW - eye movements KW - parafoveal processing KW - wrap-up process Y1 - 2013 U6 - https://doi.org/10.1037/a0029182 SN - 0278-7393 SN - 1939-1285 VL - 39 IS - 3 SP - 915 EP - 930 PB - American Psychological Association CY - Washington ER - TY - GEN A1 - Laubrock, Jochen A1 - Kliegl, Reinhold T1 - The eye-voice span during reading aloud N2 - Although eye movements during reading are modulated by cognitive processing demands, they also reflect visual sampling of the input, and possibly preparation of output for speech or the inner voice. By simultaneously recording eye movements and the voice during reading aloud, we obtained an output measure that constrains the length of time spent on cognitive processing. Here we investigate the dynamics of the eye-voice span (EVS), the distance between eye and voice. We show that the EVS is regulated immediately during fixation of a word by either increasing fixation duration or programming a regressive eye movement against the reading direction. EVS size at the beginning of a fixation was positively correlated with the likelihood of regressions and refixations. Regression probability was further increased if the EVS was still large at the end of a fixation: if adjustment of fixation duration did not sufficiently reduce the EVS during a fixation, then a regression rather than a refixation followed with high probability. We further show that the EVS can help understand cognitive influences on fixation duration during reading: in mixed model analyses, the EVS was a stronger predictor of fixation durations than either word frequency or word length. The EVS modulated the influence of several other predictors on single fixation durations (SFDs). For example, word-N frequency effects were larger with a large EVS, especially when word N-1 frequency was low. Finally, a comparison of SFDs during oral and silent reading showed that reading is governed by similar principles in both reading modes, although EVS maintenance and articulatory processing also cause some differences. In summary, the EVS is regulated by adjusting fixation duration and/or by programming a regressive eye movement when the EVS gets too large. Overall, the EVS appears to be directly related to updating of the working memory buffer during reading. T3 - Zweitveröffentlichungen der Universität Potsdam : Humanwissenschaftliche Reihe - 283 KW - reading KW - eye movements KW - eye-voice span KW - synchronization KW - working memory updating KW - psycholinguistics Y1 - 2015 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-86904 ER - TY - JOUR A1 - Laubrock, Jochen A1 - Kliegl, Reinhold T1 - The eye-voice span during reading aloud JF - Frontiers in psychology N2 - Although eye movements during reading are modulated by cognitive processing demands, they also reflect visual sampling of the input, and possibly preparation of output for speech or the inner voice. By simultaneously recording eye movements and the voice during reading aloud, we obtained an output measure that constrains the length of time spent on cognitive processing. Here we investigate the dynamics of the eye-voice span (EVS), the distance between eye and voice. We show that the EVS is regulated immediately during fixation of a word by either increasing fixation duration or programming a regressive eye movement against the reading direction. EVS size at the beginning of a fixation was positively correlated with the likelihood of regressions and refixations. Regression probability was further increased if the EVS was still large at the end of a fixation: if adjustment of fixation duration did not sufficiently reduce the EVS during a fixation, then a regression rather than a refixation followed with high probability. We further show that the EVS can help understand cognitive influences on fixation duration during reading: in mixed model analyses, the EVS was a stronger predictor of fixation durations than either word frequency or word length. The EVS modulated the influence of several other predictors on single fixation durations (SFDs). For example, word-N frequency effects were larger with a large EVS, especially when word N-1 frequency was low. Finally, a comparison of SFDs during oral and silent reading showed that reading is governed by similar principles in both reading modes, although EVS maintenance and articulatory processing also cause some differences. In summary, the EVS is regulated by adjusting fixation duration and/or by programming a regressive eye movement when the EVS gets too large. Overall, the EVS appears to be directly related to updating of the working memory buffer during reading. KW - reading KW - eye movements KW - eye-voice span KW - synchronization KW - working memory updating KW - psychologinguistics Y1 - 2015 U6 - https://doi.org/10.3389/fpsyg.2015.01437 SN - 1664-1078 VL - 6 PB - Frontiers Research Foundation CY - Lausanne ER - TY - JOUR A1 - Laubrock, Jochen A1 - Kliegl, Reinhold T1 - The eye-voice span during reading aloud JF - Frontiers in psychology N2 - Although eye movements during reading are modulated by cognitive processing demands, they also reflect visual sampling of the input, and possibly preparation of output for speech or the inner voice. By simultaneously recording eye movements and the voice during reading aloud, we obtained an output measure that constrains the length of time spent on cognitive processing. Here we investigate the dynamics of the eye-voice span (EVS), the distance between eye and voice. We show that the EVS is regulated immediately during fixation of a word by either increasing fixation duration or programming a regressive eye movement against the reading direction. EVS size at the beginning of a fixation was positively correlated with the likelihood of regressions and refixations. Regression probability was further increased if the EVS was still large at the end of a fixation: if adjustment of fixation duration did not sufficiently reduce the EVS during a fixation, then a regression rather than a refixation followed with high probability. We further show that the EVS can help understand cognitive influences on fixation duration during reading: in mixed model analyses, the EVS was a stronger predictor of fixation durations than either word frequency or word length. The EVS modulated the influence of several other predictors on single fixation durations (SFDs). For example, word-N frequency effects were larger with a large EVS, especially when word N-1 frequency was low. Finally, a comparison of SFDs during oral and silent reading showed that reading is governed by similar principles in both reading modes, although EVS maintenance and articulatory processing also cause some differences. In summary, the EVS is regulated by adjusting fixation duration and/or by programming a regressive eye movement when the EVS gets too large. Overall, the EVS appears to be directly related to updating of the working memory buffer during reading. KW - reading KW - eye movements KW - eye-voice span KW - synchronization KW - working memory updating KW - psychologinguistics Y1 - 2015 U6 - https://doi.org/10.3389/fpsyg.2015.01432 SN - 1664-1078 VL - 6 IS - 1432 PB - Frontiers Research Foundation CY - Lausanne ER - TY - GEN A1 - Kliegl, Reinhold A1 - Risse, Sarah A1 - Laubrock, Jochen T1 - Preview Benefit and Parafoveal-on-Foveal Effects from Word N+2 N2 - Using the gaze-contingent boundary paradigm with the boundary placed after word n, we manipulated preview of word n+2 for fixations on word n. There was no preview benefit for first-pass reading on word n+2, replicating the results of Rayner, Juhasz, and Brown (2007), but there was a preview benefit on the three-letter word n+1, that is, after the boundary, but before word n+2. Additionally, both word n+1 and word n+2 exhibited parafoveal-on-foveal effects on word n. Thus, during a fixation on word n and given a short word n+1, some information is extracted from word n+2, supporting the hypothesis of distributed processing in the perceptual span. T3 - Zweitveröffentlichungen der Universität Potsdam : Humanwissenschaftliche Reihe - paper 257 KW - eye movements KW - reading KW - preview benefit KW - parafoveal-on-foveal effects Y1 - 2007 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus-57186 ER - TY - GEN A1 - Kliegl, Reinhold A1 - Nuthmann, Antje A1 - Engbert, Ralf T1 - Tracking the Mind During Reading: The Influence of Past, Present, and Future Words on Fixation Durations N2 - Reading requires the orchestration of visual, attentional, language-related, and oculomotor processing constraints. This study replicates previous effects of frequency, predictability, and length of fixated words on fixation durations in natural reading and demonstrates new effects of these variables related to previous and next words. Results are based on fixation durations recorded from 222 persons, each reading 144 sentences. Such evidence for distributed processing of words across fixation durations challenges psycholinguistic immediacy-of-processing and eye-mind assumptions. Most of the time the mind processes several words in parallel at different perceptual and cognitive levels. Eye movements can help to unravel these processes. T3 - Zweitveröffentlichungen der Universität Potsdam : Humanwissenschaftliche Reihe - paper 263 KW - eye movements KW - fixation duration KW - gaze KW - word recognition KW - reading Y1 - 2006 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus-57225 ER - TY - GEN A1 - Hohenstein, Sven A1 - Laubrock, Jochen A1 - Kliegl, Reinhold T1 - Semantic preview benefit in eye movements during reading: a parafoveal past-priming study N2 - Eye movements in reading are sensitive to foveal and parafoveal word features. Whereas the influence of orthographic or phonological parafoveal information on gaze control is undisputed, there has been no reliable evidence for early parafoveal extraction of semantic information in alphabetic script. Using a novel combination of the gaze-contingent fast-priming and boundary paradigms, we demonstrate semantic preview benefit when a semantically related parafoveal word was available during the initial 125 ms of a fixation on the pre-target word (Experiments 1 and 2). When the target location was made more salient, significant parafoveal semantic priming occurred only at 80 ms (Experiment 3). Finally, with short primes only (20, 40, 60 ms) effects were not significant but numerically in the expected direction for 40 and 60 ms (Experiment 4). In all experiments, fixation durations on the target word increased with prime durations under all conditions. The evidence for extraction of semantic information from the parafoveal word favors an explanation in terms of parallel word processing in reading. T3 - Zweitveröffentlichungen der Universität Potsdam : Humanwissenschaftliche Reihe - paper 261 KW - eye movements KW - reading KW - parafoveal preview KW - semantic priming Y1 - 2010 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus-57203 ER - TY - JOUR A1 - Hohenstein, Sven A1 - Kliegl, Reinhold T1 - Semantic preview benefit during reading JF - Journal of experimental psychology : Learning, memory, and cognition N2 - Word features in parafoveal vision influence eye movements during reading. The question of whether readers extract semantic information from parafoveal words was studied in 3 experiments by using a gaze-contingent display change technique. Subjects read German sentences containing 1 of several preview words that were replaced by a target word during the saccade to the preview (boundary paradigm). In the 1st experiment the preview word was semantically related or unrelated to the target. Fixation durations on the target were shorter for semantically related than unrelated previews, consistent with a semantic preview benefit. In the 2nd experiment, half the sentences were presented following the rules of German spelling (i.e., previews and targets were printed with an initial capital letter), and the other half were presented completely in lowercase. A semantic preview benefit was obtained under both conditions. In the 3rd experiment, we introduced 2 further preview conditions, an identical word and a pronounceable nonword, while also manipulating the text contrast. Whereas the contrast had negligible effects, fixation durations on the target were reliably different for all 4 types of preview. Semantic preview benefits were greater for pretarget fixations closer to the boundary (large preview space) and, although not as consistently, for long pretarget fixation durations (long preview time). The results constrain theoretical proposals about eye movement control in reading. KW - eye movements KW - reading KW - semantic preview benefit KW - parafoveal processing KW - display change awareness Y1 - 2014 U6 - https://doi.org/10.1037/a0033670 SN - 0278-7393 SN - 1939-1285 VL - 40 IS - 1 SP - 166 EP - 190 PB - American Psychological Association CY - Washington ER - TY - THES A1 - Hohenstein, Sven T1 - Eye movements and processing of semantic information in the parafovea during reading T1 - Blickbewegungen und die Verarbeitung semantischer Informationen in der Parafovea beim Lesen N2 - When we read a text, we obtain information at different levels of representation from abstract symbols. A reader’s ultimate aim is the extraction of the meaning of the words and the text. The reserach of eye movements in reading covers a broad range of psychological systems, ranging from low-level perceptual and motor processes to high-level cognition. Reading of skilled readers proceeds highly automatic, but is a complex phenomenon of interacting subprocesses at the same time. The study of eye movements during reading offers the possibility to investigate cognition via behavioral measures during the excercise of an everyday task. The process of reading is not limited to the directly fixated (or foveal) word but also extends to surrounding (or parafoveal) words, particularly the word to the right of the gaze position. This process may be unconscious, but parafoveal information is necessary for efficient reading. There is an ongoing debate on whether processing of the upcoming word encompasses word meaning (or semantics) or only superficial features. To increase the knowledge about how the meaning of one word helps processing another word, seven experiments were conducted. In these studies, words were exachanged during reading. The degree of relatedness between the word to the right of the currently fixated one and the word subsequently fixated was experimentally manipulated. Furthermore, the time course of the parafoveal extraction of meaning was investigated with two different approaches, an experimental one and a statistical one. As a major finding, fixation times were consistently lower if a semantically related word was presented compared to the presence of an unrelated word. Introducing an experimental technique that allows controlling the duration for which words are available, the time course of processing and integrating meaning was evaluated. Results indicated both facilitation and inhibition due to relatedness between the meanings of words. In a more natural reading situation, the effectiveness of the processing of parafoveal words was sometimes time-dependent and substantially increased with shorter distances between the gaze position and the word. Findings are discussed with respect to theories of eye-movement control. In summary, the results are more compatible with models of distributed word processing. The discussions moreover extend to language differences and technical issues of reading research. N2 - Wenn wir einen Text lesen, erfassen wir Informationen auf verschiedenen Repräsentationsebenen anhand abstrakter Symbole. Das oberste Ziel des Lesers ist das Erfassen der Bedeutung der Worte und des Textes. Die Erforschung der Blickbewegungen beim Lesen umfasst verschiedene Verarbeitungsebenen, die von Warhnehmung über motorische Prozesse bis hin zu Kognition auf übergeordneter Ebene reichen. Das Lesen geübter Leser verläuft zum großen Teil automatisch, ist aber gleichzeitig ein komplexes Phänomen interagierender Teilprozesse. Die Untersuchung von Blickbewegungen beim Lesen eröffnet die Möglichkeit, kognitive Prozesse bei der Ausübung einer alltäglichen Aufgabe anhand von Verhaltensmaßen zu untersuchen. Der Leseprozess ist nicht beschränkt auf das direkt fixierte (oder foveale) Wort, sondern umfasst auch umgebende (oder parafoveale) Wörter, insbesondere das Wort rechts der Blickposition. Obgleich dies nicht notwendigerweise bewusst geschieht, ist die parafoveale Information dennoch wichtig für effizientes Lesen. Es wird darüber diskutiert, ob die Verarbeitung des nächsten Wortes die Wortbedeutung (Semantik) oder nur oberflächliche Eigenschaften umfasst. Um ein besseres Verständnis zu erhalten, ob die Bedeutung eines Wortes bei der Verarbeitung eines anderen Wortes hilft, wurden sieben Experimente durchgeführt. In diesen Studien wurde ein Wort im Satz während des Lesens ausgetauscht. Der inhaltliche Zusammenhang zwischen einer parafoveal präsentierten Vorschau und dem anschließend fixierten Zielwort wurde experimentell manipuliert. Außerdem wurde der zeitliche Verlauf der Bedeutungserfassung aus parafovealen Wörtern mit zwei Ansätzen untersucht, einem experimentellen und einem statistischen. Als primärer Befund zeigte sich, dass die Fixationszeiten durchweg kürzer waren, wenn ein semantisch verwandtes Wort als Vorschau präsentiert wurde, verglichen mit einem Wort ohne Verwandtschaft. Mit der in dieser Arbeit verwendeten experimentellen Vorgehensweise konnte zudem der zeitliche Verlauf des Verarbeitens und Integrierens von Bedeutung ermittelt wurde. Dabei ergaben sich kürzere Fixationszeiten auf dem Zielwort bei ähnlichen Wortbedeutungen und längere Fixationszeiten bei unterschiedlichen Wortbedeutungen. Die Ergebnisse zeigten sowohl leichtere als auch schwerere Verarbeitung in Folge der Ähnlichkeit von Wortbedeutungen. In einer natürlicheren Lesesituation war die Wirksamkeit der Verarbeitung nachfolgender Wörter teilweise abhängig von der Dauer der Vorschau, und sie war deutlich größer bei kürzerer räumlicher Distanz zwischen der Blickposition und der Vorschau. Die Befunde werden mit Blick auf Theorien der Blickbewegunskontrolle diskutiert. Die Ergebnisse sind stärker mit Modellen verteilter Wortverarbeitung vereinbar. Die Diskussion erstreckt sich außerdem auf Sprachunterschiede und technische Aspekte der Leseforschung. KW - Blickbewegungen KW - Lesen KW - parafoveale Verarbeitung KW - Semantik KW - eye movements KW - reading KW - parafoveal processing KW - semantics Y1 - 2013 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus-70363 ER - TY - JOUR A1 - Hartmann, Matthias A1 - Mast, Fred W. A1 - Fischer, Martin H. T1 - Spatial biases during mental arithmetic: evidence from eye movements on a blank screen JF - Frontiers in psychology N2 - While the influence of spatial-numerical associations in number categorization tasks has been well established, their role in mental arithmetic is less clear. It has been hypothesized that mental addition leads to rightward and upward shifts of spatial attention (along the "mental number line"), whereas subtraction leads to leftward and downward shifts. We addressed this hypothesis by analyzing spontaneous eye movements during mental arithmetic. Participants solved verbally presented arithmetic problems (e.g., 2 + 7, 8-3) aloud while looking at a blank screen. We found that eye movements reflected spatial biases in the ongoing mental operation: Gaze position shifted more upward when participants solved addition compared to subtraction problems, and the horizontal gaze position was partly determined by the magnitude of the operands. Interestingly, the difference between addition and subtraction trials was driven by the operator (plus vs. minus) but was not influenced by the computational process. Thus, our results do not support the idea of a mental movement toward the solution during arithmetic but indicate a semantic association between operation and space. KW - mental arithmetic KW - eye movements KW - mental number line KW - operational momentum KW - embodied cognition KW - grounded cognition Y1 - 2015 U6 - https://doi.org/10.3389/fpsyg.2015.00012 SN - 1664-1078 VL - 6 PB - Frontiers Research Foundation CY - Lausanne ER - TY - JOUR A1 - Fernandez, Gerardo A1 - Shalom, Diego E. A1 - Kliegl, Reinhold A1 - Sigman, Mariano T1 - Eye movements during reading proverbs and regular sentences: the incoming word predictability effect JF - Language, cognition and neuroscience KW - eye movements KW - reading KW - proverbs KW - incoming word predictability effect Y1 - 2014 U6 - https://doi.org/10.1080/01690965.2012.760745 SN - 2327-3798 SN - 2327-3801 VL - 29 IS - 3 SP - 260 EP - 273 PB - Routledge, Taylor & Francis Group CY - Abingdon ER - TY - JOUR A1 - Engbert, Ralf A1 - Trukenbrod, Hans Arne A1 - Barthelme, Simon A1 - Wichmann, Felix A. T1 - Spatial statistics and attentional dynamics in scene viewing JF - Journal of vision N2 - In humans and in foveated animals visual acuity is highly concentrated at the center of gaze, so that choosing where to look next is an important example of online, rapid decision-making. Computational neuroscientists have developed biologically-inspired models of visual attention, termed saliency maps, which successfully predict where people fixate on average. Using point process theory for spatial statistics, we show that scanpaths contain, however, important statistical structure, such as spatial clustering on top of distributions of gaze positions. Here, we develop a dynamical model of saccadic selection that accurately predicts the distribution of gaze positions as well as spatial clustering along individual scanpaths. Our model relies on activation dynamics via spatially-limited (foveated) access to saliency information, and, second, a leaky memory process controlling the re-inspection of target regions. This theoretical framework models a form of context-dependent decision-making, linking neural dynamics of attention to behavioral gaze data. KW - scene perception KW - eye movements KW - attention KW - saccades KW - modeling KW - spatial statistics Y1 - 2015 U6 - https://doi.org/10.1167/15.1.14 SN - 1534-7362 VL - 15 IS - 1 PB - Association for Research in Vision and Opthalmology CY - Rockville ER - TY - JOUR A1 - Cajar, Anke A1 - Engbert, Ralf A1 - Laubrock, Jochen T1 - How spatial frequencies and color drive object search in real-world scenes BT - a new eye-movement corpus JF - Journal of vision N2 - When studying how people search for objects in scenes, the inhomogeneity of the visual field is often ignored. Due to physiological limitations, peripheral vision is blurred and mainly uses coarse-grained information (i.e., low spatial frequencies) for selecting saccade targets, whereas high-acuity central vision uses fine-grained information (i.e., high spatial frequencies) for analysis of details. Here we investigated how spatial frequencies and color affect object search in real-world scenes. Using gaze-contingent filters, we attenuated high or low frequencies in central or peripheral vision while viewers searched color or grayscale scenes. Results showed that peripheral filters and central high-pass filters hardly affected search accuracy, whereas accuracy dropped drastically with central low-pass filters. Peripheral filtering increased the time to localize the target by decreasing saccade amplitudes and increasing number and duration of fixations. The use of coarse-grained information in the periphery was limited to color scenes. Central filtering increased the time to verify target identity instead, especially with low-pass filters. We conclude that peripheral vision is critical for object localization and central vision is critical for object identification. Visual guidance during peripheral object localization is dominated by low-frequency color information, whereas high-frequency information, relatively independent of color, is most important for object identification in central vision. KW - scene viewing KW - eye movements KW - object search KW - central and peripheral KW - vision KW - spatial frequencies KW - color KW - gaze-contingent displays Y1 - 2020 U6 - https://doi.org/10.1167/jov.20.7.8 SN - 1534-7362 VL - 20 IS - 7 PB - Association for Research in Vision and Opthalmology CY - Rockville ER - TY - THES A1 - Cajar, Anke T1 - Eye-movement control during scene viewing T1 - Blicksteuerung bei der Betrachtung natürlicher Szenen BT - the roles of central and peripheral vision BT - die Rollen des zentralen und peripheren Sehens N2 - Eye movements serve as a window into ongoing visual-cognitive processes and can thus be used to investigate how people perceive real-world scenes. A key issue for understanding eye-movement control during scene viewing is the roles of central and peripheral vision, which process information differently and are therefore specialized for different tasks (object identification and peripheral target selection respectively). Yet, rather little is known about the contributions of central and peripheral processing to gaze control and how they are coordinated within a fixation during scene viewing. Additionally, the factors determining fixation durations have long been neglected, as scene perception research has mainly been focused on the factors determining fixation locations. The present thesis aimed at increasing the knowledge on how central and peripheral vision contribute to spatial and, in particular, to temporal aspects of eye-movement control during scene viewing. In a series of five experiments, we varied processing difficulty in the central or the peripheral visual field by attenuating selective parts of the spatial-frequency spectrum within these regions. Furthermore, we developed a computational model on how foveal and peripheral processing might be coordinated for the control of fixation duration. The thesis provides three main findings. First, the experiments indicate that increasing processing demands in central or peripheral vision do not necessarily prolong fixation durations; instead, stimulus-independent timing is adapted when processing becomes too difficult. Second, peripheral vision seems to play a prominent role in the control of fixation durations, a notion also implemented in the computational model. The model assumes that foveal and peripheral processing proceed largely in parallel and independently during fixation, but can interact to modulate fixation duration. Thus, we propose that the variation in fixation durations can in part be accounted for by the interaction between central and peripheral processing. Third, the experiments indicate that saccadic behavior largely adapts to processing demands, with a bias of avoiding spatial-frequency filtered scene regions as saccade targets. We demonstrate that the observed saccade amplitude patterns reflect corresponding modulations of visual attention. The present work highlights the individual contributions and the interplay of central and peripheral vision for gaze control during scene viewing, particularly for the control of fixation duration. Our results entail new implications for computational models and for experimental research on scene perception. N2 - Blickbewegungen stellen ein Fenster in aktuelle visuell-kognitive Prozesse dar und können genutzt werden um zu untersuchen wie Menschen natürliche Szenen wahrnehmen. Eine zentrale Frage ist, welche Rollen zentrales und peripheres Sehen für die Blicksteuerung in Szenen spielen, da sie Information unterschiedlich verarbeiten und auf verschiedene Aufgaben spezialisiert sind (Objektidentifikation bzw. periphere Zielauswahl). Jedoch ist kaum bekannt, welche Beiträge zentrale und periphere Verarbeitung für die Blicksteuerung in Szenen leisten und wie sie während der Fixation koordiniert werden. Des Weiteren wurden Einflussfaktoren auf Fixationsdauern bisher vernachlässigt, da die Forschung zur Szenenwahrnehmung hauptsächlich auf Einflussfaktoren auf Fixationsorte fokussiert war. Die vorliegende Arbeit hatte zum Ziel, das Wissen über die Beiträge des zentralen und peripheren Sehens zu räumlichen, aber vor allem zu zeitlichen Aspekten der Blicksteuerung in Szenen zu erweitern. In einer Serie von fünf Experimenten haben wir die Verarbeitungsschwierigkeit im zentralen oder peripheren visuellen Feld durch die Abschwächung selektiver Raumfrequenzanteile innerhalb dieser Regionen variiert. Des Weiteren haben wir ein computationales Modell zur Koordination von fovealer und peripherer Verarbeitung für die Kontrolle von Fixationsdauern entwickelt. Die Arbeit liefert drei Hauptbefunde. Erstens zeigen die Experimente, dass erhöhte Verarbeitungsanforderungen im zentralen oder peripheren visuellen Feld nicht zwangsläufig zu längeren Fixationsdauern führen; stattdessen werden Fixationsdauern stimulus-unabhängig gesteuert, wenn die Verarbeitung zu schwierig wird. Zweitens scheint peripheres Sehen eine entscheidene Rolle für die Kontrolle von Fixationsdauern zu spielen, eine Idee, die auch im computationalen Modell umgesetzt wurde. Das Modell nimmt an, dass foveale und periphere Verarbeitung während der Fixation weitgehend parallel und unabhängig ablaufen, aber interagieren können um Fixationsdauern zu modulieren. Wir schlagen somit vor, dass Änderungen in Fixationsdauern zum Teil auf die Interaktion von zentraler und peripherer Verarbeitung zurückgeführt werden können. Drittens zeigen die Experimente, dass räumliches Blickverhalten sich weitgehend an Verarbeitungsanforderungen anpasst und Betrachter Szenenregionen mit Raumfrequenzfilterung als Sakkadenziele vermeiden. Wir zeigen, dass diese Sakkadenamplitudeneffekte entsprechende Modulationen der visuellen Aufmerksamkeit reflektieren. Die vorliegende Arbeit hebt die einzelnen Beiträge und das Zusammenspiel zentralen und peripheren Sehens für die Blicksteuerung in der Szenenwahrnehmung hervor, besonders für die Kontrolle von Fixationsdauern. Unsere Ergebnisse geben neue Implikationen für computationale Modelle und experimentelle Forschung zur Szenenwahrnehmung. KW - psychology KW - eye movements KW - scene perception KW - Psychologie KW - Blickbewegungen KW - Szenenwahrnehmung Y1 - 2016 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-395536 ER - TY - JOUR A1 - Barthelme, Simon A1 - Trukenbrod, Hans Arne A1 - Engbert, Ralf A1 - Wichmann, Felix A. T1 - Modeling fixation locations using spatial point processes JF - Journal of vision N2 - Whenever eye movements are measured, a central part of the analysis has to do with where subjects fixate and why they fixated where they fixated. To a first approximation, a set of fixations can be viewed as a set of points in space; this implies that fixations are spatial data and that the analysis of fixation locations can be beneficially thought of as a spatial statistics problem. We argue that thinking of fixation locations as arising from point processes is a very fruitful framework for eye-movement data, helping turn qualitative questions into quantitative ones. We provide a tutorial introduction to some of the main ideas of the field of spatial statistics, focusing especially on spatial Poisson processes. We show how point processes help relate image properties to fixation locations. In particular we show how point processes naturally express the idea that image features' predictability for fixations may vary from one image to another. We review other methods of analysis used in the literature, show how they relate to point process theory, and argue that thinking in terms of point processes substantially extends the range of analyses that can be performed and clarify their interpretation. KW - eye movements KW - fixation locations KW - saliency KW - modeling KW - point process KW - spatial statistics Y1 - 2013 U6 - https://doi.org/10.1167/13.12.1 SN - 1534-7362 VL - 13 IS - 12 PB - Association for Research in Vision and Opthalmology CY - Rockville ER - TY - JOUR A1 - Adam, Maurits A1 - Elsner, Birgit T1 - The impact of salient action effects on 6-, 7-, and 11-month-olds’ goal-predictive gaze shifts for a human grasping action JF - PLOS ONE N2 - When infants observe a human grasping action, experience-based accounts predict that all infants familiar with grasping actions should be able to predict the goal regardless of additional agency cues such as an action effect. Cue-based accounts, however, suggest that infants use agency cues to identify and predict action goals when the action or the agent is not familiar. From these accounts, we hypothesized that younger infants would need additional agency cues such as a salient action effect to predict the goal of a human grasping action, whereas older infants should be able to predict the goal regardless of agency cues. In three experiments, we presented 6-, 7-, and 11-month-olds with videos of a manual grasping action presented either with or without an additional salient action effect (Exp. 1 and 2), or we presented 7-month-olds with videos of a mechanical claw performing a grasping action presented with a salient action effect (Exp. 3). The 6-month-olds showed tracking gaze behavior, and the 11-month-olds showed predictive gaze behavior, regardless of the action effect. However, the 7-month-olds showed predictive gaze behavior in the action-effect condition, but tracking gaze behavior in the no-action-effect condition and in the action-effect condition with a mechanical claw. The results therefore support the idea that salient action effects are especially important for infants' goal predictions from 7 months on, and that this facilitating influence of action effects is selective for the observation of human hands. KW - attention KW - eye movements KW - infants perception KW - mechanisms KW - origins Y1 - 2020 U6 - https://doi.org/10.1371/journal.pone.0240165 SN - 1932-6203 VL - 15 IS - 10 PB - Public Library of Science CY - San Fransisco ER -