196 research outputs found
GazeDrone: Mobile Eye-Based Interaction in Public Space Without Augmenting the User
Gaze interaction holds a lot of promise for seamless human-computer interaction. At the same time, current wearable mobile eye trackers require user augmentation that negatively impacts natural user behavior while remote trackers require users to position themselves within a confined tracking range. We present GazeDrone, the first system that combines a camera-equipped aerial drone with a computational method to detect sidelong glances for spontaneous (calibration-free) gaze-based interaction with surrounding pervasive systems (e.g., public displays). GazeDrone does not require augmenting each user with on-body sensors and allows interaction from arbitrary positions, even while moving. We demonstrate that drone-supported gaze interaction is feasible and accurate for certain movement types. It is well-perceived by users, in particular while interacting from a fixed position as well as while moving orthogonally or diagonally to a display. We present design implications and discuss opportunities and challenges for drone-supported gaze interaction in public
Social attention with real versus reel stimuli: toward an empirical approach to concerns about ecological validity
Cognitive neuroscientists often study social cognition by using simple but socially relevant stimuli, such as schematic faces or images of other people. Whilst this research is valuable, important aspects of genuine social encounters are absent from these studies, a fact that has recently drawn criticism. In the present review we argue for an empirical approach to the determination of the equivalence of different social stimuli. This approach involves the systematic comparison of different types of social stimuli ranging in their approximation to a real social interaction. In garnering support for this cognitive ethological approach, we focus on recent research in social attention that has involved stimuli ranging from simple schematic faces to real social interactions. We highlight both meaningful similarities and differences in various social attentional phenomena across these different types of social stimuli thus validating the utility of the research initiative. Furthermore, we argue that exploring these similarities and differences will provide new insights into social cognition and social neuroscience
Suppressing Bias Stress Degradation in High Performance Solution Processed Organic Transistors Operating in Air
Solution processed organic field effect transistors can become ubiquitous in flexible optoelectronics. While progress in material and device design has been astonishing, low environmental and operational stabilities remain longstanding problems obstructing their immediate deployment in real world applications. Here, we introduce a strategy to identify the most probable and severe degradation pathways in organic transistors and then implement a method to eliminate the main sources of instabilities. Real time monitoring of the energetic distribution and transformation of electronic trap states during device operation, in conjunction with simulations, revealed the nature of traps responsible for performance degradation. With this information, we designed the most efficient encapsulation strategy for each device type, which resulted in fabrication of high performance, environmentally and operationally stable small molecule and polymeric transistors with consistent mobility and unparalleled threshold voltage shifts as low as 0.1 V under the application of high bias stress in air
Bis-aryl Substituted Dioxaborines as Electron-Transport Materials: A Comparative Density Functional Theory Investigation with Oxadiazoles and Siloles
peer reviewedWe report on a detailed quantum-chemical comparison of the electronic structures, vertical electron affinities, and intramolecular reorganization energies for bis-aryl substituted dioxaborine, oxadiazole, and silole derivatives. The results indicate that the HOMO and LUMO energies of the substituted compounds can be tuned on the order of 2-3 eV via minor changes in the substitution patterns, with the HOMO and LUMO levels for the dioxaborine derivatives consistently the most energy stabilized. Additionally, large vertical electron affinities and comparable intramolecular reorganization energies confirm that dioxaborine systems are interesting candidates for electron transport materials
Instructor presence effect: Liking does not always lead to learning
The final publication is available at Elsevier via https://dx.doi.org/10.1016/j.compedu.2018.03.011 © 2018. This manuscript version is made available under the CC-BY-NC-ND 4.0 license https://creativecommons.org/licenses/by-nc-nd/4.0/Online education provides the opportunity to present lecture material to students in different formats or modalities, however there is debate about which lecture formats are best. Here, we conducted four experiments with 19–68 year old online participants to address the question of whether visuals of the instructor in online video lectures benefit learning. In Experiments 1 (N = 168) and 2 (N = 206) participants were presented with a lecture in one of three modalities (audio, audio with text, or audio with visuals of the instructor). Participants reported on their attentiveness – mind wandering (MW) – throughout the lecture and then completed a comprehension test. We found no evidence of an advantage for video lectures with visuals of the instructor in terms of a reduction in MW or increase in comprehension. In fact, we found evidence of a comprehension cost, suggesting that visuals of instructors in video lectures may act as a distractor. In Experiments 3 (N = 88) and 4 (N = 109) we explored learners' subjective evaluations of lecture formats across 4 different lecture formats (audio, text, audio + text, audio + instructor, audio + text + instructor). The results revealed learners not only find online lectures with visuals of the instructor more enjoyable and interesting, they believe this format most facilitates their learning. Taken together, these results suggest visuals of the instructor potentially impairs comprehension, but learners prefer and believe they learn most effectively with this format. We refer to as the Instructor Presence Effect and discuss implications for multimedia learning and instructional design.Social Sciences and Humanities Research Council of Canada SSHRC) Insight Discovery Grant (70104)Canada Research Chairs program (056562)Early Researcher Award from the Province of Ontario (058402)Natural Sciences and Engineering Research Council of Canada (NSERC) Discovery Grant (RGPIN-2014-06459
Cue-target contingencies modulate voluntary orienting of spatial attention: dissociable effects for speed and accuracy
Voluntary orienting of spatial attention is typically investigated by visually presented directional cues, which are called predictive when they indicate where the target is more likely to appear. In this study, we investigated the nature of the potential link between cue predictivity (the proportion of valid trials) and the strength of the resulting covert orienting of attention. Participants judged the orientation of a unilateral Gabor grating preceded by a centrally presented, non-directional, color cue, arbitrarily prompting a leftwards or rightwards shift of attention. Unknown to them, cue predictivity was manipulated across blocks, whereby the cue was only predictive for either the first or the second half of the experiment. Our results show that the cueing effects were strongly influenced by the change in predictivity. This influence differently emerged in response speed and accuracy. The speed difference between valid and invalid trials was significantly larger when cues were predictive, and the amplitude of this effect was modulated at the single trial level by the recent trial history. Complementary to these findings, accuracy revealed a robust effect of block history and also a different time-course compared with speed, as if it mainly mirrored voluntary processes. These findings, obtained with a new manipulation and using arbitrary non-directional cueing, demonstrate that cue-target contingencies strongly modulate the way attention is deployed in space
Intelligent problem-solvers externalize cognitive operations
The use of forward models (mechanisms that predict the future state of a system) is well established in cognitive and computational neuroscience. We compare and contrast two recent, but interestingly divergent, accounts of the place of forward models in the human cognitive architecture. On the Auxiliary Forward Model (AFM) account, forward models are special-purpose prediction mechanisms implemented by additional circuitry distinct from core mechanisms of perception and action. On the Integral Forward Model (IFM) account, forward models lie at the heart of all forms of perception and action. We compare these neighbouring but importantly different visions and consider their implications for the cognitive sciences. We end by asking what kinds of empirical research might offer evidence favouring one or the other of these approaches
Computationally Aided Design of a High-Performance Organic Semiconductor: The Development of a Universal Crystal Engineering Core
Herein, we describe the design and synthesis of a suite of molecules based on a benzodithiophene “universal crystal engineering core”. After computationally screening derivatives, a trialkylsilylethyne-based crystal engineering strategy was employed to tailor the crystal packing for use as the active material in an organic field-effect transistor. Electronic structure calculations were undertaken to reveal derivatives that exhibit exceptional potential for high-efficiency hole transport. The promising theoretical properties are reflected in the preliminary device results, with the computationally optimized material showing simple solution processing, enhanced stability, and a maximum hole mobility of 1.6 cm2 V−1 s−1
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