Att shape magic leap hackathon judges manual#
The SSQ provides straightforward computer or manual scoring, increased power to identify "problem" simulators, and improved diagnostic capability.Ĭomplex networks, comprising tens to thousands of nodes are ubiquitous in society, ranging from acquaintance networks-which are of interest in sociology- to networks of interactions between companies and financial institutions-which are of interest in economics. The database used for development included more than 1,100 MSQs, representing data from 10 Navy simulators.
Att shape magic leap hackathon judges series#
This article describes the development of a Simulator Sickness Questiomaire (SSQ), derived from the MSQ using a series of factor analyses, and illustrates its use in monitoring simulator performance with data from a computerized SSQ survey of 3,691 simulator hops. Also, the configural approach of the MSQ is not readily adaptable to computer administration and scoring. Some symptoms included in the scoring of MS are irrelevant for SS, and several are misleading. The MSQ has several deficiencies as an instrument for measuring SS. Most studies of SS to date index severity with some variant of the Pensacola Motion Sickness Questionnaire (MSQ). Although it involves symptoms similar to those of motion-induced sickness (MS), SS tends to be less severe, to be of lower incidence, and to originate from elements of visual display and visuo-vestibular interaction atypical of conditions that induce MS. Simulator sickness (SS) in high-fidelity visual simulators is a byproduct of modem simulation technology. Although we used vortices, we believe that the results reported are generalizable and will inform the design of haptic displays based on alternative principles of free air tactile actuation. This paper reports the details of the AIREAL design and control, experimental evaluations of the device's performance, as well as an exploration of the application space of free air haptic displays. AIREAL is a scalable, inexpensive and practical free air haptic technology that can be used in a broad range of applications, including gaming, mobile applications, and gesture interaction among many others. AIREAL relies on air vortex generation directed by an actuated flexible nozzle to provide effective tactile feedback with a 75 degrees field of view, and within an 8.5cm resolution at 1 meter. Combined with interactive computers graphics, AIREAL enables users to feel virtual 3D objects, experience free air textures and receive haptic feedback on gestures performed in free space. AIREAL is a novel haptic technology that delivers effective and expressive tactile sensations in free air, without requiring the user to wear a physical device.
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