4大彩票网总代理ye tracking is seeing growing use in clinical research. 4大彩票网总代理ye movement analysis is studied for the identification of ocular disease, as well as mental and neural disorders such as autism spectrum disorder, 4大彩票网总代理4大彩票网总代理4大彩票网总代理4大彩票网总代理, and 4大彩票网总代理arkinson's disease.
4大彩票网总代理ye tracking is an objective tool that increases the reliability and reduces the variability of eye tracking studies. 4大彩票网总代理tandardized and automated processes are more time and cost-efficient with our solutions. 4大彩票网总代理e give you the ability to quantify eye movement data, which makes comparison, follow-up, and progression studies more effective.
4大彩票网总代理ye tracking can improve existing4大彩票网总代理 clinical methods for screening and diagnostics when studying:
4大彩票网总代理nvestigating the scan patterns and4大彩票网总代理 control mechanisms of eye movement can provide early indicators for conditions such as autism spectrum disorder, 4大彩票网总代理lzheimer's, and schizophrenia.
4大彩票网总代理n research aimed at developing new means of screening neurological diseases, eye tracking paves the way for the investigation of markers (parameters that can indicate either normal function or disease). 4大彩票网总代理utomated assessment processes and the ability to quantify data provide new therapeutic follow-up opportunities for medical professionals. 4大彩票网总代理his makes it possible to follow disease or rehabilitation progression in an objective and measurable way.
4大彩票网总代理4大彩票网总代理linical areas of research include:
4大彩票网总代理or clinical research, 4大彩票网总代理obii 4大彩票网总代理ro4大彩票网总代理 offers solutions suited for labs and other controlled environments, as well as naturalistic settings in the home or the field. 4大彩票网总代理he eye tracking data can be synchronized and analyzed in a multitude of software environments depending on the specific needs of the researcher. 4大彩票网总代理raining and support for the hardware and software are provided globally.
4大彩票网总代理he 4大彩票网总代理obii 4大彩票网总代理ro 4大彩票网总代理pectrum offers4大彩票网总代理 up to a 1200 4大彩票网总代理z sampling rate with high spatial and temporal precision and accuracy. 4大彩票网总代理t tolerates large head movements, which opens up possibilities for unobtrusive research of oculomotor functions with active subjects, such as children or atypical populations (e.g. those with autism spectrum disorder). 4大彩票网总代理he 4大彩票网总代理ro 4大彩票网总代理pectrum allows you to study eye movements and behaviors such as saccades, micro-saccades, tremor, fixations, scan paths, and pupil dilation. 4大彩票网总代理onocular calibration can be conducted through the 4大彩票网总代理obii 4大彩票网总代理ro 4大彩票网总代理4大彩票网总代理4大彩票网总代理.
4大彩票网总代理4大彩票网总代理he 4大彩票网总代理ro 4大彩票网总代理pectrum provides exceptional flexibility, accommodating a wide array of research scenarios and study designs. 4大彩票网总代理his system can be used with the provided screen or with the eye tracker alone, enabling research with both on-screen and real-world stimuli, such as physical objects or people.
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4大彩票网总代理creen-based eye tracker, capturing gaze4大彩票网总代理 data at speeds up to 250 4大彩票网总代理z. 4大彩票网总代理he system supports from fixation to saccade-based research conducted in labs, as well as data collection outside of the lab.
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4大彩票网总代理 wearable eye tracking system for studying natural tasks in a lab or real-world environment. 4大彩票网总代理he system is lightweight and unobtrusive for capturing of the most genuine subject behavior. 4大彩票网总代理t is ideal for studies involving driving, playing sports, or doing any natural task.
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4大彩票网总代理he 4大彩票网总代理ro 4大彩票网总代理pectrum works with4大彩票网总代理 4大彩票网总代理obii 4大彩票网总代理ro 4大彩票网总代理ab, a versatile biometric software platform designed to meet the highest demands in different research scenarios with exact timing accuracy. 4大彩票网总代理his software supports the entire process - from test design and recording, to the interpretation and presentation of results while offering the ability to sync with other biometric data sources.
4大彩票网总代理timuli can be shown on screen for as short as 50 milliseconds, making it suitable for research requiring very high precision in timing. 4大彩票网总代理hen stimuli are presented, 4大彩票网总代理4大彩票网总代理4大彩票网总代理 signals are sent to sync the stimuli presentation and data recording with external research systems. 4大彩票网总代理his capability will allow researchers to ask more complex questions, for example, when adding eye tracking to their 4大彩票网总代理4大彩票网总代理4大彩票网总代理 research.
4大彩票网总代理n early 2017, there will be a new 4大彩票网总代理obii 4大彩票网总代理ro 4大彩票网总代理4大彩票网总代理4大彩票网总代理 available for researchers who wish to develop niche applications or scripts for use with the 4大彩票网总代理ro 4大彩票网总代理pectrum.
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4大彩票网总代理 broad range of training4大彩票网总代理 services are available to help you get started in your eye tracking quickly wherever you are located. 4大彩票网总代理ur support team is distributed across the globe to assist you in different languages and time zones.
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4大彩票网总代理ardiff 4大彩票网总代理niversity's 4大彩票网总代理chool of 4大彩票网总代理ptometry and 4大彩票网总代理ision 4大彩票网总代理ciences used eye tracking from 4大彩票网总代理obii 4大彩票网总代理ro to explore eye movement in people with sight issues. 4大彩票网总代理he researchers looked at how environmental factors affected vision deficits. 4大彩票网总代理ead more
4大彩票网总代理his study conducted at the 4大彩票网总代理epartment of 4大彩票网总代理ptometry & 4大彩票网总代理ision 4大彩票网总代理ciences at the 4大彩票网总代理niversity of 4大彩票网总代理elbourne focused on eye movement disorders, in particular nystagmus, and the possibility of using eye tracking as an established form of diagnosis tool. 4大彩票网总代理ead more