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The design of an economical, high speed interface between the cirrus computer and the Chemical Engineering Process control laboratory.Dunne, Lawrence John. January 1969 (has links) (PDF)
Thesis (Master of Applied Science) -- University of Adelaide, Faculty of Engineering, 1971.
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In integrated user interface for UNIX operating systemTempo, Rinaldo January 1989 (has links)
No description available.
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The design of computer interfaces for the non-specialist userDavis, R. January 1985 (has links)
No description available.
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A study of usability aspects of a graphical user interface for discretionary usersReeves, Edwina Mercy January 1999 (has links)
No description available.
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Online Environmental Control of Multiple Devices using Transcranial Doppler (TCD) UltrasonographyAleem, Idris Syed 20 November 2012 (has links)
Individuals with severe impairments may use brain-computer interface (BCI) technologies in order to interact with their external environment. One non-invasive brain-monitoring technology which may be suitable for this purpose is transcranial Doppler ultrasound (TCD). Previous research has shown that TCD is useful in detecting changes in cerebral blood flow velocities after the performance of cognitive tasks which are often lateralized towards a specific hemisphere of the brain. However, to date, TCD has not been used in a BCI system. This thesis first explores TCD in an offline study, showing that on average, accuracies of 80.0% are attainable with user-specific training data and 74.6% with user-independent training data. Furthermore, consecutive sequential lateralizations do not decrease classification accuracies. In a subsequent online experiment, a TCD-BCI system yielded an average accuracy of 61.4%, but revealed key findings about the effects of user motivation and error streaks in an online system.
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Online Environmental Control of Multiple Devices using Transcranial Doppler (TCD) UltrasonographyAleem, Idris Syed 20 November 2012 (has links)
Individuals with severe impairments may use brain-computer interface (BCI) technologies in order to interact with their external environment. One non-invasive brain-monitoring technology which may be suitable for this purpose is transcranial Doppler ultrasound (TCD). Previous research has shown that TCD is useful in detecting changes in cerebral blood flow velocities after the performance of cognitive tasks which are often lateralized towards a specific hemisphere of the brain. However, to date, TCD has not been used in a BCI system. This thesis first explores TCD in an offline study, showing that on average, accuracies of 80.0% are attainable with user-specific training data and 74.6% with user-independent training data. Furthermore, consecutive sequential lateralizations do not decrease classification accuracies. In a subsequent online experiment, a TCD-BCI system yielded an average accuracy of 61.4%, but revealed key findings about the effects of user motivation and error streaks in an online system.
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A fast graphics interface for printed circuit board design.Olesnicky, Roman Maria Eugene. January 1972 (has links) (PDF)
Thesis (M.E.) -- University of Adelaide, Dept. of Electrical Engineering, 1972.
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An enhanced semantic model to support personal file management in academic environmentsHu, Lie January 1996 (has links)
No description available.
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The design and engineering of HCI in CAD systemsLehane, Andrew R. January 1995 (has links)
No description available.
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Detecting Emotional Response to Music using Near-infrared Spectroscopy of the Prefrontal CortexSaba, Moghimi 20 June 2014 (has links)
Many individuals with severe motor disabilities may not be able to use conventional means of emotion expression (e.g. vocalization, facial expression) to make their emotions known to others. Lack of a means for expressing emotions may adversely affect the quality of life of these individuals and their families. The main objective of this thesis was to implement a non-invasive means of identifying emotional arousal (neutral vs. intense) and valence (positive vs. negative) by directly using brain activity. In this light, near infrared spectroscopy (NIRS), which optically measures oxygenated and deoxygenated hemoglobin concentrations ([HbO2] and [Hb], respectively), was used to monitor prefrontal cortex hemodynamics in 10 individuals as they listened to music excerpts. Participants provided subjective ratings of arousal and valence. With respect to valence and arousal, prefrontal cortex [HbO2] and [Hb] were characterized and significant prefrontal cortex hemodynamic modulations were identified due to emotions. These modulations were not significantly related to the characteristics of the music excerpts used for inducing emotions. These early investigations provided evidence for the use of prefrontal cortex NIRS in identifying emotions. Next, using features extracted from [HbO2] and [Hb] in the prefrontal cortex, an average accuracy of 71% was achieved in identifying arousal and valence. Novel hemodynamic features extracted using dynamic modeling and
template-matching were introduced for identifying arousal and valence. Ultimately, the ability of autonomic nervous system (ANS) signals including heart rate, electrodermal activity and skin temperature to improve the identification results, achieved when using PFC [HbO2] and [Hb] exclusively, was investigated. For the majority of the participants, prefrontal cortex NIRS-based identification achieved higher classification accuracies than combined ANS and NIRS features. The results indicated that NIRS recordings of the prefrontal cortex during presentation of music with emotional content can be automatically decoded in terms of both valence and arousal encouraging future investigation of NIRS-based emotion detection in individuals with severe disabilities.
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