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Description
Ringside is a digital publication that looks at how the independent professional wrestling organization, the Arizona Wrestling Federation (AWF) has been able to succeed, due to the growth and development of the World Wrestling Entertainment (WWE), in to more than just a sports entertainment company. The purpose of designing an

Ringside is a digital publication that looks at how the independent professional wrestling organization, the Arizona Wrestling Federation (AWF) has been able to succeed, due to the growth and development of the World Wrestling Entertainment (WWE), in to more than just a sports entertainment company. The purpose of designing an online publication is to inform as well as to serve as a template for how a company like the AWF can create a digital publication. The narrative of the publication follows how the WWE always has been at the forefront of the professional wrestling industry and recently, it has not only crossed over into mainstream sports journalism, also expanded its presence in almost every type of media, including television, online and even toys. Due to WWE's growing influence and fan following, independent companies like the AWF are capitalizing on WWE's success by replicating the show's business model on a smaller scale. This project also serves as a study in design and user interactivity. The link to the publication is bit.ly/RingsideCreativeProject
Created2017-12
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Description
Motor behavior is prone to variable conditions and deviates further in disorders affecting the nervous system. A combination of environmental and neural factors impacts the amount of uncertainty. Although the influence of these factors on estimating endpoint positions have been examined, the role of limb configuration on endpoint variability has

Motor behavior is prone to variable conditions and deviates further in disorders affecting the nervous system. A combination of environmental and neural factors impacts the amount of uncertainty. Although the influence of these factors on estimating endpoint positions have been examined, the role of limb configuration on endpoint variability has been mostly ignored. Characterizing the influence of arm configuration (i.e. intrinsic factors) would allow greater comprehension of sensorimotor integration and assist in interpreting exaggerated movement variability in patients. In this study, subjects were placed in a 3-D virtual reality environment and were asked to move from a starting position to one of three targets in the frontal plane with and without visual feedback of the moving limb. The alternating of visual feedback during trials increased uncertainty between the planning and execution phases. The starting limb configurations, adducted and abducted, were varied in separate blocks. Arm configurations were setup by rotating along the shoulder-hand axis to maintain endpoint position. The investigation hypothesized: 1) patterns of endpoint variability of movements would be dependent upon the starting arm configuration and 2) any differences observed would be more apparent in conditions that withheld visual feedback. The results indicated that there were differences in endpoint variability between arm configurations in both visual conditions, but differences in variability increased when visual feedback was withheld. Overall this suggests that in the presence of visual feedback, planning of movements in 3D space mostly uses coordinates that are arm configuration independent. On the other hand, without visual feedback, planning of movements in 3D space relies substantially on intrinsic coordinates.
ContributorsRahman, Qasim (Author) / Buneo, Christopher (Thesis director) / Helms Tillery, Stephen (Committee member) / Barrett, The Honors College (Contributor) / Harrington Bioengineering Program (Contributor)
Created2014-05
Description
Biofeedback music is the integration of physiological signals with audible sound for aesthetic considerations, which an individual’s mental status corresponds to musical output. This project looks into how sounds can be drawn from the meditative and attentive states of the brain using the MindWave Mobile EEG biosensor from NeuroSky. With

Biofeedback music is the integration of physiological signals with audible sound for aesthetic considerations, which an individual’s mental status corresponds to musical output. This project looks into how sounds can be drawn from the meditative and attentive states of the brain using the MindWave Mobile EEG biosensor from NeuroSky. With the MindWave and an Arduino microcontroller processor, sonic output is attained by inputting the data collected by the MindWave, and in real time, outputting code that deciphers it into user constructed sound output. The input is scaled from values 0 to 100, measuring the ‘attentive’ state of the mind by observing alpha waves, and distributing this information to the microcontroller. The output of sound comes from sourcing this into the Musical Instrument Shield and varying the musical tonality with different chords and delay of the notes. The manipulation of alpha states highlights the control or lack thereof for the performer and touches on the question of how much control over the output there really is, much like the experimentalist Alvin Lucier displayed with his concepts in brainwave music.
ContributorsQuach, Andrew Duc (Author) / Helms Tillery, Stephen (Thesis director) / Feisst, Sabine (Committee member) / Barrett, The Honors College (Contributor) / Herberger Institute for Design and the Arts (Contributor) / Harrington Bioengineering Program (Contributor)
Created2014-05
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Description
Motor behavior is prone to variable conditions and deviates further in disorders affecting the nervous system. A combination of environmental and neural factors impacts the amount of uncertainty. Although the influence of these factors on estimating endpoint positions have been examined, the role of limb configuration on endpoint variability has

Motor behavior is prone to variable conditions and deviates further in disorders affecting the nervous system. A combination of environmental and neural factors impacts the amount of uncertainty. Although the influence of these factors on estimating endpoint positions have been examined, the role of limb configuration on endpoint variability has been mostly ignored. Characterizing the influence of arm configuration (i.e. intrinsic factors) would allow greater comprehension of sensorimotor integration and assist in interpreting exaggerated movement variability in patients. In this study, subjects were placed in a 3-D virtual reality environment and were asked to move from a starting position to one of three targets in the frontal plane with and without visual feedback of the moving limb. The alternating of visual feedback during trials increased uncertainty between the planning and execution phases. The starting limb configurations, adducted and abducted, were varied in separate blocks. Arm configurations were setup by rotating along the shoulder-hand axis to maintain endpoint position. The investigation hypothesized: 1) patterns of endpoint variability of movements would be dependent upon the starting arm configuration and 2) any differences observed would be more apparent in conditions that withheld visual feedback. The results indicated that there were differences in endpoint variability between arm configurations in both visual conditions, but differences in variability increased when visual feedback was withheld. Overall this suggests that in the presence of visual feedback, planning of movements in 3D space mostly uses coordinates that are arm configuration independent. On the other hand, without visual feedback, planning of movements in 3D space relies substantially on intrinsic coordinates.
ContributorsRahman, Qasim (Author) / Buneo, Christopher (Thesis director) / Helms Tillery, Stephen (Committee member) / Barrett, The Honors College (Contributor) / Harrington Bioengineering Program (Contributor)
Created2014-05
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Description
In early 2026, the NASA Discovery Program will fall into orbit with a metal asteroid named Psyche. Through discovery and interaction, this exploration will give us insight into an asteroid that we cannot see or interpret. From a certain view, you can look at how this mission mimics that discovery

In early 2026, the NASA Discovery Program will fall into orbit with a metal asteroid named Psyche. Through discovery and interaction, this exploration will give us insight into an asteroid that we cannot see or interpret. From a certain view, you can look at how this mission mimics that discovery with experimentation of our own senses. As a part of a team of eight seniors, we were tasked to help develop a mobile application that reflects the Psyche mission and shows the future of the project ten years from now. Since this is also a government funded project, it is pertinent to adhere to the ADA compliance guidelines required to make digital applications accessible to the larger public. As a designer, I wanted to push this concept further to showcase that accessibility is not something that should be stereotyped or discouraged from a design perspective. Each person that interacts with the application will have a different experience but it is this collaboration between the object and it's audience that creates this sense of discovery. Taking the mission's core values one step further, this application was designed and explored to uphold the foundations of what Universal Design is about. It is about connecting interested parties to the material they are looking for without unrealistic access that is dependent on ability.
ContributorsSchaecher, Lauren Allison (Author) / Sanft, Alfred (Thesis director) / Heywood, William (Committee member) / The Design School (Contributor) / Herberger Institute for Design and the Arts (Contributor) / Barrett, The Honors College (Contributor)
Created2018-05