Current Search: Moshell, Michael (x)
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- Title
- Financial Forest.
- Creator
-
Carlson, Karen, Moshell, Michael, Lindgren, Robb, Underberg-Goode, Natalie, University of Central Florida
- Abstract / Description
-
Regular savings behavior is critical for low-income Americans to achieve financial mobility. New technology tools are being used to improve personal awareness and attention to financial goals. This thesis reviews mobile learning (mLearning) research and leading commercial personal finance smartphone apps, both of which inform the design of Financial Forest, a savings app. Participants in the 4-week Financial Forest savings study are found to have a statistically significant improved...
Show moreRegular savings behavior is critical for low-income Americans to achieve financial mobility. New technology tools are being used to improve personal awareness and attention to financial goals. This thesis reviews mobile learning (mLearning) research and leading commercial personal finance smartphone apps, both of which inform the design of Financial Forest, a savings app. Participants in the 4-week Financial Forest savings study are found to have a statistically significant improved perception of the difficulty of building an emergency fund.
Show less - Date Issued
- 2014
- Identifier
- CFE0005143, ucf:50682
- Format
- Document (PDF)
- PURL
- http://purl.flvc.org/ucf/fd/CFE0005143
- Title
- Automatic 3D human modeling: an initial stage towards 2-way inside interaction in mixed reality.
- Creator
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Xiong, Yiyan, Hughes, Charles, Pattanaik, Sumanta, Laviola II, Joseph, Moshell, Michael, University of Central Florida
- Abstract / Description
-
3D human models play an important role in computer graphics applications from a wide range of domains, including education, entertainment, medical care simulation and military training. In many situations, we want the 3D model to have a visual appearance that matches that of a specific living person and to be able to be controlled by that person in a natural manner. Among other uses, this approach supports the notion of human surrogacy, where the virtual counterpart provides a remote presence...
Show more3D human models play an important role in computer graphics applications from a wide range of domains, including education, entertainment, medical care simulation and military training. In many situations, we want the 3D model to have a visual appearance that matches that of a specific living person and to be able to be controlled by that person in a natural manner. Among other uses, this approach supports the notion of human surrogacy, where the virtual counterpart provides a remote presence for the human who controls the virtual character's behavior. In this dissertation, a human modeling pipeline is proposed for the problem of creating a 3D digital model of a real person. Our solution involves reshaping a 3D human template with a 2D contour of the participant and then mapping the captured texture of that person to the generated mesh. Our method produces an initial contour of a participant by extracting the user image from a natural background. One particularly novel contribution in our approach is the manner in which we improve the initial vertex estimate. We do so through a variant of the ShortStraw corner-finding algorithm commonly used in sketch-based systems. Here, we develop improvements to ShortStraw, presenting an algorithm called IStraw, and then introduce adaptations of this improved version to create a corner-based contour segmentatiuon algorithm. This algorithm provides significant improvements on contour matching over previously developed systems, and does so with low computational complexity. The system presented here advances the state of the art in the following aspects. First, the human modeling process is triggered automatically by matching the participant's pose with an initial pose through a tracking device and software. In our case, the pose capture and skeletal model are provided by the Microsoft Kinect and its associated SDK. Second, color image, depth data, and human tracking information from the Kinect and its SDK are used to automatically extract the contour of the participant and then generate a 3D human model with skeleton. Third, using the pose and the skeletal model, we segment the contour into eight parts and then match the contour points on each segment to a corresponding anchor set associated with a 3D human template. Finally, we map the color image of the person to the 3D model as its corresponding texture map. The whole modeling process only take several seconds and the resulting human model looks like the real person. The geometry of the 3D model matches the contour of the real person, and the model has a photorealistic texture. Furthermore, the mesh of the human model is attached to the skeleton provided in the template, so the model can support programmed animations or be controlled by real people. This human control is commonly done through a literal mapping (motion capture) or a gesture-based puppetry system. Our ultimate goal is to create a mixed reality (MR) system, in which the participants can manipulate virtual objects, and in which these virtual objects can affect the participant, e.g., by restricting theirmobility. This MR system prototype design motivated the work of this dissertation, since a realistic 3D human model of the participant is an essential part of implementing this vision.
Show less - Date Issued
- 2014
- Identifier
- CFE0005277, ucf:50543
- Format
- Document (PDF)
- PURL
- http://purl.flvc.org/ucf/fd/CFE0005277