Natural interactive whiteboard
The mouse and keyboard has been ubiquitously used in all kinds of computer platforms for the past few decades. Today, new interaction mechanisms are continuously being discovered to enhance the intuitiveness and work-flow of the user’s input processes. This is with the aim to reduce the existing...
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| Format: | Final Year Project |
| Language: | English |
| Published: |
2009
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| Subjects: | |
| Online Access: | http://hdl.handle.net/10356/17623 |
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| Institution: | Nanyang Technological University |
| Language: | English |
| Summary: | The mouse and keyboard has been ubiquitously used in all kinds of computer
platforms for the past few decades. Today, new interaction mechanisms are
continuously being discovered to enhance the intuitiveness and work-flow of the
user’s input processes. This is with the aim to reduce the existing learning curve
while improving performance of the user via the simplification of the input process.
Therefore, the objective of this project is to propose and prototype new affordable
interaction mechanisms that will be potentially viable for end-user applications. In the first part of the project, 3D tracking based on vision-based technology was
prototyped using 2 Nintendo Wiimotes. The Wiimote is chosen because of its cost effectiveness and high resolution infrared (IR) camera output.
With the capability of tracking the 3D coordinates of up to 4 IR points
simultaneously, new human-computer interaction mechanisms were proposed in the
second part of the project. There were two significant new interaction prototypes that
were developed; perspective-based interactive whiteboard and depth-sensitive
interactive whiteboard.
The perspective-based interactive whiteboard showcases a potentially revolutionary
way for users to interact with the computer. The system allows users who are away
from the screen to point and select objects on the screen based on his or her view
instead of using relative motions through a visual guide such as a cursor.
The depth-sensitive interactive whiteboard introduces a new third dimension to
today’s interactive whiteboards by offering accurate real-time measurements of the
stylus’ distance from the screen. This will potentially allow applications that will
respond to the depth of the stylus from the screen such as in artistic drawings and
interactive games.
In conclusion, the project has successfully prototyped new interaction mechanisms
that will bring new avenues for human-computer interaction. |
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