In one embodiment a method for triggering input commands of a program run on a computing system is provided. The method initiates with monitoring a field of view in front of a capture device. Then, an input object is identified within the field of view. The detected input object is analyzed for chan
In one embodiment a method for triggering input commands of a program run on a computing system is provided. The method initiates with monitoring a field of view in front of a capture device. Then, an input object is identified within the field of view. The detected input object is analyzed for changes in shape. Next, a change in the input object is detected. Then, an input command is triggered at the program run on the computing system. The triggering is a result of the detected change in the input object. An input detection program and a computing system are also provided.
대표청구항▼
What is claimed is: 1. A deformable input device for interfacing with a computing device, comprising: a first section; and a second section integrated with the first section, the first and second sections integrated through a member having a first end in contact with the first section and a second
What is claimed is: 1. A deformable input device for interfacing with a computing device, comprising: a first section; and a second section integrated with the first section, the first and second sections integrated through a member having a first end in contact with the first section and a second end in contact with the second section, the member being substantially perpendicular to a plane defined by an edge of the first section and a plane defined by an edge of the second section, wherein the deformable input device is configured to define a first aspect ratio in a first state and a second aspect ratio in a second state, a change between the first state and the second state capable of being detected by a capture device to cause an input command at the computing device. 2. The input device of claim 1, wherein the input device is configured to be held substantially inside a palm of a human hand. 3. The input device of claim 1, wherein the first section defines a first edge and the second section defines a second edge, the first edge substantially parallel to the second edge. 4. The input device of claim 3, wherein an opening is defined between the first and the second edges, the opening capable of being closed by an external force applied to the input device. 5. The input device of claim 1, wherein the change between the first state and the second state causes an audible click. 6. The input device of claim 1, wherein a symbol corresponding to the input device is displayed on a viewable screen in communication with the computing device. 7. A deformable input device for a computing device, comprising: a first section; and a second section coupled to the first section through a member having a first end in contact with the first section and a second end in contact with the second section, the member being substantially perpendicular to a plane defined by an edge of the first section and a plane defined by an edge of the second section, such that the input device is configured to define a first shape in a relaxed state and a second shape in a deformed state, wherein a change between the first shape and the second shape is detected by a capture device to trigger an input capable of being displayed on a viewable screen that is in communication with the computing device. 8. The input object of claim 7, further comprising: an edge of the first section; and an edge of the second section, the edge of the first section and the edge of the second section are configured to reflect light, the reflected light from the edge of the first section and the edge of the second section capable of being tracked by the computing device when the input device is in the first shape and the second shape. 9. The input object of claim 8, further comprising: an opening defined between the edge of the first section and the edge of the second section in the relaxed state, the opening being closed in the deformed state. 10. The input object of claim 7, wherein the computing device is a game console. 11. The input object of claim 7, wherein a symbol corresponding to the first and the second sections is displayed on a viewable screen in communication with the computing device. 12. A deformable input device for interfacing with a computing device, comprising: a first edge of a first section; a second edge of a second section substantially parallel to the first edge, the first and the second sections coupled to each other through a plurality of members each having a first end in contact with the first section and a second end in contact with the second section, the plurality of members being substantially perpendicular to a plane defined by the first edge and a plane defined by the second edge, the first and second edges configured to contact each other when an external force is applied to the deformable input device, wherein the first edge and the second edge are capable of being tracked by a capture device for providing an input command for the computing device. 13. The input device of claim 12, further comprising: an opening defined between the first edge and the second edge. 14. The input device of claim 13, wherein the external force applied to the input completely closes the opening defined between the first edge and the second edge. 15. The input device of claim 12, wherein the external force applied to the input device causes an audible click. 16. The input device of claim 12, wherein a symbol corresponding to the first and the second edges is displayed on a viewable screen in communication with the computing device. 17. The input device of claim 16, wherein movement of the input device causes movement of the symbol on the viewable screen. 18. The input device of claim 16, wherein the symbol is capable of interacting with objects defined on the viewable screen.
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Cartabiano Michael C. ; Curran Kenneth J. ; Dick David J. ; Gibbs Douglas R. ; Kirby Morgan H. ; May Richard L. ; Storer William J. A. ; Ullman Adam N., Hand-attachable controller with direction sensing.
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Maes Pattie E. (Somerville MA) Blumberg Bruce M. (Pepperell MA) Darrell Trevor J. (Cambridge MA) Starner Thad E. (Somerville MA) Johnson Michael P. (Cambridge MA) Russell Kenneth B. (Boston MA) Pentl, Method and system for facilitating wireless, full-body, real-time user interaction with a digitally represented visual e.
Matey James R. (Mercerville NJ) Aceti John G. (Cranbury NJ) Pletcher Timothy A. (East Hampton NJ), Method and system for object detection for instrument control.
Marks, Richard L., Prop input device and method for mapping an object from a two-dimensional camera image to a three-dimensional space for controlling action in a game program.
Krueger Myron W. (55 Edith Rd. Vernon CT 06066) Hinrichsen Katrin (81 Willington Oaks Storrs CT 06268) Gionfriddo Thomas S. (81 Willington Oaks Storrs CT 06268), Real time perception of and response to the actions of an unencumbered participant/user.
Chang Bay-Wei W. ; Fishkin Kenneth P. ; Harrison Beverly L. ; Igarashi Takeo,JPX ; Mackinlay Jock D. ; Want Roy ; Zellweger Polle T., Spinning as a morpheme for a physical manipulatory grammar.
Lyons Damian M., System and method for permitting three-dimensional navigation through a virtual reality environment using camera-based gesture inputs.
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Larsen, Eric J.; Deshpande, Hrishikesh R; Marks, Richard L., Method and apparatus for adjusting a view of a scene being displayed according to tracked head motion.
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Lee, Morris; Nelson, Daniel; Headley, Weston, Methods and apparatus for using location information to manage spillover in an audience monitoring system.
Lee, Morris; Nelson, Daniel; Headley, Weston, Methods and apparatus for using location information to manage spillover in an audience monitoring system.
Steiner, Travis; Housden, Eric; Klapka, Robbie; Sternberg, Tom; Whitley, Brandon, Methods and systems for enabling control of artificial intelligence game characters.
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