Download - how to use the virtual keyboard
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PRESENTING BY
D.Sri Rakesh
VIRTUAL LASER KEYBOARD
What is key boardA PANEL OF KEYS THAT OPERATE A COMPUTER
OR TYPEWRITER.
Signal….?
HOW IT WORKS• When you press a key, the top and bottom
contact layers come together and the keyboard sends a signal to your computer—just like this...
VIRTUAL• virtual means something that's not real. Its
only the image(projection) of the real thing that u can see. but the interesting thing is that u can use the image like the original object.
Virtual?...
BEGINNING….
• The first keyboard made of light, or the very first optical virtual keyboard (also known as projection keyboard) was made in 1992 at the IBM.
INTRODUCTION A virtual keyboard actually is a key-in device, roughly a
size of a fountain pen, which uses highly advanced laser technology.
The new virtual keyboard technology uses sensor technology and artificial intelligence to let users work on any surface as if it were a keyboard.
In a virtual keyboard camera tracks the finger movements of the typist to get the correct keystroke.
The software and hardware part recognizes the typed characters and pass it to the computer.
Virtual keyboard technology:-
This system comprises of three modules:
1. The sensor module
2. IR-light source and
3. The pattern projector
Sensor module:-The Sensor Module serves as the eyes of
the Keyboard Perception technology .
The Sensor Module operates by locating
the user's fingers in 3-D space and tracking
the intended keystrokes.
Keystroke information processes and can
then be output to host devices.
IR Light source :- The infrared light source emits a beam of
infrared light .
This light beam is designed to overlap the
area on which the keyboard pattern projector
or printed image resides.
This helps in recognizing the hand
movements and the pressing of keys .
Pattern projector:-
The pattern projector or optional printed
image presents the image of the keyboard
This image can be projected on any flat
surface.
The projected image is that of a standard
qwerty keyboard, with all the keys and control
functions as in the keyboard.
System architecture:-The physical setup of the system:-
The 3D range camera is placed several cms over the input surface, with a well-defined angle facing the working area.
The size of the working area, limited by the spatial resolution of the camera, is 15 cm × 25 cm, which is comparable to a full-size laptop-computer keyboard.
Virtual-keyboard demonstration-system
setup
The display projector is mounted on the camera, facing the same area, which would generate the visual feedback for the keyboard and input information
Sensor module
Detection of stroke
Pixel map
Touch location detection
Detection of finger
Keyboard layout
Key ID detection
Host devices
Key code
BLOCK DIAGRAM
(x , y) Key ID
WORKING OF LASER KEYBOARD• The projection laser displays the keyboard layout,
measuring approx. 241 x 106 mm, onto any opaque flat surface. Keystrokes are recognized and then relayed via an invisible infrared layer combined with an optical sensor.
The recognition process works as follows: When the user presses a key on the projected keyboard, the infrared layer is interrupted. This produces UV reflections that are recognized by the sensor in three dimensions, allowing the system to assign a coordinate (keyboard character).
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ANY QUERIES
• Projection Keyboard Innovation: Electronic Perception Technology
• The 'projection keyboard' is made possible through the incorporation of the 3DElectronic Perception Technology (EPT). This innovation enables everyday devices to "see" the world around them so they can perceive and interact with it. The EPT tracks your finger movements and translates them into keystrokes in the device.
Different from traditional digital cameras that record images in 2 dimensions so humans can see, EPT collects images the way that machines need to see in 3 dimensions. With the integration of Celluon's technology in small, low cast, computer chips, virtually any kind of electronic device can perceive and interact with its immediate environment.
Future applications of this technology might include automobiles that can see and avoid obstacles before an accident occurs, video games that sense the player's movements without the need for a controller, and even home security systems that can easily recognize the difference between a member of the household and an intruder. Just imagine the new possibilities in an era in which machines and devices are no longer "blind“ !