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数据手套 |
DATAGLOVE5
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The 5DT Data Glove 5 measures finger flexure (1 sensor per finger) and the orientation (pitch and roll) of the user's hand. It can emulate a mouse and can be used as a baseless joystick. The system interfaces with the computer via a cable to the serial port (RS 232 - platform independent). It features 8-bit flexure resolution, extreme comfort, low drift and an open architecture. The 5DT Data Glove 5-W is the wireless
(untethered) version of the 5DT Data Glove 5. The wireless system interfaces with the computer via a radio link (up to 20m distance) on the serial port (RS 232). Right- and left-handed models are available. One size fits many (stretch
lycra). A USB adapter is available.
Features
◇Affordable quality Extreme comfort
◇Open architecture
◇Mouse emulation mode wired version onlyRight
◇left-handed versions
◇VR program drivers
◇Animation program drivers
◇8-Bit flexure resolution
◇One size fits many
◇Built-in tilt sensor
◇High update rate
◇Bundled software
◇Low drift
◇SB adaptor available
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DATA GLOVE14
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The 5DT Data Glove 16 measures finger flexure (2 sensors per finger) as well as the abduction between fingers. The system interfaces with the computer via a cable to the serial port (RS 232 - platform independent). It features an autocalibration function, 8-bit flexure and abduction resolution, extreme comfort, low drift and an open architecture. The 5DT Data Glove 16-W is the wireless
(untethered) version of the 5DT Data Glove 16. The system interfaces with the computer via a radio link (up to 20m distance) on the serial port (RS 232). Right- and left-handed models are available. One size fits many (stretch
lycra). A USB adapter is available.
Features
◇Affordable quality
◇Extreme comfort
◇One size fits many
◇Automatic calibration - minimum 8-bit flexture resolution
◇Platform independant - serial interface (RS 232)
◇Cross-platform drivers
◇Bundled software
◇High update rate
◇On-board processor
◇Low crosstalk between fingers
◇Wireless version available (5DT Data Glove 16-W)
◇Quick "hot release" connection
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DATA GLOVE5MRI
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The 5DT Data Glove MRI Series is optimized for use in Magnetic Resonance Imaging (MRI) environments. The glove itself does not contain any magnetic parts. It communicates with a control box (5-7m away) via optical fiber. The control box interfaces with the computer via a cable to the serial port (RS 232 - platform independent). 5-Sensor and 14-sensor models are available. Right- and left-handed models are available. One size fits many (stretch
lycra).
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The 5DT Data Glove MRI Series is optimized for use in Magnetic Resonance Imaging (MRI) environments. The glove itself does not contain any magnetic parts. It communicates with a control box (5-7m away) via optical fiber. The control box interfaces with the computer via a cable to the serial port (RS 232 - platform independent). 5-Sensor and 14-sensor models are available. Right- and left-handed models are available. One size fits many (stretch lycra).
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The 5DT Ultra Wireless Kit is a plug-and-play kit for
the 5DT Ultra series of data gloves. Each belt-worn
wireless kit is designed to transmit the data for 2
gloves simultaneously. This means that a single
wireless transceiver and battery pack is used for both
gloves, saving both space and power. Up to 4 wireless
kits (8 gloves) can be used at the same time.
The 5DT Wireless Kit allows you to use 2 gloves
wirelessly in one compact package with a range of up
to 20m. The wireless kit comes standard with a belt
and 2 high-capacity battery packs which each last up
to 8 hours with 2 gloves connected.
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Immersion CyberGlove18/22
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CyberGlove is a low-profile, lightweight glove with flexible sensors which accurately and repeatably measure the position and movement of the fingers and wrist. CyberGlove's award-winning design incorporates the latest high-precision joint-sensing technology.
CyberGlove is state-of-the-art in instrumented gloves.
The CyberGlove is available in two models and for either hand.
The 18-sensor model features two bend sensors on each finger, four abduction sensors, plus sensors measuring thumb crossover, palm arch, wrist flexion and wrist abduction.
The 22-sensor model adds sensors to measure the flexion of the distal joints on the four fingers.
Patented Sensor Technology
The CyberGlove features Virtual Technologies' patented resistive bend-sensing technology that is linear and robust. The sensors are extremely thin and flexible and produce almost undetectable resistance to bending. Since the sensors exhibit low sensitivity to their positioning over finger joints and to the joints' radii of curvature, each CyberGlove provides high quality measurements for a wide range of hand sizes, and ensures repeatability between uses. Calibrations typically need not be updated, even after months of use.
Designed for Comfort and Functionality
The CyberGlove is constructed with stretch fabric for comfort and a mesh palm for ventilation. The 18-sensor CyberGlove includes open fingertips, which allow the user to type, write and grasp objects while wearing the glove. CyberGloves are available for both hands.
The CyberGlove System
The basic CyberGlove system includes one CyberGlove, its instrumentation unit, a serial cable to connect to your host computer, and an executable version of our VirtualHand graphic hand model display and calibration software. Many applications require measurement of the position and orientation of the forearm in space. To accomplish this, mounting provisions for Polhemus and Ascension 6 DOF (degrees of freedom) tracking sensors are available for the glove wristband. Tracking sensors are not included in the basic CyberGlove system, but are available as an option from Virtual Technologies and are supported in the VirtualHand® software. The CyberGlove has a software programmable switch and LED on the wristband to permit the system software developer to provide the CyberGlove wearer with additional input/output capability. The instrumentation unit provides a variety of convenient functions and features including time-stamp, CyberGlove status, external sampling synchronization and analog sensor outputs.
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