ActivMedia
Robotics
SmartSeattm
ROBOTIC CHARIOT
for Recreational and Hospitality Use
CONTACT
Overview
Guide
COMPONENTS
&
FEATURES
Technologies
behind the
SmartSeat
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Greet your Important Guests with Style!
SmartSeat is an
intelligent chariot that awaits important guests, invites them to be
seated and carries them in comfort to their destination, or on a guided
tour of your facilities. At each point in their duties, SmartSeat's say
appropriate, pre-recorded messages or play your own custom messages. If
a person or object blocks the way, SmartSeat will circumvent, if
possible. If not, SmartSeat will request obstructing persons to step
aside.
SmartSeats operate in either of two modes:
TOUR GUIDE MODE
- Greets visitors
- Travels to a sequenced set of
goals
- Provides recorded narration at
each goal
- Takes leave of visitors
- Returns to its home position
DELIVERY
MODE
- Greets the visitor
- Travels to the destination
selected from a roster of options
- Takes leave of the visitor
- May await a return rider or
return empty to its home position
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Example of a Touchscreen Directory
Map permitted areas and update maps in minutes when buildings are
modified
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ActivMedia Robotics
SmartSeat
Robotic Chariot
COMPONENTS
- SmartSeat Robot Base with YOUR
LOGO silkscreened
- Laser Mapping & Navigation
System
- Gyroscopic Navigational
Correction System
- Speech and Audio Playback
- Touchscreen Interface
- Guide/Delivery Software
- 1 Year Warranty
- On-site Installation
- Optional rear luggage rack
ActivMedia Robotics
SmartSeat
Robotic Chariot
FEATURES
- Carries visitors to destinations automatically
- Provides automated tours
- Easily edited maps change with your facility
- Narration & response customizable to your need
- Monitor SmartSeat's surroundings for security or hazards
(optional)
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| ActivMedia Robotics SmartSeat is based on
sophisticated autonomous robotic mapping and navigation capabilities
uniquely available commercially in ActivMedia Robots. Robots create
maps by recording and comparing the movements and distances sensed by
motor shaft encoders, radial gyroscope and laser rangefinder Using
complex stochastic techniques, the robot calculates its current
position in relationship to the surrounding structure. The robot then
calculates the best route to its next destination, considering any
obstacles in its path. This "best route" is frequently updated to
reflect the movement of people and objects that might block its
way. |
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