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skytrains

Skytrains are elevated urban rail transit systems designed to move large numbers of passengers above street level on viaducts or elevated guideways. They typically use electric traction and are built to provide high capacity and grade-separated service in dense urban cores, often with automated or semi-automated operation.

Most Skytrains rely on heavy-rail or metro-like rolling stock and operate on elevated structures with platform

The term Skytrain is used as a branding for several networks in different cities rather than a

Advantages of Skytrains include rapid construction in constrained urban corridors, continuous grade separation that reduces at-grade

arrangements
that
align
with
the
guideway.
Vehicle
propulsion
is
electric,
supplied
through
overhead
lines
or
third
rails
depending
on
the
design.
Modern
systems
frequently
incorporate
platform
screen
doors
and
advanced
signaling
to
enable
high-frequency,
safe
service.
single,
uniform
technology.
Notable
examples
include
Vancouver’s
SkyTrain
in
Canada
and
Bangkok’s
BTS
Skytrain
in
Thailand.
Across
cities,
Skytrains
vary
in
technical
details
such
as
track
gauge,
power
delivery,
automation
level,
and
interoperability
with
other
transit
modes.
collisions,
weather
protection
for
passengers,
and
the
ability
to
support
frequent,
reliable
service
with
limited
street
traffic.
Challenges
and
limitations
involve
high
capital
costs
for
elevated
structures,
potential
visual
and
noise
impacts
on
surrounding
neighborhoods,
and
ongoing
maintenance
needs
for
the
viaducts
and
stations.
Effective
integration
with
land
use
planning,
transit
networks,
and
urban
development
plans
is
important
to
maximize
their
benefits.