Home

Cyberphysical

Cyberphysical systems, or CPS, are engineered systems in which computational elements and physical processes are tightly integrated through sensing, computation, and actuation. The defining feature is a closed-loop interaction where data about the physical world is collected, analyzed, and acted upon in real time to influence the physical processes themselves. This integration aims to improve performance, safety, efficiency, and resilience across applications.

Architecture typically includes a physical layer with sensors and actuators, a cyber layer with processors, software,

Applications span many sectors. In transportation, CPS enable autonomous vehicles and intelligent traffic management. In energy,

Key challenges include ensuring safety and security given direct physical impact, achieving dependable real-time performance, managing

and
communications,
and
a
control
layer
that
implements
algorithms
and
decision
logic.
Information
flows
from
sensors
to
processors,
decisions
are
made,
and
control
signals
are
sent
back
to
actuators.
The
computation
may
happen
at
the
edge,
in
the
cloud,
or
in
hybrid
configurations.
Digital
twins,
numerical
models,
and
simulation
are
commonly
used
for
design,
testing,
operation,
and
optimization.
they
underpin
smart
grids
and
demand-response.
In
manufacturing,
they
support
Industry
4.0
automation
and
adaptive
production.
In
healthcare,
medical
devices
and
remote
monitoring
integrate
with
clinical
workflows.
CPS
also
appear
in
smart
cities,
agriculture,
and
aerospace,
where
reliable
real-time
control
and
monitoring
are
essential.
heterogeneity
and
interoperability,
and
maintaining
privacy
and
resilience
against
failures
or
attacks.
Research
areas
cover
dependable
computing,
formal
verification,
secure
communication,
and
system-wide
lifecycle
management.
Standards
and
regulations
provide
sector-specific
guidance
for
safety,
security,
and
interoperability.