- Advances in artificial intelligence, machine learning and sensor fusion drive robotics functionality across factory, home, classroom, healthcare and military applications
- Ongoing innovations in high-speed connectivity, edge computing, network redundancy and fail-safe procedures crucial to optimizing robotics opportunities
- Emergence of natural language processing and emotional AI functionality poised to propel more intuitive, responsive and adaptive human-machine interaction
LISLE, IL – Media OutReach Newswire – 3 December 2024 – Molex, a global electronics leader and connectivity innovator, has issued a thought leadership report that looks at the future potential of robotics, resulting in more intuitive, intelligent and interconnected human-machine communications and collaborations. “The Molex 2024 Robotics Report: How Robotics will Empower Human Potential” contemplates a future where highly advanced robotics systems and multipurpose robots transform fundamental aspects of everyday life — from improving how factories function and students learn to making smart homes more efficient, elevating patient care and increasing support for military operations.
“As
we
explore
the
role
of
robotics
across
various
industries,
it
is
becoming
increasingly
apparent
that
the
future
will
be
shaped
by
the
evolving
relationship
between
humans
and
machines,”
said
Brian
Hauge,
SVP
and
president,
Consumer
and
Commercial
Solutions,
Molex.
“This
latest
industry
report
sheds
light
on
a
promising
future
of
unprecedented
human-machine
interactions
while
underscoring
the
critical
need
for
enabling
technologies
and
seamless
connections
between
robotics
systems
and
their
human
counterparts
to
empower
faster,
more
effective
and
extremely
precise
decision
making.”
Foundational
Technologies
Driving
Robotics
Advancements
The
future
of
robotics
depends
in
larger
part
on
the
continued
evolution
of
core
communications
and
computing
technologies
that
enable
autonomous
operation
in
dynamic
environments.
Topping
the
list
is
high-speed
connectivity,
as
robotics
systems
require
low-latency
communications
and
near-instantaneous
data
transfers
to
respond
with
speed
and
precision.
While
5G/6G
networks
will
deliver
high
bandwidth,
low
latency
communications,
it
is
important
to
design
robotics
solutions
with
multiple
connectivity
options,
including
the
ability
to
switch
between
5G
and
Wi-Fi
or
satellite
networks
that
provide
multi-channel
redundancy.
Equally important, processing data locally on nearby edge devices ensures uninterrupted, independent operation of robotics systems and robots. With edge computing, for example, these automated solutions can process data instantaneously, which is essential for applications requiring split-second decisions. In most industrial automation or manufacturing environments, robots are always programmed with fail-safe protocols that throttle back power and functionality to a safe operational state if connectivity is disrupted or compromised.
Benefitting
from
AI/ML
and
Sensor
Fusion
Innovations
As
the
biggest
engines
behind
robotic
adaptability,
advancements
in
AI
and
ML
are
crucial.
AI
algorithms
let
robots
make
informed
decisions
based
on
real-time
data
while
adapting
quickly
to
new
circumstances,
and
even
predicting
future
conditions
based
on
past
interactions.
Through
ML,
robots
can
analyze
patterns
to
optimize
behavior
while
increasing
efficiency
and
accuracy
by
continually
learning,
adapting
and
improving
performance.
Sensor
fusion
combines
data
from
different
sources,
such
as
LiDAR,
cameras,
along
with
depth
and
force
sensors,
to
help
multipurpose
robots
better
perceive
depth,
movement
and
obstacles
in
different
settings.
Important
Factors
in
Greater
Human-Robot
Interactions
According
to
Molex’s
robotics
report,
robots
that
can
understand,
respond
to,
and
even
anticipate
human
emotional
and
contextual
needs
are
on
the
horizon.
With
Natural
Language
Processing
(NLP),
for
instance,
robots
can
follow
spoken
commands,
engage
in
dialogue
and
adjust
actions
based
on
contextual
understanding.
Additionally,
emotional
AI
enables
robots
to
recognize
and
respond
to
emotional
cues
by
analyzing
a
human’s
tone
of
voice
or
facial
expressions.
Molex
expects
this
rise
in
human-centered
interactions
to
foster
a
deeper
sense
of
engagement,
enabling
future
robotics
systems
and
autonomous
robots
to
adapt
more
readily
to
complex
home
environments,
and
take
on
new
roles
as
personalized
educational
tutors,
indispensable
surgery
assistants
and
continuous
patient
monitors.
With the arrival of Industry 4.0, collaborative robots, or cobots, are gaining traction in handling increasingly complicated duties in industrial settings. Not only can robotics systems and an entire fleet of robots keep production lines running smoothly, but they can also anticipate and fix potential manufacturing bottlenecks while helping engineers design better products. In the future, cobots will redefine precision and personalization in every environment, including operating rooms, classrooms and battlefields.
Critical
Enabler
of
Robotic
Transformations
Major
advances
in
robotic
technologies
and
greater
interaction
opportunities
will
require
innovations
in
connectivity,
power
management
and
data
processing.
Molex’s
robust
portfolio
of
resilient
and
reliable
connectors
will
enable
ever-increasing
collaboration
between
humans
and
machines
to
support
the
most
demanding
applications
across
diverse
industry
sectors.
Hashtag: #Molex
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