AI
SBC-S32V234
• S32V234 Processor
with Linux BSP for
SBC-S32V234
• Video input
(2 x MIPI-CSI2)
• Video Output (RGB to
HDMI converter)
LEARN MOREu
Let's remind ourselves of the five (5) levels of automated driving
as outlined by SAE International standard J3016:
Level 1: Driver Assistance – The vehicle provides a
specific function, such as speed control or steering
Level 2: Partial Automation – The vehicle assists in
functions like steering, acceleration, and braking
Level 3: Conditional Automation – The vehicle can drive
itself, but the driver has to monitor and be able to take
over at any time
Level 4: High Automation – The vehicle can take over
driving on surface streets, but not highways or freeways
Level 5: Full Automation – The vehicle
takes over driving altogether, allowing
drivers to remain in a "mind-off" state
To accelerate the development and
deployment of Level 3 automated drive
capabilities and beyond, automotive
stakeholders will need functions such as
Driver Monitoring Systems (DMS), Pedestrian
Detection, Lane Keep/Assist, Traffic Sign
Recognition, Collision warning, and avoidance
and blind-spot monitoring. Over time, all of
these systems may be necessary to comply
with NCAP safety standards.
Automotive engineers will need to develop
their applications with a processor that has
automotive-grade reliability, functional safety,
and security capabilities. The NXP S32V vision
processor provides just that, along with the
NXP S32V PROCESSOR FOR
VISION AND MACHINE LEARNING
APPLICATIONS
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