Any disruption in the RF signal
chain can cause vehicles to
stop communicating with other
vehicles and infrastructure, in
turn potentially causing vehicles
to stop operating, run red lights,
or even collide with other
vehicles or pedestrians."
allowing the vehicle to adjust its route and driving
behavior dynamically.
Alongside the advanced data collection, storage, and
analytics that underlie V2X technology, modern radio-
frequency (RF) and antenna technology advancements
are a significant enabler of vehicle communication.
Transmitting and receiving data over long distances
and at high speeds is essential to operate V2X
systems effectively. Modern advancements in
RF technology have greatly enhanced wireless
communication systems' bandwidth, range, and
reliability. Ultimately, these enhancements enable
vehicles to transmit and receive large amounts of data
rapidly and accurately, even in challenging environments
such as urban areas with high interference levels or
rural areas with sparse infrastructure.
Significant advancements in antenna technology
have also contributed to the effectiveness of V2X
communication. Modern antennas are designed to be
highly directional, compact, and capable of operating
across multiple frequency bands. Thus, they
can maintain strong, stable connections
C h a p t e r 3 | C o n n e c t i v i t y a n d C o m m u n i c a t i o n i n e - M o b i l i t y
Mike Comer
Director, Business Development & Product Marketing, Amphenol RF
19
9 Experts Discuss the Role of Connectivity in e-Mobility
