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LTE, or Long-Term Evolution, is a standard for wireless broadband communication designed for mobile devices and data terminals. Developed by the 3GPP, it represents a major step beyond 3G technologies and serves as the foundation for contemporary 4G networks, with ongoing enhancements to support higher data rates, lower latency, and better efficiency. The first LTE release (Release 8) appeared around 2008–2009.

Technically, LTE uses the Evolved UTRAN (E-UTRA) radio interface. The downlink employs OFDMA, while the uplink

Performance and evolution: LTE introduced substantial data-rate improvements over 3G. The base specification offered theoretical downlink

Voice services on LTE commonly use VoLTE (Voice over LTE) via IMS, replacing traditional circuit-switched voice

uses
SC-FDMA,
which
helps
reduce
peak-to-average
power
ratios
on
user
devices.
Key
features
include
multiple-input
multiple-output
(MIMO)
antenna
systems,
carrier
aggregation
to
combine
several
frequency
blocks
for
higher
throughput,
and
flexible
channel
bandwidths
from
1.4
to
20
MHz
(and
wider
in
some
deployments).
The
core
network
is
the
Evolved
Packet
Core
(EPC),
a
flat,
all-IP
architecture
that
simplifies
mobility
and
data
transport
and
supports
QoS
for
IP
traffic.
speeds
around
100
Mbps
and
uplink
around
50
Mbps.
LTE-Advanced
(Release
10)
and
beyond
added
features
such
as
wider
carrier
bandwidths
and
higher-order
MIMO,
pushing
theoretical
downlink
speeds
toward
or
beyond
1
Gbps
in
optimal
conditions,
with
real-world
speeds
typically
ranging
in
the
tens
to
hundreds
of
Mbps.
LTE-Advanced
Pro,
sometimes
called
4.5G,
further
extends
capabilities.
in
many
networks;
legacy
fallback
methods
remain
in
some
situations.
LTE
remains
widely
deployed
and
forms
the
payload
of
many
current
mobile
broadband
networks,
while
progressively
integrating
with
5G
deployments.