“The battle lines are being
drawn for the future of cellular IoT…” is what the headlines read going into
the 3rd Generation Partnership Project (3GPP) radio
access network (RAN) Plenary meeting held earlier this month in Phoenix. The
group was meeting to discuss, amongst other things, the important topic of how
to further evolve cellular technologies to meet the connectivity needs of the
rapidly growing Internet of Things (IoT).
At Qualcomm, we have been
talking about the importance of cellular technologies increating a
connectivity fabric for everything—leveraging
the ubiquitous coverage, reliability, and scale of cellular, seamlessly
interworking with short-range wireless technologies, like Wi-Fi and Bluetooth,
to offer a rich and varied set of IoT services. We all know how great cellular
technologies like 4G LTE are for delivering high-performance mobile broadband
experiences on our smartphone. And now the 3GPP is working on various
initiatives to optimize (cost, power, coverage) cellular technologies for the
small, sporadic data transmissions common in the Internet of utility meters,
object trackers, fitness devices, and other “Things.”
Last year we introduced LTE-M
(enhanced Machine-Type Communications) which
will deliver a suite of features, as part of Release 13 of the 3GPP standard,
to lower power consumption, reduce device complexity/cost, and provide deeper
coverage to reach challenging locations (e.g., deep inside buildings). Beyond
LTE-M, the 3GPP has been also investigating a new cellular technology to scale
even further down in complexity and power—addressing the low throughput IoT
applications sometimes referred to as Low Power Wide Area (LPWA).
Which leads us back to the important 3GPP Plenary meeting earlier this
month, where competing technology proposals were on the table for addressing
these low-throughput IoT services with a narrowband technology. On one side,
was the potential to maximize cost and power savings by delivering a
clean-slate design. And on the other, was maximizing reuse and coexistence with
today’s LTE Advanced technology and deployments. At risk—fragmentation—with
potentially two competing standards in the market for cellular IoT. Or even
worse— a stalemate—where this new radio technology, critical to the growth of
cellular in IoT, was delayed to future 3GPP Releases.
But luckily this story has a
happy ending, and the group was able to come up with a harmonized technology
proposal with very broad industry support as can be seen from the number of
companies supporting the approved Release 13 Work Item (3GPP
RP-151621). As Dino Flore, Senior Director of Technical
Standards at Qualcomm and the Chairman of the 3GPP RAN stated, “It took us some
twists and turns to get there. But we have now set a clear path in Release 13
to meet the needs of the 3GPP industry to further address the promising IoT
market.”
But the reality is this
story’s happy ending is no luck at all. It took a lot of lengthy discussions
across the entire ecosystem represented at the 3GPP Plenary meeting. And
Qualcomm, with significant technology positions on all options, played a
central role in this harmonization. The resulting new narrowband radio
technology, NB-IOT, will provide improved indoor coverage, support of massive
number of low-throughput Things, low-delay sensitivity, ultra-low device cost,
lower device power consumption, and optimized network architecture. The
technology can be deployed in-band, utilizing
resource blocks within normal LTE carrier, or in the unused resource blocks
within a LTE carrier’s guard-band, or standalone for
deployments in dedicated spectrum. The technology is also particularly suitable
for the refarming of GSM channels.
There are still some details on the technology proposal to be finalized.
NB-IOT will deliver narrowband operation with 180 kHz bandwidth for both the
downlink and uplink. The downlink will be OFDMA with two options for numerology
being considered. On the uplink, two different options are being considered—FDMA
with GMSK modulation and/or SC-FDMA. The 3GPP expects to finalize these options
in the RAN Plenary meeting planned for December in order to ensure NB-IOT is a
part of the Release 13 specification expected to be finalized early in 2016.
Together this new NB-IOT technology and LTE-M nicely rounds out the 3GPP
cellular IoT portfolio as shown below with various ongoing initiatives that
scale cellular technologies to connect a much wider variation of consumer and
enterprise use cases. The limitations for NB-IOT in scaling up in data rate,
latency, and mobility make it very complementary with LTE-M. This now provides
3GPP operators with a portfolio of cellular technologies that provide globally
standardized, reliable (based on licensed spectrum) solutions to meet a rich
and varied set of IoT services. Furthermore, these solutions are being designed
so that operators can maximally reuse their deployed network infrastructure and
will not have to deploy a brand new network to address the IoT market.
Scaling cellular to connect a wider range of consumer & enterprise use cases
Source: Qualcomm OnQ Blog
Source: Qualcomm OnQ Blog
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