Description
Until recently, most M2M and IoT services have largely relied on licensed
cellular, wireline and satellite networks for their wide area connectivity
requirements. Cellular networks, in particular, have enjoyed significant
success in the arena. However, for many low bandwidth IoT applications, traditional
cellular networks are deemed too expensive due excessive power consumption and
complex protocols that lower battery life.
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As a result, a number of LPWA (Low Power Wide Area) alternatives
have emerged that specifically seek to address these concerns. LPWA networks
are optimized to provide wide area coverage with minimal power consumption.
Typically reliant on unlicensed frequencies, LPWA devices have low data rates,
long battery lives and can operate unattended for long periods of time. Already
prevalent in IoT applications such as smart metering, lighting control and
parking management, LPWA networks are expected to make a significant
contribution to the M2M and IoT ecosystem, with an estimated $27
Billion in service revenue by 2020.
The “LPWA (Low Power
Wide Area) Networks Ecosystem: 2015 – 2030 – Opportunities, Challenges,
Strategies, Industry Verticals & Forecasts” report presents an in-depth
assessment of the LPWA networks ecosystem including LPWA technologies, key
trends, market drivers, challenges, vertical market applications, deployment
case studies, regulatory landscape, standardization, opportunities, future
roadmap, value chain, ecosystem player profiles and strategies. The report also
presents market size forecasts from 2015 till 2030. The forecasts are segmented
for 9 vertical markets and 6 regions. The report comes with an associated Excel
datasheet suite covering quantitative data from all numeric forecasts presented
in the report.
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List of 136 Companies Mentioned
3GPP (3rd Generation Partnership
Project),
Accellus Communication
Networks,
Aclara Technologies,
Actility, Adeunis RF,
Aerea,
Altair Semiconductor,
Altera Corporation,
AM Telecom, AMBER
Wireless, Archos, Arkessa, ARM Holdings, Arqiva, AT&T, AT&T Mobility,
Atim, Atmel Corporation, Augtek, Bouygues Telecom, BT Group, Cellnex Telecom,
CG-Wireless, Cisco Systems, Coronis Systems, Digi International, DT (Deutsche
Telekom), Du (Emirates Integrated Telecommunications Company), EI Towers,
Elster Group, Encore Networks, Endetec Homerider Systems, Enevo, Eolane,
Ericsson, Etisalat Group, ETSI (European Telecommunications Standards
Institute), Eutelsat, FLASHNET, Gemalto, GSMA, Helium Systems, Hope RF (Hope
Microelectronics), Huawei, IBM, IEEE (Institute of Electrical and Electronics
Engineers), IMST, Ingenu, INS Group, Intel Corporation, KCCS (Kyocera
Communication Systems), KDDI Corporation, Kerlink, Kolon Sport, KPN, Kyocera
Corporation, LG Innotek, LG Uplus, Libelium, Link Labs, LoRa Alliance, M2COMM
(M²Communication), M2M Spectrum Networks, MediaTek, Microchip Technology, MTS
(Mobile TeleSystems), Multi-Tech Systems, Nemeus, Nettrotter, NimbeLink, NNNCo
(National Narrowband Network Communications), Nokia, Nokia Networks, Nokia
Technologies, NTT DoCoMo, Nwave Technologies, NXP Semiconductors, Objenious, ON
Semiconductor, Orange, OrbiWise, Oviphone, PicoWAN, Plextek, Proximus Group,
Qowiso, Qualcomm, Quectel Wireless Solutions, Radiocrafts, Sagemcom, Samsara
Networks, Samsung Electronics, Securitas, Semtech Corporation, Senet, Sensus,
Sequans Communications, Sierra Wireless, Sigfox, Silicon Labs (Silicon
Laboratories), SimpleCell Networks, Singtel Group, SK Telecom, Smarteo Water,
SoftBank Group, Sony Corporation, Sprint Corporation, Stream Technologies,
Swisscom, Tata Communications, Tata Group, TechPLEX, Tele2, Telecom Design,
Telecom Italia, Telefónica Group, Telensa, Telit Communications, Telkom SA
Group, Telstra, The Things Industries, The Things Network, TI (Texas
Instruments), TIM (Telecom Italia Mobile), Ubiik, U-blox, Verizon Communications,
Verizon Wireless, Vodafone Group, WAVIoT, Weightless SIG, Wireless IoT Forum,
WNC (Wistron NeWeb Corporation), Xirgo Technologies, Xylem, ZiFiSense Topics
Covered The report covers the following topics: - LPWA networks ecosystem -
Market drivers and barriers - LPWA technologies, spectrum bands and key trends
- Assessment of competing cellular, satellite, wireline and short range
networking technologies - Vertical market applications, opportunities and
deployment case studies - Regulatory landscape and standardization - Industry
roadmap and value chain - Profiles and strategies of over 100 leading ecosystem
players - Strategic recommendations for ecosystem players - Market analysis and
forecasts from 2017 till 2030 Forecast Segmentation Connection and service
revenue forecasts are provided for the following submarkets: Technology
Submarkets - Proprietary LPWA Technologies - NB-IoT (Narrowband Internet of
Things) - LTE Cat-M1 (eMTC/LTE-M) - EC-GSM-IoT (Enhanced Coverage GSM for the
Internet of Things) Vertical Markets - Agriculture - Asset Management &
Logistics - Automotive & Transportation - Consumer Applications & Home
Automation - Energy & Utilities - Healthcare - Intelligent Buildings &
Infrastructure - Public Safety, Security & Surveillance - Retail &
Vending - Others Regional Markets - Asia Pacific - Eastern Europe - Middle East
& Africa - Latin & Central America - North America - Western Europe
Key Questions Answered The
report provides answers to the following key questions: -
How big is the
LPWA networks opportunity?
What trends,
challenges and barriers are influencing its growth?
How is the
ecosystem evolving by segment and region?
What will the market
size be in 2020 and at what rate will it grow?
Which regions and
submarkets will see the highest percentage of growth?
How are smart city
initiatives driving LPWA network investments?
What are the key
performance characteristics of LPWA technologies such as Sigfox, LoRa, NB-IoT,
LTE Cat-M1 and EC-GSM-IoT?
How does regulation
impact the adoption of LPWA networks?
Do cellular LPWA
networks pose a threat to proprietary LPWA technologies?
Who are the key market
players and what are their strategies?
What strategies should
LPWA technology providers, mobile operators, MVNOs, aggregators, IoT platform
providers and other ecosystem players adopt to remain competitive?
Key Findings The report has the following key findings: -
Already prevalent in IoT applications such as smart metering, lighting control
and parking management, LPWA networks are expected to make a significant
contribution to the M2M and IoT ecosystem, with an estimated $23 Billion
in service revenue by 2020.
- At present, a majority of LPWA networks are based on proprietary technologies
and operate in license-exempt spectrum primarily in sub-GHz bands. - With the
recent completion of the NB-IoT, LTE Cat-M1 and EC-GSM-IoT standards by the
3GPP, mobile operators are aggressively investing in software upgrades to build
their own carrier-grade LPWA networks. - By 2020, SNS Research estimates that
more than 35% of all LPWA profile IoT devices will be served by NB-IoT, LTE
Cat-M1 and EC-GSM-IoT networks. - As of Q4’2016, SNS Research estimates the
cost of a typical LPWA module to be $4-18, depending on the specific
technology. As LPWA network deployments mature, we expect that the cost per
module can drop down to as low as $1-2 in volume quantities
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Contact US:
CRAIG FRANCIS
Partner Relations
& Marketing Manager
sales@htfmarketreport.com
Ph:
+1 (206) 317 1218
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