The LPWA (Low Power Wide Area) Networks Ecosystem Market Size, Share, Global Trends, Company Profiles, Demand, Insights, Analysis, Research, Report, Opportunities, Segmentation and Forecast To 2015 – 2030 LPWA - low power wide area, is a term used to describe a group of technologies that possess affordable chipsets and networks, extended battery life (often longer than ten years), restricted data communications throughput capacity, and wide area connectivity features. LPWA technologies are complementary to existing short range and cellular network technologies, but are associated with lower costs and better power consumption. Most Internet of Things (IoT) and machine-to-machine (M2M) services are dependent on licensed satellite, cellular and wireline networks for wide area connectivity. Cellular networks, in particular, have dominated this space in the recent past. However, cellular networks consume a lot of power. Moreover, they are riddled with complex protocols that lower battery life. This renders them expensive for many low bandwidth IoT applications. LPWA, on the other hand, typically rely on unlicensed frequencies and have low data rates. Research indicates that the costper-module of LPWA could lower from USD 5-20 to USD 1-2 in volume quantities. Although non-existent in early 2013, LPWA is presently one of the fastest-growing components of IoT. This exponential growth is a result of the wide application scope facilitated by an evolving technological space. Browse the full “The LPWA (Low Power Wide Area) Networks Ecosystem Market” report at: http://www.radiantinsights.com/research/the-lpwa-low-power-wide-area-networksecosystem-2015-2030 LPWA is already prevalent in applications like smart metering, parking management and lighting control. It is anticipated to contribute significantly to the IoT and M2M ecosystem in forthcoming years. Revenues in the global LPWA networks ecosystem market are expected to exceed USD 26 billion by 2020. Chief regional markets include North America, Asia Pacific, Middle East & Africa, Eastern Europe, Western Europe, and Latin & Central America. LPWA will enable connection of power-consuming assets to an electricity grid, thereby saving resources. It could be used to connect consumer devices, especially in domains like assisted living and home automation. It may equip a variety of smart city applications to improve efficiencies in everyday functioning. Its adoption in supply chain management would increase operational efficiencies and customer satisfaction, and create pathways for new business models. Lack of a universally-adopted standard for LPWA may restrict market growth. However, it is expected that a significant level of standardization will be achieved in the years to come. Initiatives are underway to introduce regulations that will dedicate spectrum bands exclusively for LPWA networks. LPWA is a priority for the mobile industry. Mobile companies are investing in their own LPWA networks so as to support low bandwidth IoT applications.
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 80 leading ecosystem players - Strategic recommendations for ecosystem players - Market analysis and forecasts from 2015 till 2030 Browse All Reports of This Category @ http://www.radiantinsights.com/catalog/ict Historical Revenue & Forecast Segmentation Connection and service revenue forecasts are provided for the following submarkets: 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 and NB-IOT? - How does regulation impact the adoption of LPWA networks? - Do LPWA networks pose a threat to cellular network 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 $27 Billion in service revenue by 2020. - As of Q4’2015, SNS Research estimates the cost of a typical LPWA module to be $5-20, 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. Request Free Sample Of This Study @ http://www.radiantinsights.com/research/the-lpwalow-power-wide-area-networks-ecosystem-2015-2030#tabs-4 - At present, a majority of LPWA networks operate in license-exempt spectrum primarily in sub-GHz bands. There are a number of ongoing initiatives that call for regulators to dedicate spectrum bands exclusively for LPWA networks as mass market adoption of unlicensed LPWA networks can result in significant interference. - Besides optimizing their cellular networks for M2M services, mobile operators are increasingly investing in their own carrier-grade LPWA networks to support low bandwidth IoT applications. Table Of Content: 1 Chapter 1: Introduction 13 1.1 Executive Summary 13 1.2 Topics Covered 15 1.3 Historical Revenue & Forecast Segmentation 16 1.4 Key Questions Answered 17 1.5 Key Findings 18 1.6 Methodology 19 1.7 Target Audience 20 1.8 Companies & Organizations Mentioned 21
2 Chapter 2: An Overview of LPWA Networks 24 2.1 M2M Networks & the IoT Vision 24 2.1.1 What is M2M Technology? 24 2.1.2 The IoT Vision 25 2.1.3 M2M & IoT Architecture 26 2.2 The Limitations of Traditional M2M Networking Technologies 27 2.3 What are LPWA Networks? 28 2.4 Key Characteristics of LPWA Networks 29 2.4.1 Long Range & Strong Propagation 29 2.4.2 Star Network Topology 29 2.4.3 Low Data Rates 30 2.4.4 Low Power Consumption 30 2.4.5 Battery Life Requirements 30 2.4.6 Scalability 30 2.4.7 Low Cost Modules & Infrastructure 31 2.4.8 Supplementary Features 31 2.5 Market Growth Drivers 32 2.5.1 Addressing Low Throughput IoT Use Cases 32 2.5.2 Cost Saving Potential 32 2.5.3 Energy Saving: Towards Green IoT Networks 33 2.5.4 The 2G Sunset 33 2.5.5 Regulatory Initiatives & Mandates 33 2.5.6 Interest from Vertical Markets 34 2.5.7 Commitments by Industry Giants 34 About Us Radiant Insights is a platform for companies looking to meet their market research and business intelligence requirements. We assist and facilitate organizations and individuals procure market research reports, helping them in the decision making process. We have a comprehensive collection of reports, covering over 40 key industries and a host of micro markets. In addition to over extensive database of reports, our experienced research coordinators also offer a host of Ancillary services such as, research partnerships/ tie-ups and customized research solutions. Media Contact: Michelle Thoras Corporate Sales Specialist, USA Radiant Insights, Inc Phone: 1-415-349-0054 Toll Free: 1-888-202-9519 Email:
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