The Research
announces that it has published a new study Wireless Sensor Network Market
Shares, Strategy, and Forecasts, Worldwide, 2014 to 2020. The 2014 study has
640 pages, 266 tables and figures. Worldwide markets are poised to achieve
significant growth as the Semiconductor Wireless Sensor Network is used to
implement the Internet of things and to monitor pipelines, oil wells, and
healthcare patients to illustrate the variety of projects supported by these
networks.
Semiconductor
wireless sensor networks are used for bridge monitoring, implementing the smart
grid, implementing the Internet of things, and monitoring for security
implementation. The systems are used to implement energy savings in homes and
commercial buildings, almost anything can be monitored with sensors and tracked
on a smart phone. Projects are ongoing.
With 9
billion devices connected to the Internet in 2014, phenomenal growth is likely
to occur when that number rises to 100 billion by 2020. Businesses control
devices with sensors and wireless sensor networks (WSNs).
The sensors
connected to the Internet promise to bring a big data explosion. Much of the
data will be discarded, as users get simply overwhelmed by vast volumes.
Analytics will become popular inside the wireless sensor networks so that
alerts are generated at the point of collection of data.
The issue is
how to embed analytics into the wireless sensor network control units so that
only the alert data needed is transmitted. Users of information need to be able
to find, control, manage, and secure the information coming from sensors onto
the network. Users need to analyze and exploit the information coming from
sensors.
See
more about report visit - SemiconductorWireless Sensor Internet of Things (IoT): Market Shares, Strategies, andForecasts, Worldwide, 2014 to 2020
Advanced
technologies for wireless sensor networks are associated with emerging ways of
interconnecting devices that have never been connected before. Networking is
based on leveraging the feasibility of making sensors work independently in
groups to accomplish insight not otherwise available. Advanced storage devices are
emerging simultaneously with the energy harvesting devices that are economical,
making sensor networks feasible. Storage devices can leverage the power
captured by energy harvesting when sensors and devices are interconnected as a
network.
Data storage
technologies connected to the sensors are permitting far better control of the
world around us, implementing vastly improved energy efficiency as lights and
hearting are turned on and off just as needed. Wireless sensor networks
implement cost-effective systems.
Wireless
sensor networks are developing a market presence. They are set to power
wireless sensor network proliferation. Independent sensor devices located
almost anywhere have attained workable levels of efficiency.
The
proliferation of apps on smart phones will drive growth of semiconductor
wireless sensor networks markets because the sensors work directly as they are
installed without excess labor and wiring that has been necessary previously,
making the systems more convenient to install and run.
Healthy
lifestyle choices can increase the length of DNA sequences found at the end of
a person's chromosomes and reverse aging. This discovery is likely to increase
interest in monitoring and testing DNA sequences and looking at the ends of the
chromosomes. This discovery is likely to increase a shift toward wellness
initiatives. It has stimulated the need for better communication between
clinicians and patients. New sensor technology creates the opportunity for
monitoring and testing. Wireless sensor network devices can be used to send
alerts to at risk people who are exercising.
Wireless
sensor networking is set to grow as sensors are freed from the grid and
networks implement connectivity that is mesh architecture based. Converting
ambient energy to useable electrical energy harvesting (EH) systems creates the
opportunity to implement wireless sensor networks. These networks interconnect
an inexpensive and compact group of devices and sensors. The networks use
wireless capability to power portable electrical devices.
According to
Susan Eustis, lead author of the Publisher Research team that prepared the
semiconductor wireless sensor network market research study, “Semiconductor
wireless sensor network markets are evolving as smart phone devices and
technology find more uses throughout the landscape of the Internet of Things.
Sensors can provide monitoring that has not previously been available.
Differential diagnostic tools support provide differential information that
helps manage our daily lives from traffic patterns to crime detections, to
medical treatment.”
“The
decision process take into account clinical findings from the home monitoring
devices and from symptoms verbally communicated in a clinical services setting.
Improved economics of healthcare delivery implementation is facilitated by
wireless sensor networks. This is true across the spectrum of things that can
be monitored by sensors”
Semiconductor
Wireless Sensor Networks Markets at $2.7 billion in 2013 are forecast to reach
$12 billion Worldwide by 2020. Wild growth, frequently measured as penetration
rates is a result of the change out of wired sensor networks for wireless ones.
In addition, the wireless networks have a broader reach than the wired ones
did, spurring market extensions in a variety of applications, some not even
thought of so far.
Market
growth is dependent on emerging technology. As the wireless technology, the
solid state battery, the sensor technology, smart phone technology and the
energy harvesting technology all become commercialized, these devices will be
used to implement wireless sensor networks. The semiconductor wireless sensor
networks markets will be driven by the adoption of 9 billion smart phones by
2020, creating demand for apps that depend on sensor networks.
The report covered 32 companies
- Renesas, Microsemi, Silicon Laboratories, Linear Technology / Dust Networks,
Texas Instruments / National Semi, Lord, Semtech, Analog Devices, Millennial
Net, Akamai, Analog Devices, Conexant Systems, Dialog, Freescale Semiconductor,
Fujitsu, Gemalto, Honeywell, IBM, Integrated Device Technology (IDT), Invensys,
Libelium, Millennial Net, Mitsubishi Electric, Northrop Grumman, OMRON,
Rockwell Automation, Schneider Electric, Semtech, Sensata Technologies, Texas
Instruments, Zigbee, Z-wave
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