Albany, NY -- (SBWIRE) -- 02/23/2017 -- Research announces that it has published a new study Wireless Sensor Network Market Shares, Strategy, and Forecasts, Worldwide, 2013 to 2019. The 2013 study has 640 pages, 266 tables and figures. Worldwide markets are poised to achieve significant growth as the Wireless Sensor Network is used to implement the Internet of things. Advanced technologies for wireless sensor networks are associated with energy harvesting and thin film batteries. Emerging wireless sensor 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. Energy storage technologies of super-capacitors and thin-film batteries with cost-effective market presence are set to power wireless sensor networking.

Energy harvesting devices have attained workable levels of efficiency. There are significant cost reductions for wireless sensor networking that have been accomplished in the past few years. Many applications are related to smarter computing that depends on sensors capturing change in conditions and making adjustments to the environment based on measured change. Worldwide wireless sensor network device market driving forces relate to an overall trend toward implementation of the Internet of things addressing disparate initiatives toward adoption of the smarter planet for buildings, roads, transportation, and mobile health initiative for chronic conditions.

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This smarter planet trend promises to become prevalent as people learn how to use small core processors combined with sensing technology to keep the cities more livable and themselves healthier. Healthy behaviors such as exercise, good diet and stress management have the potential to reverse aging on a molecular level and partly restore the vitality of a person's cells with sensors and communication of the sensor data over wireless sensor networks playing a significant role in management of life. 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 WinterGreen Research team that prepared the wireless sensor network market research study, "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.

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This is true across the spectrum of things that can be monitored by sensors" These wireless sensor networks in the past have relied heavily on batteries that need to be changed by a human. Energy harvesting technology combined with solid state batteries power an increasing number of consumer and industrial products that are untethered or need to become disconnected from electrical outlets. The markets for wireless sensor networks at $552.4 million in 2012 become very big, very fast reaching $14.6 billion by 2019. 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 wireless sensor networks markets will be driven by the adoption of 8.5 billion smart phones by 2019, creating demand for apps that depend on sensor networks.

Companies Profiled

Market Leaders

Northrop Grumman
Boeing
KCF Technologies
Marlow Industries
Cymbet
Micropelt
EnOcean
Silicon Laboratories
Perpetuum
Arveni
Infinite Power Solutions (IPS)

Market Participants

ABB
Adaptive Materials Technology - Adaptamat Ltd
Alphabet Energy
Arrow Electronics
American Elements, USA
Australian Defence Science & Technology Organisation (DSTO)
Arveni
Avnet
BAE Systems
Boeing
BYD
CST
Cymbet
Digi International
Dust Networks
EnOcean GmbH
Finmeccanica
Flexible Electronics Concepts
Ferro Solutions
Fraunhofer Institute for Integrated Circuits IIS
General Electric Company (GE)
GMZ
Honeywell
Infinite Power Solutions
Inventec
IO
ITN Lithium Technology
JonDeTech
KCF Technologies Inc
Kelk
Levant Power
LORD Corporation, MicroStrain® Sensing Systems
MacSema
Microchip Technology
MicroGen Systems
Micropelt
Millennial Net
Modern Water
National Instruments
Nature Technology
Nextreme
OMRON
Planar Energy Devices
Perpetua
Phononic Devices
Polatis Photonics
Primus Power
PS
Schneider Electric
Severn Water / Modern Water / Cymtox Limited
Syngenta Sensors UIC
Teledyne / Rockwell Scientific
Texas Instruments (TXN:NYSE)
Trophos Energy
University of California, Berkeley

Check Out These Key Topics

Wireless Sensor Network
Wireless Nodes
Microcontroller
Energy Harvesting
Vibration-Based Wireless Energy
Piezoelectric Energy Harvesters
Thermoelectrics
Generating Power From Heat
Smart Computing
Power Community
Wireless Sensor Networks
Smart Cities
Smart Buildings
Military Remote Energy Applications
Off-Grid Special Energy
Energy harvesters
Powering Pipeline Monitoring Stations
Navigational aids energy
Spacecraft energy
Thermoelectric cooling Automotive Energy
Lighting Community
Manganese dioxide
Nanoparticles
Nanotechnology Graphene
Self-assembly
Nanostructured Thin Films
Microgenerator Transforms Mechanical Energy
Vibration Electricity
Pressure Of A Finger
Piezoelectricity
Solid State Technology
Microgenerator
Power Source Of Sensor
Sensor node
Vibration Energy Harvesting
Photovoltaics
Piezoelectrics
Thermovoltaics
Energy Scavenging
Power Harvesting
Capture Of Ambient Energy
Algorithmic Control
Energy Harvesters
Sensors Based On Magnetic Materials
Wireless Sensor Network Economies of Scale
Internet of Things
IoT
Wireless Sensor Network Standards
System on a Chip (SOC)
Blue Tooth
SimpliciTI
M2M
LXRS® PROTOCOL
ZigBee Alliance
Powering Current Sensors
University of Michigan
Vishay Precision Group
Zarlink Semiconductor AB
US Department of Energy's Advanced Research Projects Agency-Energy (ARPA-E) Seed Funding
Selected Energy Harvesting Market Participants