wireless sensor network Search Results


wireless sensor network  (Mendeley Ltd)
90
Mendeley Ltd wireless sensor network

Wireless Sensor Network, supplied by Mendeley Ltd, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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network-connected sensors  (SMARTSolution Technologies)
90
SMARTSolution Technologies network-connected sensors

Network Connected Sensors, supplied by SMARTSolution Technologies, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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wireless sensor networks for irrigation management  (Decagon Devices)
90
Decagon Devices wireless sensor networks for irrigation management
Changes in the salinity (EC) of the pore water (EC pw; , thin line) in the growing medium (peat-pumice mixture) and of the nutrient solution (thick line) fed to pot ornamentals grown at CESPEVI (Pistoia) in the spring-summer of 2008. Two <t>irrigation</t> regimes differing for scheduling method and the source of raw water were compared: : 1) timer control with nutrient solution (EC = 0.80 dS m −1 ) prepared using low-salinity groundwater (EC = 0.50 dS m −1 ); 2) WET scheduling and two sources of water (groundwater or saline water with EC = 1.50 dS m −1 ) to prepare the nutrient solution with a maximum EC of 1.80 dS m −1 . In the latter, the nutrient solution EC was modulated by changing the rate of fertiliser addition and the water source in order to maintain the EC pw below 2.50 dS m −1 . In the lower graph, the bars close to the abscissa indicate the source of irrigation water: saline water (black), groundwater (white) or mixed water (grey).
Wireless Sensor Networks For Irrigation Management, supplied by Decagon Devices, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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sensium: an ultra-low-power wireless body sensor network platform  (Sensium Inc)
90
Sensium Inc sensium: an ultra-low-power wireless body sensor network platform
Changes in the salinity (EC) of the pore water (EC pw; , thin line) in the growing medium (peat-pumice mixture) and of the nutrient solution (thick line) fed to pot ornamentals grown at CESPEVI (Pistoia) in the spring-summer of 2008. Two <t>irrigation</t> regimes differing for scheduling method and the source of raw water were compared: : 1) timer control with nutrient solution (EC = 0.80 dS m −1 ) prepared using low-salinity groundwater (EC = 0.50 dS m −1 ); 2) WET scheduling and two sources of water (groundwater or saline water with EC = 1.50 dS m −1 ) to prepare the nutrient solution with a maximum EC of 1.80 dS m −1 . In the latter, the nutrient solution EC was modulated by changing the rate of fertiliser addition and the water source in order to maintain the EC pw below 2.50 dS m −1 . In the lower graph, the bars close to the abscissa indicate the source of irrigation water: saline water (black), groundwater (white) or mixed water (grey).
Sensium: An Ultra Low Power Wireless Body Sensor Network Platform, supplied by Sensium Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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wireless sensor (wist)  (EnOcean GmbH)
90
EnOcean GmbH wireless sensor (wist)
Changes in the salinity (EC) of the pore water (EC pw; , thin line) in the growing medium (peat-pumice mixture) and of the nutrient solution (thick line) fed to pot ornamentals grown at CESPEVI (Pistoia) in the spring-summer of 2008. Two <t>irrigation</t> regimes differing for scheduling method and the source of raw water were compared: : 1) timer control with nutrient solution (EC = 0.80 dS m −1 ) prepared using low-salinity groundwater (EC = 0.50 dS m −1 ); 2) WET scheduling and two sources of water (groundwater or saline water with EC = 1.50 dS m −1 ) to prepare the nutrient solution with a maximum EC of 1.80 dS m −1 . In the latter, the nutrient solution EC was modulated by changing the rate of fertiliser addition and the water source in order to maintain the EC pw below 2.50 dS m −1 . In the lower graph, the bars close to the abscissa indicate the source of irrigation water: saline water (black), groundwater (white) or mixed water (grey).
Wireless Sensor (Wist), supplied by EnOcean GmbH, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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wireless sensor networks  (Texas Instruments)
90
Texas Instruments wireless sensor networks
Changes in the salinity (EC) of the pore water (EC pw; , thin line) in the growing medium (peat-pumice mixture) and of the nutrient solution (thick line) fed to pot ornamentals grown at CESPEVI (Pistoia) in the spring-summer of 2008. Two <t>irrigation</t> regimes differing for scheduling method and the source of raw water were compared: : 1) timer control with nutrient solution (EC = 0.80 dS m −1 ) prepared using low-salinity groundwater (EC = 0.50 dS m −1 ); 2) WET scheduling and two sources of water (groundwater or saline water with EC = 1.50 dS m −1 ) to prepare the nutrient solution with a maximum EC of 1.80 dS m −1 . In the latter, the nutrient solution EC was modulated by changing the rate of fertiliser addition and the water source in order to maintain the EC pw below 2.50 dS m −1 . In the lower graph, the bars close to the abscissa indicate the source of irrigation water: saline water (black), groundwater (white) or mixed water (grey).
Wireless Sensor Networks, supplied by Texas Instruments, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/wireless sensor networks/product/Texas Instruments
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wireless network interface  (Infocom Corp)
90
Infocom Corp wireless network interface
Changes in the salinity (EC) of the pore water (EC pw; , thin line) in the growing medium (peat-pumice mixture) and of the nutrient solution (thick line) fed to pot ornamentals grown at CESPEVI (Pistoia) in the spring-summer of 2008. Two <t>irrigation</t> regimes differing for scheduling method and the source of raw water were compared: : 1) timer control with nutrient solution (EC = 0.80 dS m −1 ) prepared using low-salinity groundwater (EC = 0.50 dS m −1 ); 2) WET scheduling and two sources of water (groundwater or saline water with EC = 1.50 dS m −1 ) to prepare the nutrient solution with a maximum EC of 1.80 dS m −1 . In the latter, the nutrient solution EC was modulated by changing the rate of fertiliser addition and the water source in order to maintain the EC pw below 2.50 dS m −1 . In the lower graph, the bars close to the abscissa indicate the source of irrigation water: saline water (black), groundwater (white) or mixed water (grey).
Wireless Network Interface, supplied by Infocom Corp, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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mit sensor array  (IEEE Access)
90
IEEE Access mit sensor array
Changes in the salinity (EC) of the pore water (EC pw; , thin line) in the growing medium (peat-pumice mixture) and of the nutrient solution (thick line) fed to pot ornamentals grown at CESPEVI (Pistoia) in the spring-summer of 2008. Two <t>irrigation</t> regimes differing for scheduling method and the source of raw water were compared: : 1) timer control with nutrient solution (EC = 0.80 dS m −1 ) prepared using low-salinity groundwater (EC = 0.50 dS m −1 ); 2) WET scheduling and two sources of water (groundwater or saline water with EC = 1.50 dS m −1 ) to prepare the nutrient solution with a maximum EC of 1.80 dS m −1 . In the latter, the nutrient solution EC was modulated by changing the rate of fertiliser addition and the water source in order to maintain the EC pw below 2.50 dS m −1 . In the lower graph, the bars close to the abscissa indicate the source of irrigation water: saline water (black), groundwater (white) or mixed water (grey).
Mit Sensor Array, supplied by IEEE Access, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/mit sensor array/product/IEEE Access
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software for zigbee wireless sensor network  (Texas Instruments)
90
Texas Instruments software for zigbee wireless sensor network
Changes in the salinity (EC) of the pore water (EC pw; , thin line) in the growing medium (peat-pumice mixture) and of the nutrient solution (thick line) fed to pot ornamentals grown at CESPEVI (Pistoia) in the spring-summer of 2008. Two <t>irrigation</t> regimes differing for scheduling method and the source of raw water were compared: : 1) timer control with nutrient solution (EC = 0.80 dS m −1 ) prepared using low-salinity groundwater (EC = 0.50 dS m −1 ); 2) WET scheduling and two sources of water (groundwater or saline water with EC = 1.50 dS m −1 ) to prepare the nutrient solution with a maximum EC of 1.80 dS m −1 . In the latter, the nutrient solution EC was modulated by changing the rate of fertiliser addition and the water source in order to maintain the EC pw below 2.50 dS m −1 . In the lower graph, the bars close to the abscissa indicate the source of irrigation water: saline water (black), groundwater (white) or mixed water (grey).
Software For Zigbee Wireless Sensor Network, supplied by Texas Instruments, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/software for zigbee wireless sensor network/product/Texas Instruments
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wireless sensor networks  (honeywell international)
90
honeywell international wireless sensor networks
Changes in the salinity (EC) of the pore water (EC pw; , thin line) in the growing medium (peat-pumice mixture) and of the nutrient solution (thick line) fed to pot ornamentals grown at CESPEVI (Pistoia) in the spring-summer of 2008. Two <t>irrigation</t> regimes differing for scheduling method and the source of raw water were compared: : 1) timer control with nutrient solution (EC = 0.80 dS m −1 ) prepared using low-salinity groundwater (EC = 0.50 dS m −1 ); 2) WET scheduling and two sources of water (groundwater or saline water with EC = 1.50 dS m −1 ) to prepare the nutrient solution with a maximum EC of 1.80 dS m −1 . In the latter, the nutrient solution EC was modulated by changing the rate of fertiliser addition and the water source in order to maintain the EC pw below 2.50 dS m −1 . In the lower graph, the bars close to the abscissa indicate the source of irrigation water: saline water (black), groundwater (white) or mixed water (grey).
Wireless Sensor Networks, supplied by honeywell international, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/wireless sensor networks/product/honeywell international
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wireless sensor network  (Multimed Inc)
90
Multimed Inc wireless sensor network
Changes in the salinity (EC) of the pore water (EC pw; , thin line) in the growing medium (peat-pumice mixture) and of the nutrient solution (thick line) fed to pot ornamentals grown at CESPEVI (Pistoia) in the spring-summer of 2008. Two <t>irrigation</t> regimes differing for scheduling method and the source of raw water were compared: : 1) timer control with nutrient solution (EC = 0.80 dS m −1 ) prepared using low-salinity groundwater (EC = 0.50 dS m −1 ); 2) WET scheduling and two sources of water (groundwater or saline water with EC = 1.50 dS m −1 ) to prepare the nutrient solution with a maximum EC of 1.80 dS m −1 . In the latter, the nutrient solution EC was modulated by changing the rate of fertiliser addition and the water source in order to maintain the EC pw below 2.50 dS m −1 . In the lower graph, the bars close to the abscissa indicate the source of irrigation water: saline water (black), groundwater (white) or mixed water (grey).
Wireless Sensor Network, supplied by Multimed Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/wireless sensor network/product/Multimed Inc
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vsn240 vehicle sensor nodes  (Sensys Networks)
90
Sensys Networks vsn240 vehicle sensor nodes
Changes in the salinity (EC) of the pore water (EC pw; , thin line) in the growing medium (peat-pumice mixture) and of the nutrient solution (thick line) fed to pot ornamentals grown at CESPEVI (Pistoia) in the spring-summer of 2008. Two <t>irrigation</t> regimes differing for scheduling method and the source of raw water were compared: : 1) timer control with nutrient solution (EC = 0.80 dS m −1 ) prepared using low-salinity groundwater (EC = 0.50 dS m −1 ); 2) WET scheduling and two sources of water (groundwater or saline water with EC = 1.50 dS m −1 ) to prepare the nutrient solution with a maximum EC of 1.80 dS m −1 . In the latter, the nutrient solution EC was modulated by changing the rate of fertiliser addition and the water source in order to maintain the EC pw below 2.50 dS m −1 . In the lower graph, the bars close to the abscissa indicate the source of irrigation water: saline water (black), groundwater (white) or mixed water (grey).
Vsn240 Vehicle Sensor Nodes, supplied by Sensys Networks, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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Image Search Results


Journal: Data in Brief

Article Title: Dataset on water quality monitoring from a wireless sensor network in a river in Kosovo

doi: 10.1016/j.dib.2022.108486

Figure Lengend Snippet:

Article Snippet: The dataset is hosted at the Mendeley Data repository (Ahmedi and Ahmedi 2021), and is related to the research article entitled “InWaterSense: An Intelligent Wireless Sensor Network for Monitoring Surface Water Quality to a River in Kosovo” (Ahmedi et al., 2018).

Techniques:

Changes in the salinity (EC) of the pore water (EC pw; , thin line) in the growing medium (peat-pumice mixture) and of the nutrient solution (thick line) fed to pot ornamentals grown at CESPEVI (Pistoia) in the spring-summer of 2008. Two irrigation regimes differing for scheduling method and the source of raw water were compared: : 1) timer control with nutrient solution (EC = 0.80 dS m −1 ) prepared using low-salinity groundwater (EC = 0.50 dS m −1 ); 2) WET scheduling and two sources of water (groundwater or saline water with EC = 1.50 dS m −1 ) to prepare the nutrient solution with a maximum EC of 1.80 dS m −1 . In the latter, the nutrient solution EC was modulated by changing the rate of fertiliser addition and the water source in order to maintain the EC pw below 2.50 dS m −1 . In the lower graph, the bars close to the abscissa indicate the source of irrigation water: saline water (black), groundwater (white) or mixed water (grey).

Journal: Sensors (Basel, Switzerland)

Article Title: Root Zone Sensors for Irrigation Management in Intensive Agriculture

doi: 10.3390/s90402809

Figure Lengend Snippet: Changes in the salinity (EC) of the pore water (EC pw; , thin line) in the growing medium (peat-pumice mixture) and of the nutrient solution (thick line) fed to pot ornamentals grown at CESPEVI (Pistoia) in the spring-summer of 2008. Two irrigation regimes differing for scheduling method and the source of raw water were compared: : 1) timer control with nutrient solution (EC = 0.80 dS m −1 ) prepared using low-salinity groundwater (EC = 0.50 dS m −1 ); 2) WET scheduling and two sources of water (groundwater or saline water with EC = 1.50 dS m −1 ) to prepare the nutrient solution with a maximum EC of 1.80 dS m −1 . In the latter, the nutrient solution EC was modulated by changing the rate of fertiliser addition and the water source in order to maintain the EC pw below 2.50 dS m −1 . In the lower graph, the bars close to the abscissa indicate the source of irrigation water: saline water (black), groundwater (white) or mixed water (grey).

Article Snippet: Wireless sensor networks for irrigation management are presently offered by several companies (e.g., Crossbow Technologies, Inc.; Netafim Ltd.; Delta-T Devices Ltd.; Decagon Devices, Inc.).

Techniques: Control, Saline

Management system for farm level irrigation.

Journal: Sensors (Basel, Switzerland)

Article Title: Root Zone Sensors for Irrigation Management in Intensive Agriculture

doi: 10.3390/s90402809

Figure Lengend Snippet: Management system for farm level irrigation.

Article Snippet: Wireless sensor networks for irrigation management are presently offered by several companies (e.g., Crossbow Technologies, Inc.; Netafim Ltd.; Delta-T Devices Ltd.; Decagon Devices, Inc.).

Techniques: