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![Page 1: Introduction to Wireless Sensor Networksmide.aalto.fi › en › attach › ISMO › Myllys.pdfMonitoring the Structural Health of the Rion-Antirion Bridge Using NI LabVIEW Dissolved](https://reader034.vdocuments.site/reader034/viewer/2022052612/5f0cd0437e708231d437423b/html5/thumbnails/1.jpg)
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Wireless Sensor NetworksAn Introduction to Technologies, Applications, and Architecture
Teppo MyllysDistrict Sales Manager, National Instruments
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Agenda• Definition and Applications• Wireless Sensor Network System Components• Technology Considerations
Network TopologiesCommunication StandardsPower Consumption
• NI Wireless Sensor Networks• Develop a Wireless Sensor Network Measurement System
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Wireless Sensor Networks (WSNs)
Applications include:• Environmental monitoring• Structural monitoring• Industrial machine monitoring• Power quality and consumption• Building and home automation• Health care• Asset monitoring
Defined as a wireless network that consists of spatially distributed devices that use sensors to monitor physical or environmental conditions
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Structural Health Monitoring of the 2008 Olympic Venues in BeijingApplication: LabVIEW and CompactRIO for structural
health monitoring (SHM) determine stability, reliability, and livability of mega-structures in China
Challenge: Developing reliable SHM system with continuous monitoring, rugged enclosure, GPS synchronization, and remote access
Products: LabVIEW and CompactRIO
“Using National Instruments hardware and software, we designed, prototyped, and deployed a high-channel count, SHM system with GPS synchronization in less than one-year.” - Chris McDonald, CGM Engineering
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Application: High-channel, mix-sensor monitoring system distributed across 3-km bridge in high-seismic activity
Challenge: Reliable, real-time monitoring while subjected to harsh environmental and seismic conditions
Products: LabVIEW and PXI
Key Benefit: Easy to mix and synchronize different measurements within PXI system; real-time, reliable monitoring systems with LabVIEW Real-Time
Monitoring the Structural Health of the Rion-Antirion Bridge Using NI LabVIEW
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Dissolved Oxygen
Wireless Sensor Network Components
IEEE 802.3Ethernet
BatteryBatteryMicrocontrollerMicrocontrollerAnalog CircuitAnalog Circuit
RadioRadio
WSN Gateway
WSN Measurement Nodes
Host Controller
Sensor InterfaceSensor InterfaceVoltage
Temperature
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Network Topologies
Star MeshReliability
Latency
Cluster/TreeDistance
Complexity
Gateway
Router Node
End Node
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Wireless Standards
Data Rate (b/s)
Pow
er C
onsu
mpt
ion,
Co
st, a
nd C
ompl
exit
y
100 k 1 M 10 M 100 M
ZigBeeIEEE 802.15.4
IEEE 802.11Wi-Fi
WPAN
WLAN
Low (Battery)
High
Bluetooth
Cellular
Short
Medium
Long
TransmissionDistance
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IEEE 802.15.4/ZigBee• Popular for WSN devices• IEEE 802.15.4 defines:
868, 915 MHz, and 2.4 GHz radiosUp to 250 kb/sLow-power communication
• ZigBee adds:Device coordinationNetwork topologiesInteroperability with other wireless products
Physical Layer868 MHz/915 MHz/2.4 GHz
Medium-Access Control Layer
Network LayerRouting, Network Topologies, and Security
Application Layer
IEEE 802.15.4 ZigBee
Application FrameworkUser Profiles
ZigBee Device ObjectsDevice coordination: gateway, router, or
end device
Application SupportData service and management
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Power Considerations• Nodes sleep most of the time to conserve power• Must minimize processor and radio power
Time
Node Power Consumption
Example
Power Consumption
BitsProcessor
SpeedEmbedded
MemoryOn Sleep
Crossover TI MSP430 F2419 8 mW 0.2 µW 16 8 MHz 128 KB
Freescale QE128 100 mW 1 µW 8/32 50 MHz 128 KB
ARM OKI ML674K 145 mw 50 µW 16/32 33 MHz 512 KB
PPC Freescale MPC8313 520 mW 300 mW 32 333 MHZ GB External
x86 Intel Core 2 Duo T7400 34 W 12 W 64 2.16 GHZ GB External
Microprocessor Trends and Options
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Low-Power. Reliable. NI Wireless Sensor Networks
• 2.4 GHz, ZigBee-based radio• Ethernet connectivity to Windows
or Real-Time OS host controllers• Easy WSN configuration in
NI Measurement & Automation Explorer
• 4-channel, 16-bit, 0 to10 V analog input node• 4-channel, 24-bit thermocouple input node• Easy access to I/O with NI LabVIEW project
integration and drag-and-drop programming• Low-power TI MSP430 processor• 4 AA battery-powered, up to 2+ year lifetime• 2.4 GHz, ZigBee-based radio• Screw terminals for sensor interface
NI WSN-9791 Ethernet Gateway
NI WSN-3202 NI WSN-3212 Measurement Nodes
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Develop a WSN Measurement System
IEEE 802.3 Network Backbone
DatabaseServer
LabVIEWReal-Time
LabVIEW forWindows
WSN GatewayWSN Measurement Nodes
Wireless “Smart” Devices
Worldwide Web
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Wireless Sensor Networks Demo
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For more information, visit ni.com/wsn