other recommedations. increasing spatial resolution (low bandwidth) increasing spatial coverage...
Post on 20-Dec-2015
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Increasing Spatial
Resolution(Low
bandwidth)
Increasing Spatial
Coverage(High
bandwidth)
Collective and Local Processing per-node, within array tier and hierarchical
Bi-Directional Communications within and cross-tier
Progressive Event Recognition and Response: autonomous and command driven; environmental or operational conditions; dynamic configurability and reporting
Progressive Data Processing and Storage priority based retention and distillation.
Network Nodes, Long-Range Interface
Mesoscale Range, Peer-Peer Arrays
Microscale Range, Peer-Peer Arrays
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Three Tiered Sensor Array for Land-Atmosphere Research
13.
Proposed Sensor Array Configuration for Land Atmosphere
Research
Network Nodes
Network
Wireless Microscale Motes
Data from Microscale and Mesoscale Nodes are transmitted to a Base Station.
Communication occurs bi-directionally to enable coordinated or manual control.
Wireless Mesoscale Nodes
Node Hopping using 10 meter or less RF range
Node Hopping using 10 meters to 10 kilometers RF range
Node Hopping range is infinite
12.
Side View Mote Deployment
P,T,H Micro Sensors of Nighttime Advective Flow Detection down Niwot Ridge will assist us in placing our CO2 concentration sensors
Front View Mote Deployment
Automatic Scaling of Plume using intelligent schemesuch as Fuzzy Logiccoupled with DirectedDiffusion to determine Data Rate and correlation ofcomplementing sensors
17.
19.
Proposed Network Link of towers to cover landscapewith micro, local and regional scale sensors in three-tiered hierarchy
(1) Micro Photosynthetic Measurements of tree canopy (Sap flow and PAR Sensors)(2) CO2 Concentrations correlated with MET parameters on mesoscale level (3) CO2 flux correlations
(2)
(2)
(2)
(2)(1)
(3)
18.
CO2 Measurements from three scales