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Tagging the Physical World. Gregory J Pottie Professor, Electrical Engineering Department Associate Dean, Research and Physical Resources UCLA Henry Samueli School of Engineering and Applied Science [email protected]. Outline. Relation of sensor networks and RFID - PowerPoint PPT Presentation
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Gregory J PottieProfessor, Electrical Engineering DepartmentAssociate Dean, Research and Physical ResourcesUCLA Henry Samueli School of Engineering and Applied [email protected]
Tagging the Physical World
Outline
• Relation of sensor networks and RFID• RFID networks as trigger for higher bandwidth
services• Retail example
• RFID and other tags as lowest layer in sensor network • Environmental applications
Embedded Networked Sensing
• Micro-sensors, on-board processing, wireless interfaces feasible at very small scale--can monitor phenomena “up close”
• Enables spatially and temporally dense environmental monitoring
Embedded Networked Sensing will reveal previously unobservable phenomena
Contaminant TransportEcosystems, Biocomplexity
Marine Microorganisms Seismic Structure Response
Science Application System Development
• Biology/Biocomplexity• Microclimate monitoring• Triggered image capture
• Contaminant Transport• County of Los Angeles Sanitation
Districts (CLASD) wastewater recycling project, Palmdale, CA
• Seismic monitoring• 50 node ad hoc, wireless, multi-
hop seismic network• Structure response in USGS-
instrumented Factor Building
• Marine microorganisms• Detection of a harmful alga • Experimental testbed
w/autonously adapting sensor location
Grade 7-12 Science Education:Sensor Networks as Experimental tool
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New Directions
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Coral reef
Global seismic Grids/facilities
Precision Agriculture
Macro-Programming Adaptive Sampling
High Integrity
RFIDs
Security
NIMS
Tropical biology
Theatre,Film,TV Gaming
Science Applications
Bayesian Techniques
RFID and Sensor Networks
• Sensor network:• Nodes include communication, signal processing, and
sensing capability (e.g., for monitoring of physical phenomenon)
• Processing at source and multi-hop communications reduce bandwidth requirements
• Vast range of sizes, capabilities (linux boxes, motes, “dust”)
• Passive RFID tag network:• Readers are the sensor nodes, tags are the objects to be
detected• RFID nodes with sensors and active communication:
• These are classic sensor networks
RFID and Retail Operations
• Scanning: optical scan of bar code for goods/frequent shopper number• Store database for inventory and tracking of
buying habits; cash register• Credit/debit card: magnetic swipe• Remote database for credit information,
with connection to cash register• Both can be replaced with RFID but neither has
any substantial electronic records management implications• In short run, maximal re-use of existing
infrastructure and software
RFID and the Consumer
• Consumers equipped with readers (say extra PDA accessory) may be able to obtain lots of information:• Price, Consumer report• Manufacturing history (sweatshop labor?)• Ingredients list (with automated check against allergies)• Alternative products, possibly with targeted advertising
• Tag acts as trigger for services requiring web access with far higher data rates than store’s financial transactions• Opportunity for e-shopping types of information in malls,
including the pop-up ads (e.g. “Minority Report”)• Could also less conveniently be done with bar codes
RFID and Pervasive Computing
• RFID example of technology that binds information to individual items (including people)• Not the first and won’t be the last
• These technologies in general simplify collection of diverse information about the object• Communications infrastructure needs
dominated by the new services that are enabled, rather than merely reading the tags
• Who controls the data?• Who will pay for the infrastructure follows
Tags and Sensors
• Ecology monitoring• Visual tags on plants or animals• Cameras for studying growth, sensors for
environmental conditions• Need to be sure that it is the same object so
that can accumulate measurements over time and space
• The sensors represent vastly more information than the ID per se, but tags can significantly reduce required signal processing complexity
• Tags can play similar role in military operations (burrs and lures)
• NIMS Architecture: Robotic, aerial access to full 3-D environment• Enable sample acquisition
• Coordinated Mobility • Enables self-awareness of
Sensing Uncertainty• Sensor Diversity
• Diversity in sensing resources, locations, perspectives, topologies
• Enable reconfiguration to reduce uncertainty and calibrate
• NIMS Infrastructure• Enables speed, efficiency• Provides energy transport for
sustainable presence• Use of tags
• Can draw attention of network
Sensor-Coordinated MobilityActuation: Networked Info-Mechanical Systems (NIMS)
