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RFID/GIS Technology Hampton Roads ITS Communication Infrastructure

RFID/GIS Technology Hampton Roads ITS Communication Infrastructure. Neil Reed Hampton Roads TOC 5/17/2013. Active (Programmable) Passive (Non-Programmable). RFID/GIS Technology. Types of RFID Markers. RFID/GIS Technology. Gather as Much Information as Possible.

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RFID/GIS Technology Hampton Roads ITS Communication Infrastructure

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  1. RFID/GIS Technology Hampton Roads ITS Communication Infrastructure Neil ReedHampton Roads TOC5/17/2013

  2. Active (Programmable) Passive (Non-Programmable) RFID/GIS Technology • Types of RFID Markers

  3. RFID/GIS Technology • Gather as Much Information as Possible • Review Existing Documentation (As-Builts) • Conduct Site Surveys

  4. RFID/GIS Technology • Identify Access Points • Access Points Include • Manholes • Handholes • Cabinets • Building Entry and Above Ground Transition Locations

  5. RFID/GIS Technology • Identify Access Points • Access Points • Visual Inspection of Pathways and Cables confirms quantity, size, type, and direction of pathways and cable infrastructure • Validates As-Builts • Identifies Discrepancies • Validates Existing Infrastructure

  6. RFID/GIS Technology • Documentation Collected at Access Points Photos of Access Point Interior Photos of Surrounding Area JB Schematic

  7. RFID/GIS Technology • Pathway Data Collection Methods • Identify Pathways Between Access Points • Spot Holing to Confirm Depth • Tracer Wire • Beacon Pulled Through Conduit • Ground Penetrating Radar

  8. RFID/GIS Technology • Select RFID Data Templates • Pathways (GPS Every 25’) • Pathways-Crossing • Pathways-Bends • JB-3A or 5A Handholes (HH) • JB-Type A Vault (MH) • JB-Control Cabinet (CAB) (Non-RFID) JB CAB ---RFID 100’-- GPS 25’ JB HH JB 2’ on either side of Utility JB Vault – (MH) Type A

  9. RFID/GIS Technology • RFID Marker Installation • Install Marker • Download Template Data • Collect GPS Data

  10. RFID/GIS Technology • Consolidate GPS Coordinate and Template Data • RFID Data from locator Handheld GPS Transferred via Bluetooth during marker installation

  11. RFID/GIS Technology • Perform QA/QC of Collected Data • Review Data (Parent Relationship/Symbology) and Edit as Needed • Perform Differential Correction (w/Base Station)

  12. RFID/GIS Technology • Perform QA/QC of Collected Data • Review Data (Parent Relationship/Symbology) and Edit as Needed • Perform Differential Correction (w/Base Station) Validates GPS Accuracy & Refines within 6”

  13. RFID/GIS Technology • Export Files into ESRI ArcGIS or Google Earth • ArcGIS Imports as a SHAPE File • Google Earth Imports as a KML File

  14. RFID/GIS Technology • The Road Ahead • Provide web application to provide desktop access/analysis • Provide mobile app for field access

  15. RFID/GIS Technology • More Accurate As-Builts

  16. RFIS/GIS Technology • More Accurate As-Builts

  17. RFID/GIS Technology • Damage Prevention Better data means less impact to live infrastructure

  18. RFID/GIS Technology • Locating Buried Junction Boxes and Handholes

  19. RFID/GIS Technology Merging RFID technology with Geographic Information System (GIS) Infrastructure management and protection RFID technology to identify and locate underground infrastructure assets such as gas pipelines, sewer lines, electrical cables, communication cables, etc.

  20. RFID/GIS Technology Where this technology is heading? • Asset Management • Web service/access simplicity • Mobile availability • Electronic/Paperless As-builts • O&M virtual support • Reliable/Quality infrastructure data • Distribution of data to internal and external sources. • Regional and state availability of data and resources. • Construction/Project Management Services • Automated data support • Construction project QA/QC of performed work and equipment quantities via barcode • Construction Inspection management

  21. RFID/GIS Technology • Web and Mobile App Demo…

  22. Questions or Comments… Thank You

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