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Data – Electric Corridor Mapping


In order to meet the multifaceted challenge of providing a safe, reliable energy supply servicing markets with constantly growing demands, it is critical for utility companies to maintain existing infrastructure today while looking ahead and planning for new power line corridors to meet future growth. This requires accurate and timely surveys of current infrastructure and assets as well as surveys for deployment of future infrastructure
LiDAR (Light Detection and Ranging) is technology developed for creating highly accurate, three-dimensional surveys of terrain, vegetation and electric utility infrastructure. Close-range LiDAR data is classified as having the sensor positioned at distances ranging from 500′ to 1,500′ from the features to be acquired. The acquisition for modeling can be accomplished from the air or ground. Close-range aerial LiDAR is typically collected from a helicopter platform and can yield x,y,z point densities of 25 to 40 per square meter. Static terrestrial scanners and kinematic mobile mapping systems collect the LiDAR data and image data from ground perspectives at densities ranging from 500 to 2000 points per square meter. These LiDAR collection technologies can be deployed independently, or in tandem for effective electric transmission corridor mapping.


Sanborn utilizes the latest LiDAR data acquisition technology for modeling overhead lines, structures, terrain and vegetation features. The features will be extracted from the point clouds so electric engineers can model and calculate line ratings, element sag and tension using the surveyed conductor positions. Three-dimensional engineering models will be constructed from actual field “as built” surveys that precisely map the relationship between all of the natural and manmade utility ROW features. In addition, various weather combinations including wind, barometric pressure and temperature will be captured during the 


mission to support the building of PLS-CADD™ Method 1 models for analysis including:

Stringing and graphically sagging the wire to match the surveyed wire points at its rated temperature

Survey Point Clearance reports for each circuit or line segment.
Perform engineering analysis and calculations including:

  • Maximum operating temperature for each circuit
  • Circuit summary on a span-by-span basis
  • Minimum clearance to terrain surface
  • Survey point clearance reports, wire blowout, insulator swings, maximum sag condition


The North American Reliability Corporation (NERC) released an industry alert stating “possible discrepancies between the design and the actual field conditions of transmission facilities as a potential reliability issue that needs prompt industry attention.” The alert recommends that entities review their current facilities rating methodology to verify that the methodology is based on actual field conditions, rather than solely on design documents, and take corrective action if necessary.

(The North American Electric Reliability Corporation (NERC) is charged with development / enforcement of reliability standards to ensure uninterrupted operation of the power system in North America. NERC is managed by the U.S. Federal Energy Regulatory Commission (FERC) and equivalent authorities in Canada.)

Sanborn can extract parts and other attributes from an existing company ODBC compliant database and link the tabular information to the mapping graphics for use in PLS-CADD or a GIS system. The database attributes are linked to the points and lines collected from the LiDAR to build a comprehensive inventory of structures and assets of the entire utility infrastructure. When merged with various state and local tax boundaries, a simple overlay analysis can determine the exact assets for each taxing jurisdiction so local tax records can be reconciled to save millions of dollars in annual tax expenses.
NERC promotes accurate measurements, including LiDAR, as a means to enhance the understanding of the technology, methods and techniques available to industry. The use of Close-Range LiDAR and high resolution orthophoto and oblique imagery will provide actual as-built field conditions for evaluating facility ratings. The 3D modeling and analysis will identify the full extent of field discrepancies that could impact facility ratings. By doing so, utilities can prioritize corrective actions based on operational and reliability significance. The corrective action plan will enable the utility to systematically maintain the reliability of the bulk power system.
Increased demand for electricity and an emphasis on alternate forms of “green” power generation have placed a demand on the existing grid that requires utilities to expand or redesign current generation, transmission and distribution capabilities. Sanborn can provide medium and long range LiDAR datasets from a fixed wing aircraft that enables engineers to tie into existing infrastructure, while capturing the proposed new route for design and construction. For critical design areas, terrestrial static or mobile mapping can provide the detail required for power generation facilities, sub-stations and distribution lines.
LiDAR and Imagery can provide data to support the Transmission Vegetation Management Program to reduce vegetation related outages due to encroachments and wind or “blow-out” dangers. In addition to standard vegetation clearance reports, Sanborn can incorporate sophisticated predictive analysis capabilities developed for the forestry and wildfire hazard modeling programs. This decision support system will provide a proactive means of managing vegetation within utility ROWs.


1110 Camino Del Mar
Del Mar CA 92014

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