Asset Management and Sewer Engineering Using GIS Integrated with Document Management in San Francisco

Asset Management and Sewer Engineering Using GIS Integrated with Document Management in San Francisco Greg Braswell - City & County of San Francisco, Bureau of Engineering • Bijoy Nair - ValueCAD

Asset Management andSewer Basemap Project Report • Outline • Background/History of Sewer Mapping/Engineering in San Francisco • Data Requirements, Problems and Solutions • As-Built Viewer • Conversion Methods and Processes • Current Status and Future Plans City & County of San Francisco BOE - ValueCAD

SF Public Utilities Commision Owns and Operates the Water Distribution Network And San Francisco’s Sewer System

CCSF DPW Bureau Of Engineering Hydraulics Section Responsible for maintaining information about City of San Francisco Sewer System

“900” miles of sewer • Combined system • Started in 1850’s • Approx 15% older then 100 years • Many large, complicated structures that have been modified many tims • Many Non-typical connections History of SF Sewers

History of Sewer Mapping • Typical Paper Mapping System • All Information Lost in 1906 Fire • 1909-1934 Inspection Books • 1934-1940 WPA effort • Section Maps • Map Books (Atlas) • Different versions with different Man Hole Numbers • 1989 Earthquake • First Electronic Version • 14 separate ACAD files • 1994 Sink Hole • Field data collection and corrected approx 200 blocks • North Beach Area • Marked on aerial photos

Section Maps of City 5x8 Index Cards Organized by Street City of San Francisco Engineering Drawings on Aperature Cards Street Inspection Reports, on Aperature Cards and paper Many different types of additional Drawings on paper To Access Sewer Information Hydraulics Section Has Used :

City Wide Basemap by ValueCAD • Creation of CCSF Basemap (1993-5) • Aerial Photos • Parcels • Features • Street Centerlines • Major portion of funding from Clean Water Program

ValueCAD’s First Sewer Basemap Efforts • Updating Sewer Basemap (1998-Present) • Combine previous ACAD files • Reference to City Basemap • (NAD83CaStPlIII) • Rubbersheet to correct location • Add attributes in object data to pipes from annotation • Renumber Manholes • Processes automated to reduce cost

Decision Time • Sewer Basemap Obviously Lacked a large number of manholes – “Schematic map” not useful for asset mgmt. • Basic attributes incomplete or outdated • Material – Size - Date • No Hydraulic modeling information • Rim • Invert • Investigate GPS – Survey • $$$$$$$$$$$ • Pipes the priority • AsBuilts? • 50 engineeering Drawings tested • $$$$$

On Site Investigation • Contractor to sit and work with Hydraulic Staff to: • Evaluate alternatives for sewer basemap data collection and conversion • Work with city staff, evaluate processes and business needs • Document Management • Not as easy as city staff thought • Engineering AsBuilts represent less then 15% of possible data • Wide variety of document types with different data value • Evaluate Variety of Needs • Engineers view Vs. Citywide view • Develop Possible Uses and Prototypes • Set Goals and Standards for GIS efforts • “Balkanized” City Departments

Goals for Sewer GIS Basemap Project Cost effectiveness – relative return on investment • Document Management $$ • Engineering Decision Support $$$ • Provide engineers with efficient access to all available information, not replace good engineering… METADATA – engineer understands the value and completeness of the information to make the best engineering decisions • Hydraulic Modeling – Master Planning $$ • Asset Management - $$$$$$ • Public decision making • Cost effectiveness of engineering and maintenance decision • Management of maintenance efforts • Integrate Asset Management with Engineering Process $ • Information Organized in one place for various agencies $$ • Emergency Response/ Environmental/ Waste Management

Goals for Data Collection and Conversion • Efficiency • Speed • Accuracy • Multiple Uses of Data Collected • Sustainable Pace and Budget • “Do-able” – Reasonable Expectations • Exception Process • Flexible

For Sewer GIS Project All Sewer related drawings have been collected and Scanned Drawings Were Indexed by Street New sewer GIS map and sewer information have been developed block by block using the original drawings. Pipes, manholes and structure information collected have been automatically linked to as built drawings or best available documents.

To Access the Scanned Drawings Hydraulics Developed and is Using the As Built Viewer

Hydraulics Has Been Able to Link To the Index Cards • Index Cards had been transferred to Excel Spreadsheet called SMS Index • SMS Index turned into Access Database table and cleaned up • Drawings that the SMS Index referenced were picked first to be scanned • Links made between scanned drawings and SMS Index • Links made between SMS and Centerline file • Spatial Join between Streets and Pipes to put SMS information onto pipes So Now We can Look Up Pipe Information and drawings by Street

1.Select a point on the Image 2. Select corresponding point in AutoCAD 3. Select 2nd point on image 4. Select 2nd point in ACAD We can use the Viewer to Insert the Drawings Into AutoCAD

Indexing By Street Allows Finding Files By Location • Enter Street and Cross Streets Get List of Files for Those Blocks

All Files Are Linked To CCSF BasemapStreet Centerline network • Linked To Blocks and Intersections By “CNN” • Allows look up for cross street

ValueCAD Data Conversion Process • Divide into subsections based on Drainage basins • Use asbuilt viewer to select correct document • Enter correct location of pipes and manholes • Add pipe and manholes if required • Enter additional attribute data • Automatic link of data collected to documents • Exception Handling to increase efficiency and accuracy • Automated using AutoCAD vba

Current Efforts and Future Directions – Spring-Summer 2003 • QA/QC • Large Pipes and Structures • Automated QA/QC • Exceptions • Automation of CAD to integrate Engineering Design and Maintenance of Asset Management Database - Oracle • Integrate with Sewer TV Tape, Inspections, Asset Management • Major Structures – East Side • Web based applications

Current Efforts and Future Directions Spring-Summer 2003 • Catch Basins – ArcPad • Storm Water Discharge Permits • Integrate AWSS

Bureau Of Engineering CCSF DPW Hydraulics Section Thank You

Asset Management and Sewer Engineering Using GIS Integrated with Document Management in San Francisco

Asset Management and Sewer Engineering Using GIS Integrated with Document Management in San Francisco

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