2016 Treasure Valley, Idaho Digital Orthophotography Project Request for Qualifications/Proposal November 18, 2015 Updated December 8, 2015
2016 TREASURE VALLEY DIGITAL ORTHOPHOTOGRAPHY PROJECT
Section 1: Introduction ................................................................................................................................................. 3 RFQ/P Objectives ....................................................................................................................................................... 3 Packet Contents ......................................................................................................................................................... 3 Project Introduction and Description ........................................................................................................................ 3 Section 2: Submission Requirements ........................................................................................................................... 5 Proposal Submission Timeframe ............................................................................................................................... 5 Qualifications/Proposal Format ................................................................................................................................ 6 Introduction and Executive Summary .................................................................................................................... 6 Experience Profile .................................................................................................................................................. 6 Project Approach ................................................................................................................................................... 7 Project Schedule .................................................................................................................................................... 7 Sample Data .......................................................................................................................................................... 7 Statement of Acceptance ...................................................................................................................................... 7 Price Proposal ........................................................................................................................................................ 7 Section 3: Selection Process ......................................................................................................................................... 8 Selection Method ...................................................................................................................................................... 8 Selection Criteria ....................................................................................................................................................... 8 Section 4: Project Requirements .................................................................................................................................. 9 Desired Visible Features ............................................................................................................................................ 9 Description of Area .................................................................................................................................................... 9 Existing Data Format and Configuration ................................................................................................................. 10 Section 5: Project Specifications ................................................................................................................................. 10 Aerial Photography .................................................................................................................................................. 10 Digital Terrain Model ............................................................................................................................................... 12 Proofing of Photography ......................................................................................................................................... 12 Survey Control and Aerotriangulation..................................................................................................................... 13 Projection Information………………………………………………………………………………………………………………………………………13 Digital Orthophotography ....................................................................................................................................... 14 Figure 1 – Map of Project Area ................................................................................................................................ 16 Figure 2 - Map of Built Up Area ....................................................................................................................…….... 17 Section 6: Professional Service Agreement Example ................................................................................................. 18
2016 TREASURE VALLEY DIGITAL ORTHOPHOTOGRAPHY PROJECT
Section 1: Introduction Request for Qualifications and Proposal (RFQ/P) Objectives The objective of this RFQ/P is to define the project well enough to enable a qualified response to this request. • Section 1 introduces the RFQ/P, the project summary and the contents included. • Section 2 outlines what is expected to be included in each Respondent’s proposal. • Section 3 outlines the criteria to be used for selection of a successful Respondent. • Section 4 details how the information generated by this project will be used, and existing data currently used in the area. • Section 5 defines expectations about the work to be performed and the products to be delivered for this project. • Section 6 details contractual language that will be included in the contract with the successful Respondent to this project.
Packet Contents The contents of this RFP include: 1) Written instructions for submission requirements, the selection process, project requirements and specifications for the work to be done, public service agreement example showing contractual requirements, and map of project area. 2) Digital information as follows: a) OrthoArea2016.shp - A shape file of the project areas b) Ortho_2016_control.shp. - A shape file of the Public Land Survey System (PLSS Township/Range /Section grid for the project area. This also includes information on the resolution required for each section. Deliverables should be tiled relative to this grid system (See deliverables in Section 5) c) MetadataStandard.pdf – A document detailing the Metadata standards d) A sample of the digital terrain model (DTM) will be provided for review e) * New RuralUrbanAreas2013.shp - A shapefile detailing accuracy standards in the 2013 orthophotography project. NOTE: The existing DTM will be provided to the selected consultant on an external hard drive and returned to the Community Planning Association of Southwest Idaho (COMPASS) at project’s completion.
Project Introduction and Description COMPASS, a regional planning organization for Ada and Canyon Counties, Idaho, requests proposals for aerial photography services in support of both an update for ortho coverage obtained from previous COMPASS orthophotography projects and areas of new acquisition. DTMs exist for Ada County, and the city of Caldwell in Canyon County. COMPASS requests the creation of color orthophotos in 2016 including an update of existing DTMs and creation
2016 TREASURE VALLEY DIGITAL ORTHOPHOTOGRAPHY PROJECT and delivery of new DTMs where none exist. The final product could be delivered in as many as three (3) separate projections see below: (Section 5 will have more detail) • • •
UTM Zone 11N meters Transverse Mercator, Standard State Plane, NAD83 (US Survey feet) Transverse Mercator, Modified State Plane, NAD83 (US Survey feet)
Ada County contains six cities; Boise, Garden City, Eagle, Meridian, Kuna, and Star. It is home to nearly 438,660 people. The area of interest (AOI) for the flight in Ada County is approximately 754 square miles. Canyon County contains 8 cities; Caldwell, Greenleaf, Melba, Middleton, Nampa, Notus, Parma, and Wilder. The AOI of Canyon County is approximately 597 square miles and home to nearly 207,790 people. The project area for this RFQ/P is represented in Figure 1 on page 16. Please also see the attached schedule for this project: Generally, the scope of this project will be to produce true or natural color digital orthophotos at six inch (6”) pixel resolution, conforming to one inch equals one hundred feet (1” = 100’) all to ASPRS Class 1 accuracies for the entire project area. The project will also require the modification and update of the existing DTMs. COMPASS is also interested in other products and solutions your company offers. This could include options such as contours, LiDAR, or oblique imagery. This additional information is informational in nature and will not be used to score your response.
2016 TREASURE VALLEY DIGITAL ORTHOPHOTOGRAPHY PROJECT
Section 2: Submission Requirements Proposal Submission Timeframe The RFP/Q process schedule is anticipated to be as follows. COMPASS reserves the right to make changes to the schedule at its sole discretion. Respondents will be notified of schedule changes via the COMPASS website. RFP/Q released
Wednesday, November 18, 2015
Last day to submit questions; no questions will be accepted after this date. Responses posted to the COMPASS website within 2 full business days.
Wednesday, December 9, 2015, 3:00 pm Mountain Standard Time (MST)
Deadline for submittals Submittal review Consultant interviews, if necessary Notification of selected consultant Anticipated contract approval and notice to proceed date Anticipated date to begin flight
Wednesday December 16, 2015, 3:00 PM MST December 17, 2015 through January 15, 2016 January 11 – 13, 2016 Tuesday, January 19, 2016 Monday, February 8, 2016 Tuesday, March 1, 2016
The proposal shall be no more than 35 pages. Type should be no smaller than 11 point. The proposal will be organized and submitted in the following manner: Submission 1 – selection will be based on this information. Label it as “Submission 1, Project Approach” 1. 2. 3. 4. 5. 6.
Introduction and Executive Summary Experience Profile Project Approach Project Schedule Sample Data Statement of acceptance of contract terms from the example in Section 7
Submission 2 – This information will be used after selection is made. Label it as “Submission 2, Sealed Price Proposal/Cost Estimate” 1. Sealed Price Proposal/Cost Estimate
2016 TREASURE VALLEY DIGITAL ORTHOPHOTOGRAPHY PROJECT Please submit digital (PDF) versions of the proposal to: Megan Larsen
[email protected] Community Planning Association 700 NE 2nd Street, Suite 200 Meridian, ID 83642 Phone: (208) 855-2558 Fax: (208) 855-2559 Proposals must be submitted by Wednesday December 16, 2015, 3:00 PM Mountain Standard Time (MST) Once the submittals are opened and recorded as being on time and in the requested format, copies will be distributed to the ortho sub-committee with a scoring sheet. COMPASS reserves the right to make an award on the basis of the scoring of the proposals without negotiations, discussions or presentation. Note: Sealed price proposals will be kept confidential until after a consultant is selected based on qualification. Questions and communication regarding the project described in this RFP will be directed solely to Eric Adolfson via email at
[email protected]. Responses including the question will be communicated to all respondents via the COMPASS web site.
Qualifications/Proposal Format The proposal must include each of the following elements. Introduction and Executive Summary Please submit an introduction and abbreviated summary of the project as a whole. Experience Profile The experience profile should have the following components. • Company Experience Describe the unique qualifications and experiences of your firm, as well as any subcontractors. Highlight approaches and technologies you have used, and how they would apply to this project. Be sure to include details about specific projects, including the name of the client, a contact name and telephone number, and the approximate dates of the project. Please include all locations where work has been processed. •
Staff Experience Describe the experience of the staff who will be assigned to this project, including subcontractors’ staff. Highlight the number of years of experience, and any special considerations, such as licensing or certifications held.
2016 TREASURE VALLEY DIGITAL ORTHOPHOTOGRAPHY PROJECT •
References Provide a list of three (3) references who can be contacted to verify experience of the firm(s) and staff who will be assigned to this project.
Project Approach Please define in detail the approach your firm recommends for completing this project as outlined in this document. Highlight any special ideas, techniques, changes, or innovations which would improve the quality of the products, reduce the resources needed to complete the project, and/or would positively impact the time frame necessary to complete this project. Specifically address the items outlined in each part of Section 5. Include an equipment and capabilities section in the project approach that details the equipment, software, and other capabilities that your firm or your subcontractors anticipate using on this project. Highlight the benefit of using this equipment, software, or other capabilities on this project. Include your QA /QC plan or steps in the project approach. Details should be provided for checking work at all production steps. Project Schedule Outline the proposed project schedule. Highlight any milestones, and describe times that are critical to the success of the project. Provide details on delivery method and proposed timelines. Sample Data In your proposal, submit a sample of digital orthophotography that your firm has produced for other clients, which is similar in quality and resolution to what you anticipate being produced for this project. Statement of Acceptance Confirm your willingness to accept the terms of the contract. A sample contract is in section 6. Price Proposal Enclose your project cost in a separate email to be opened after the evaluation of all proposals and a consultant has been selected based on qualification. Include as much detail or cost breakdown as necessary to effectively communicate your proposal. NOTE: This project is contingent upon appropriation of funding at the time of signing the contract. COMPASS reserves the right to cancel the project should funding not be appropriated.
2016 TREASURE VALLEY DIGITAL ORTHOPHOTOGRAPHY PROJECT
Section 3: Selection Process Selection Method Proposals will be rated by a selection committee made up of COMPASS member agencies that will use the products resulting from the project.
Selection Criteria The work will be awarded based on the criteria listed below. The right is reserved to reject any and all submittals not conforming to the intent and purpose of this request for proposal, whenever such action appears to be in the best interest of COMPASS. 1.
Experience of the firm with similar projects (20%) • Experience working with county and city governments • Experience developing orthophotography for high resolution mapping projects • Experience developing orthophotography using airborne GPS
2.
Experience of personnel assigned to the project (20%) • Experience in photogrammetry projects, including any photogrammetrists involved in the project • Experience densifying control using analytical aerotriangulation models • Experience in modifying existing DTM’s to produce quality orthophotography
3.
Number, location, and availability of qualified personnel and equipment (25%) • Ability to deploy surveying personnel to complete the flight time required for this project • Ability to deploy equipment and personnel to complete the aerial photography in the desired manner and time frame • Ability to keep the same personnel and equipment available on each phase and step of the project for the duration of the project
4.
Project Approach (25%) • Ability to demonstrate how the project approach will meet or exceed the goals of this project • Innovative approaches to minimize cost while retaining the highest product quality • Ability/plan to keep clients involved and informed of project progress and decision points • QA /QC plans and procedures; both in-house and planned methodology for client QC review
5.
Delivery Approach (10%) • Method and schedule of deliverables
2016 TREASURE VALLEY DIGITAL ORTHOPHOTOGRAPHY PROJECT
Section 4: Project Requirements Information provided in this section is intended to help the Respondent understand the existing data environment and conditions available in the project area. Generally, the products developed for this project will be used by a variety of government organizations for land records, planning, emergency services, and engineering activities.
Desired Visible Features The following are the nominal features that should be identifiable on the photography. This list is provided for the Respondent to understand the types of uses of the digital orthophotography and to determine the quality and resolution of the photography needed to meet the objectives of this project: 1. 2. 3. 4. 5. 6. 7. 8. 9. 10.
Edges of pavement, or edges of road surface Water features, such as rivers, canals, ditches, reservoirs, lakes, and ponds Buildings and other structures, suitable for determining land use Curb and gutters in urban areas, road shoulders in rural areas Fences and walls Concrete and asphalt sidewalks and driveways Striping in roads and on parking lots where the striping is in reasonably good condition Trees, shrubs, and bushes, and other landscaping Utility poles, transformers Manholes with concrete collars on asphalt streets
Area Descriptions: Overall Area The project area is shown on Figure 1 With the exception of a few Boise River “benches” and the foothills in the north and northeast portions, elevation changes are gradual in Ada County. Canyon County is also gradual in elevation with some changes near the Snake River to the south and some foothills in the north. Most development is occurring in northern Ada County and central/eastern Canyon County. The rural areas are typically agricultural or sagebrush. We do not expect much development in the immediate future in those areas. Downtown Boise Area The area of Downtown Boise has been an area of focus on past flights regarding building lean. Please describe your plan to reduce building lean in this area and in the overall project.
2016 TREASURE VALLEY DIGITAL ORTHOPHOTOGRAPHY PROJECT The boundary of these areas are designated on Figure 2
Existing Data Format and Configuration The COMPASS jurisdiction of Ada and Canyon counties have an existing GIS base map with orthophotography being a key component of that base map. The existing DTM for Ada County is divided into approximately 613 square mile sections. It was first created as part of the 2000 project and updated for the 2003, 2007, 2010, and 2013 projects. The existing DTM for Caldwell includes approximately 105 sections from the 2013 flight. The existing DTMs are in a CAD format and were produced to support the same resolution and level of accuracy as this 2016 project. Projections: Both counties use US survey feet as the unit of measurement tiled by PLSS of Township/ Range/Section. Canyon County uses a standard NAD83 Idaho State Plane West Coordinate System in their GIS base map. Ada County uses a modified NAD83 Idaho State Plane West Coordinate System. The modified coordinate system is based upon a mean datum elevation of 2,700 feet above sea level. Details of the Ada County control network are available from the County Surveyor’s home page at http://www.adaweb.net/DevelopmentServices/SurveyingDivision.aspx Other participants include agencies that use data in the UTM projection, NAD83, Zone 11N, meters (see section 5 page 14) for more detail)
Section 5: Project Specifications The following outlines specifications and deliverables for each step of this project. Digital project information will be delivered on an external hard drive. It should be noted that there are three different projections to be delivered with this project. (See pages 13 and 14 for details) Written reports or documentation will be submitted in Microsoft Word, Excel, or Access. Metadata will be delivered in the Metadata Standard, .xml format.
Aerial Photography Specifications This project will be digital. Prior to the flight, a flight plan will be submitted to COMPASS for review and acceptance. True color photography is required for the entire project area. The flight should be flown in the late March/early April time frame to obtain leaf-off imagery and minimize shadowing.
2016 TREASURE VALLEY DIGITAL ORTHOPHOTOGRAPHY PROJECT
All photography will be flown with a minimum end lap of 60% (+/- 5%) and a minimum side lap of 30% (+/- 5%). Crab will not exceed three degrees for project photos with an average tilt over the entire project not to exceed one degree. Sun angle should be a minimum of 30 degrees and during cloud free, clear conditions. The ground should also be clear of snow or flooding during the time of the flight. Photo coverage will be sectioncentered, single exposure. All photography should be inspected by the consultant to insure re-flights are not necessary. If re-flights are necessary, they will be performed as needed at no additional cost to COMPASS as soon as possible and coordinated with COMPASS to insure conditions are acceptable. Camera(s) should have the following: • A radiometric sampling resolution of at least 12 bits/pixel per band/channel. • A manufacturer calibration certificate provided in a pdf format as part of the consultant submittal. • A minimum cross-track resolution of 10,000 pixels. The cameras shall output imagery directly to a digital medium in flight. • Be responsive to light wave covering a minimum range of 400-700nm. • The cameras used shall provide a means by which the operator can monitor image exposure during collection, and make appropriate exposure adjustments to maximize the amount of usable imagery content. • Cameras should be equipped with a forward motion compensating device, high resolution, distortion free lens, and Inertial Measurement Unit (IMU) technology. • Cameras should be equipped with Airborne Global Positioning System (ABGPS). • Camera focal length(s) should be defined in the project approach and should be such as to minimize building lean. • Flight planning design should put an emphasis on reducing building lean in Built-up Urban Areas (BUAs) designated by the project (see figure 2). The selected Respondent will be required to notify COMPASS with the times they have people on the ground in the project area, and when they are actually flying to enable the project participants to be informed of progress. COMPASS will also be immediately notified of any deviation from the project parameters or unusual occurrences during image acquisition and processing. Project Approach In the project approach, the Respondent should discuss the camera(s) and accessory equipment to be used, and the airplane(s). The firm’s aerial photography procedures should be discussed. Flight planning design such as camera system details, details on stereoscopic coverage, forward and side lap specification, flying height specification, and how line breaks within a flight line are handled, should be discussed. The project approach should address recommended changes in the boundary and other scope changes where such a change will positively impact the overall cost of the project. The detailed discussion should include the reason for the methodology of each step. QA /QC procedures and technology used in association with the aerial photography should be detailed.
2016 TREASURE VALLEY DIGITAL ORTHOPHOTOGRAPHY PROJECT Deliverables – Required 1. A calibration report on the camera 2. Metadata detailing all the final equipment and materials used for the flight, and a listing of the materials collected as part of this step. This report should also detail all pertinent procedures and technical specifications used in the completion of this step.
Digital Terrain Model Specifications The DTM used to generate the orthophotography is a deliverable product of this project. The existing DTM(s) will be provided to the consultant for use with the project. Changes to the DTM affecting the accuracy of the orthophoto generation must be performed by the consultant within the scope of this contract. Orthophotography will be expected to meet a horizontal accuracy of no greater than 2.0’ for the urban area with 95% of all pixels falling within 1.5’ of their true location. Visibly distorted linear features such as roads, railroads, highway overpasses, curb lines, parking lots, canals and drainage ditches will result in data set rejection and the requirement to fix the distorted feature within the orthophotography. Project Approach The project approach should define the procedures and equipment anticipated to be used to produce the DTMs. Please address the following components: • Methodology to review existing DTM • Methodology to update existing DTM • Production methodology for new DTM • Quality control methodology for confirming accuracy of DTM Deliverables – Required 1. Updated DTM delivered in a CAD file format, at the appropriate accuracy for the project. 2. A written report and metadata listing the practices and procedures used to produce the DTM, including QA/QC steps.
Proofing of Photography Specifications The Respondent will provide a reasonable and enforceable QC plan with their submittal. This plan will also include how the vendor will approach initial image colorimetry. The plan will be enforced during project execution with status reports provided to COMPASS on a biweekly basis. Respondent should provide five images per Township/Range, or per thirty-six (36) square miles. A mechanism should be developed to allow COMPASS to easily identify the ground location of these images. The purpose is to test the production process and establish the color and quality parameters. Project Approach The project approach should identify a mechanism for COMPASS to QA/QC and accept the raw aerial photography. Respondent should outline a suggested folder/file organization and naming scheme for review.
2016 TREASURE VALLEY DIGITAL ORTHOPHOTOGRAPHY PROJECT Deliverables – Required 1. Provide whatever materials are outlined in the project approach to provide a mechanism to COMPASS to QA/QC the quality of the photography.
Survey Control Aerotriangulation Specifications Map control will be of sufficient quality to support project wide mapping meeting ASPRS Class I accuracy standards for mapping at 1” = 100’ in urban areas and rural must be at least 1” = 200’ in rural areas but 1” = 100’ would be preferable. The coverage area of the 2013 flight had ASPRS Class 1 accuracy standards at 1” = 100’ in urban areas and 1” = 200’ in the rural areas. Spot checks will be done for data accuracy using survey grade GPS and existing data sets. Failure to meet required accuracy standards may result in data set rejection and redelivery of the data set to meet project accuracy specifications. Final accuracy standards for non-developed areas can be determined as part of contract negotiation. Ground control shall be established with survey grade instrumentation under the direct supervision of a professional surveyor licensed in the State of Idaho. The project will be delivered in the following coordinate systems. Ada County coordinate system: Idaho State Plane, West Zone, NAD 83 (HARN 1992) with a scaling factor of 1.000132793 applied to the state plane Northings and Eastings. NAVD 88, US survey feet, Geoid 99/03 conversion from ellipsoid to orthometric elevations. Abbreviation: Remarks: Ada County Projection Defined: Angular Unit: Degree Projection: Transverse_Mercator (0.017453292519943299) Parameters: Prime Meridian: Greenwich False_Easting: 2625138.996431 (0.000000000000000000) False_Northing: 0.000000 Datum: D_North_American_1983 Central_Meridian: -115.750000 Spheroid: GRS_1980 Scale_Factor: 1.000113 Semimajor Axis: Latitude_Of_Origin: 41.666667 6378137.000000000000000000 Linear Unit: Foot_US (0.304801) Semiminor Axis: Geographic Coordinate System: 6356752.314140356100000000 Name: GCS_North_American_1983 Inverse Flattening: 298.257222101000020000 Alias: Selected consultant will be required to coordinate GPS control survey with the Ada County Surveyor. Canyon County coordinate system: Idaho State Plane, West Zone, NAD 83 (HARN 1992) NAVD 88, US Survey Feet,
2016 TREASURE VALLEY DIGITAL ORTHOPHOTOGRAPHY PROJECT
Optional Projection – One participant may opt to use a UTM projection. UTM:
Native UTM Zone NAD83 Meters UTM Zone 11N Meters: Projection: Transverse_Mercator False_Easting: 500000.000000 False_Northing: 0.000000 Central_Meridian: -117.000000 Scale_Factor: 0.999600 Latitude_Of_Origin: 0.000000 Linear Unit: Meter (1.000000) Geographic Coordinate System: GCS_North_American_1983
Angular Unit: Degree (0.017453292519943299) Prime Meridian: Greenwich (0.000000000000000000) Datum: D_North_American_1983 Spheroid: GRS_1980 Semimajor Axis: 6378137.000000000000000000 Semiminor Axis: 6356752.314140356100000000 Inverse Flattening: 298.257222101000020000
Project Approach The Respondent needs to address the necessary ground control and how the control will be densified by analytical aerotriangulation. Procedures and equipment used to perform airborne GPS should be addressed, including a discussion of QA /QC steps taken to ensure an accurate survey control network. Deliverables – Required 1. A written report (or metadata) and digital version of the results of the analytical aerotriangulation model. This report should also outline the steps performed during the analysis and include any problems identified, and solutions presented. 2. A written report (or metadata) and digital file detailing the ground control coordinates used, along with a description of the locations used. 3. A written report (or metadata) and digital file detailing coordinates captured from the airborne GPS survey.
Digital Orthophotography Specifications Color orthophotography will be provided at a map scale of 1” = 100’ with a pixel resolution of 0.5’. Orthophotography will be generated from stereo photography with image seam lines not going through any above ground features such as buildings, water tanks, bridges, and transmission towers. There should be no “ghosting” or distortion of building, bridges, overpasses, etc. Bridges and overpasses must be viewable in true perspective, and should not contain bends, breaks, or discontinuities typical of above ground features. Seamline polygons will be delivered to assist COMPASS with QA/QC. Project orthophotography should be color balanced and cleaned prior to delivery. A project wide image mosaic should present a one-image type appearance. Imagery should be edited for artifacts resulting from dust or related type causes.
2016 TREASURE VALLEY DIGITAL ORTHOPHOTOGRAPHY PROJECT Orthophotography is required to be delivered in both a compressed and uncompressed format with individual tiles provided in a TIF/TFW format as well as a SID/SDW format. A project-wide image mosaic will be provided in a SID/SDW format. Compressed images should be delivered using a 20:1 compression and have selective decompression capabilities. TIF’s will be provided in “raw” format (i.e. not geo-tifs that contain headers). The final images should be tiled relative to the PLSS township/range/section grid (see bicontrol.shp) and maximum file sizes should be of a size that align with industry standard practice. In the past that has meant less than 400MB each. Project Approach The project approach should outline anticipated procedures and equipment to be used in the ortho rectification and production process, including QA /QC steps. Deliverables – Required 1) Uncompressed images in TIF/TFW format, tiled by relative section. Uncompressed images should be raw TIF files not Geo-Tiffs that contain header information. Projections as follows: a) Ada Projection – whole project area b) Canyon Projection – Canyon county area with a 2 mile overlap of Ada 2) Compressed images in SID/SDW format Mosaic’d with a 20:1 compression. Projections as follows: a) Ada Projection – whole project area, can be divided on county lines. b) Canyon Projection –Canyon County with a 2 mile overlap of Ada. 3) The DTM used for development of the orthophotographs, and any further spot elevations that are captured for ortho rectification. 4) An FGDC compliant report (or metadata) outlining ortho rectification and production steps and specifications, including QA /QC steps. Deliverables – Optional * please line out additional costs in separate costs email* 1) UTM Projection - images in TIF/TFW format a. Option 1: Ada county area b. Option 2: whole project area The final orthophoto data delivery will be provided on an external USB 2.0 hard drive. The hard drive will not be returned to the consultant.
2016 TREASURE VALLEY DIGITAL ORTHOPHOTOGRAPHY PROJECT Figure 1
Map of Project Area
2016 TREASURE VALLEY DIGITAL ORTHOPHOTOGRAPHY PROJECT
Figure 2
Map of Downtown BUA
2016 TREASURE VALLEY DIGITAL ORTHOPHOTOGRAPHY PROJECT
Section 6: Professional Service Agreement Example
