Maps Across Texas

2,305 views

Published on

Presentation from 2009 Texas GIS Forum

Published in: Technology, Business
0 Comments
1 Like
Statistics
Notes
  • Be the first to comment

No Downloads
Views
Total views
2,305
On SlideShare
0
From Embeds
0
Number of Embeds
90
Actions
Shares
0
Downloads
26
Comments
0
Likes
1
Embeds 0
No embeds

No notes for slide
  • Introduction to High Priority Imagery and Data Sets Purchasing – Assessing current needs and priorities across the State
  • This is a first time event – introducing a new purchasing method for the state, a pool of pre-qualified and selected vendors, a high level overview of current data priority inputs………..Agenda Overview
  • Combineation of changes to state purchasing and changes to TGIC.- Lots of opportunity to rewire how we develop strategies, collaborate, and integrate
  • Jim
  • JimIf a state agencyContract WaiverIf statement of work exists
  • JimS
  • Felicia
  • Felicia
  • Poll audience to write down other data sets that should be considered
  • Felicia
  • JimS70% of interest in resolution between 6 inch and 2 feetState will continue to support +/- 1 meterState evaluating benefit of recent ½ meter dataNeed further input regarding formats and band combinations
  • Jim
  • Gayla – NAIP Project OverviewAt issue is future participation of State Government in FSA NAIP and assessment of opportunity to coordinate with regional and municipal programsA typical reality is that many large projects are dominated by one large contributor – TxDOT, HCFCD othersWhat is the desire vs reality of sharing data
  • JimState is engaged in long term LiDAR collection for NFIP Mapping ProgramState does not pay for contour developmentContours are subject to a range of quality and cost factors that are also associated with uniqueness of local terrain conditions – steep vs coastal plain etc.A Statement of Work exists for aerial LiDAR
  • Jim
  • FeliciaThis slide shows that there is no strong preference for one addressing method that is favored over another – It appears that there is a universal desire to have something in place – - There is a large number of State Agencies seeking statewide addressing data.
  • Felicia
  • Action items Transportation initiative work groupSet up Use the contract!Issues – How to get CSEC play by the rules911
  • Felicia
  • Action items Map layer initiative work group Use the contract!
  • Action items Map layer initiative work group Use the contract!
  • Action items Map layer initiative work group Use the contract!
  • Open mic session
  • Maps Across Texas

    1. 1. Maps Across Texas<br />
    2. 2. Welcome and Program Introduction<br />
    3. 3. <ul><li> What is possible?
    4. 4. What should you expect to take away?
    5. 5. What can we ask and expect from you?</li></li></ul><li><ul><li> Responding to Change
    6. 6. Recognize role and value of GIS in the state
    7. 7. Delivering greater (tax payer) value and adopting a process for coordination and sharing
    8. 8. How we develop strategies, collaborate, and integrate</li></li></ul><li>
    9. 9. <ul><li> CCG – Measures of success
    10. 10. Participation and savings to the state
    11. 11. Efficiency and transparency
    12. 12. “Thinking in terms of what is best for Texas”
    13. 13. Expectations
    14. 14. Challenging silo or hyper-local thinking</li></li></ul><li>
    15. 15. <ul><li> Community – the key ingredient
    16. 16. Collaboration – plans, requirements, ideas
    17. 17. Involvement and decision making
    18. 18. TGIC advisory committees
    19. 19. Local representation
    20. 20. Federal representation</li></li></ul><li><ul><li> Planning
    21. 21. Policies
    22. 22. Survey
    23. 23. Feedback
    24. 24. Statements of Work & Projects
    25. 25. Role of TNRIS and the TWDB</li></li></ul><li>Notification – Project Sponsor notifies TNRIS of intent to use contract<br />Determination of Applicability – TWDB/TNRIS reviews project for coordination benefits<br />Conditions of Use<br />Public Domain version of data<br />
    26. 26. <ul><li> Pool of qualified providers
    27. 27. Purchasers reference CCG Master Contract
    28. 28. Increased opportunity for partnership funding
    29. 29. Awareness of previous, current and planned projects
    30. 30. Statement of Work serves as State Standard
    31. 31. Direct purchase with provider</li></li></ul><li>VendorLightning Talks<br />
    32. 32. 2008/09 Texas Ortho Program<br /><ul><li> 2008 Texas NAIP award to North West
    33. 33. TNRIS brought multiple state agencies together to enhance NAIP collection to 50cm
    34. 34. Acquisition with 5 ADS40-SH52 sensors
    35. 35. Multiple products, specs to multiple clients</li></ul>Summer 2008<br />Winter 2009<br />North West Geomatics Ltd.<br /><ul><li> 4 – Cessna 441 Conquest II
    36. 36. 1 – REIMS 406
    37. 37. 4 – Leica ADS80-SH80
    38. 38. 1 – Leica ALS50-II</li></li></ul><li>Merrick & Company<br /><ul><li>World Headquarters: Aurora, Colorado
    39. 39. Founded in 1955
    40. 40. Primary GeoSpatial Services:
    41. 41. LiDAR
    42. 42. Surveying
    43. 43. Aerial Photography
    44. 44. Photogrammetry
    45. 45. Hyperspectral
    46. 46. GIS Solutions
    47. 47. Satellite Imagery
    48. 48. MARS@ Software
    49. 49. Remote Sensing
    50. 50. 500 employees within 10 national and international offices
    51. 51. Annual revenue = $85M
    52. 52. Ownership: Private (employee-owned)</li></li></ul><li>Projects in Texas<br />Completed Projects Since 2000<br />Houston-Galveston Area Council<br />Montgomery County<br />Fort Bend County<br />Brownsville<br />Texas-Mexico Border<br />Texarkana<br />MIT Lincoln Labs – City of Lubbock<br />Fort Bliss<br />Texas Coastline<br />Coleto Creek Power Plant, TX<br />
    53. 53. “LYNX” Mobile Laser Scanning<br />A mobile mapping solution that incorporates LiDAR, cameras, and position / navigation (GPS & Inertial Measurement Unit – IMU)<br />LYNX Mobile Mapping<br /><ul><li> LiDAR sensors: 2
    54. 54. Cameras: currently 2 5-mega pixel, integrating 2 additional 5-mega pixel
    55. 55. Scanner field of view: 360 degrees
    56. 56. Laser measurement rate per sensor: 200,000 kHz programmable (point density along a single line of data)
    57. 57. Scan frequency per sensor: 80 to 200 Hz programmable
    58. 58. (line to line density along the x-axis)
    59. 59. Measurements per laser pulse: Up to 4 simultaneous
    60. 60. Maximum Range per sensor: 600’ @ 20% reflectivity
    61. 61. Laser pulse width: @ 300’ 0.82’ @ 600 feet 0.164’
    62. 62. Range precision (relative accuracy within scan data): 0.023’
    63. 63. Absolute accuracy: 0.164’</li></ul> Assumes good GPS quality<br /> Accuracy maybe improved via post-processing techniques<br /><ul><li> Laser classification: IEC/CDRH Class 1 eye-safe</li></ul>Mobile Mapping<br />Surveying And Mapping, Inc.<br />5508 West Highway 290, Building B<br />Austin, Texas 78735<br />www.saminc.biz<br />800-656-9525<br />
    64. 64. Focused On Your World<br />Professional Land Surveying<br />Our professional team provides a complete suite of Land Surveying services, including:<br />Professional Land Surveying and Aerial Mapping<br /><ul><li>Boundary Surveys
    65. 65. Land Title Surveys
    66. 66. Right-of-Way Mapping
    67. 67. Route Surveys
    68. 68. Topographic Surveys
    69. 69. Design Surveys
    70. 70. Hydrographic Surveys
    71. 71. Photogrammetric Ground Control
    72. 72. As-Built Surveys
    73. 73. HDS Laser Scanning
    74. 74. Land Development Services
    75. 75. GPS Surveying</li></ul>Aerial Mapping & LiDAR<br />Our fully digital Photogrammetric Department offers the following services:<br /><ul><li>Aerial Triangulation
    76. 76. Digital Orthophotography
    77. 77. Planimetric & Topographic Mapping
    78. 78. Digital Terrain/ Elevation Modeling (DTM/DEM)
    79. 79. LiDAR Acquisition & Processing
    80. 80. Ground Control
    81. 81. Digital & Conventional Image Acquisition
    82. 82. Flight Planning and Execution
    83. 83. Airborne GPS & ABGPS/IMU Controlled Photography
    84. 84. Image Scanning</li></ul>Surveying And Mapping, Inc.<br />5508 West Highway 290, Building B<br />Austin, Texas 78735<br />www.saminc.biz<br />800-656-9525<br />
    85. 85. Dewberry Company Information<br /><ul><li> Established in 1956
    86. 86. Headquarters in Fairfax, VA
    87. 87. Multi-disciplined A/E
    88. 88. 1,955 Professionals
    89. 89. 40 Locations including Dallas &</li></ul> Denton<br /><ul><li> 235 Geospatial Professionals
    90. 90. 2009 ESRI Business Partner of the Year</li></li></ul><li>Geographic Information Systems<br />Remote Sensing/LiDAR<br />Acquisition, Processing <br />QA/QC<br />Program Management<br />Application Development<br />Data Integration<br />Floodplain Mapping<br />Imagery Services<br />Facility Management<br />Climate Change<br />
    91. 91. Michael Baker, Jr. Inc.<br /><ul><li> Austin
    92. 92. Houston
    93. 93. Arlington
    94. 94. Dallas
    95. 95. San Antonio
    96. 96. Denton</li></ul>1943<br />5,000 Employees<br />400 GIS Professionals<br />
    97. 97. Michael Baker, Jr. Inc.<br />New York Sewer Mapping<br />Largest Municipal GIS Project in USA<br />ChangingLand.Com<br />Maintaining centerlines, addressing and parcel information for the states of Nevada and California<br />FEMA Primary GIS Consultant<br />Emergency Response and National Mapping<br />BEAST<br />Bakers Enterprise Application Server Technology<br />Terrestrial LiDAR <br />Collection and Processing<br />Using the latest LYNX System from Optech<br />400,000 points/second, incredible accuracy.<br />
    98. 98. <ul><li>First LiDAR company headquartered in Texas – founded in 1998
    99. 99. Proprietary LiDAR technology, first developed at HARC (Houston Advanced Research Council)
    100. 100. 20+ years of airborne and digital mapping/surveying experience; dozens of projects in Texas covering thousands of square miles including data for Houston-Galveston Area Council (HGAC) and Tropical Storm Allison Recovery Project (TSARP)
    101. 101. Expertise in Physics, Engineering, Geodesy and GIS – One of the top tier LiDAR companies worldwide
    102. 102. Multiple LiDAR systems: Low Range helicopter, High Range fixed-wing, Multi-Range, and Terrestrial mobile - TITAN®
    103. 103. Most stringent QC Process for data collection and </li></ul> processing in the LiDAR industry<br /><ul><li>Only Terrapoint employees collect and process data;
    104. 104. this exclusivity ensures the ultimate level of informational </li></ul> security<br /><ul><li>Strong IP</li></ul>Experienced Global Vision <br />The Woodlands, TX office<br />Houston . Washington DC . Dallas . Seattle . Salt Lake City . Phoenix . Vancouver . Calgary . Ottawa . Kharkiv . Moscow . Johannesburg<br />
    105. 105. Project Experience<br />700 LiDAR projects delivered<br />Airborne LiDAR/Digital Image<br />Mobile Ground LiDAR<br />Reliant Park<br />Major Markets served:<br />Flood Plain Mapping<br />Mining<br />Oil & Gas/Seismic<br />Transportation<br />Environmental <br />Power/Utilities<br />Land Development<br />Houston<br />Astrodome<br />
    106. 106. Fugro EarthData – HPIDS Vendor<br /><ul><li>LiDAR
    107. 107. Aerial Imagery
    108. 108. Radar (GeoSAR)
    109. 109. Oblique Imagery (Panoramic)
    110. 110. Satellite Remote Sensing
    111. 111. Thematic Mapping
    112. 112. Corridor Mapping</li></li></ul><li>Fugro EarthData Geospatial Services <br />Airborne imagery & photogrammetry:performing acquisition-to-production services for the creation of customized, high resolution products from airborne imagery.<br />Topographic LiDAR mapping:acquiring high accuracy 3D elevation and surface feature data for efficient production of topographic mapping products.<br />Image classification and thematic mapping: image classification using automated object-oriented methods or photointerpretation for LULC and benthic habitat maps, wetlands delineation, change detection.<br />Rapid response mapping: pre-planning; rapid mobilization, airborne data collection and processing; photointerpretation for damage assessment data dissemination <br />Contact information<br />Phone: 865-621-2984<br />Email: smoffat@earthdata.com<br />
    113. 113. Founded in 1959<br />218 Full-time Staff<br />Areas of Expertise<br /><ul><li>Engineering
    114. 114. Spatial Data
    115. 115. Imagery
    116. 116. Surface
    117. 117. Feature Data
    118. 118. Surveying
    119. 119. Advanced Technologies</li></ul>26<br />
    120. 120.
    121. 121.
    122. 122. About Contact One<br /><ul><li>Founded in 2000
    123. 123. GIS Solutions
    124. 124. Customers Nationwide
    125. 125. Austin, Boulder, Lexington Office Locations
    126. 126. Public Safety Business Partners:</li></ul>Copyright 2008 Contact One, Inc.<br />2009 © Copyright Contact One, Inc<br />
    127. 127. <ul><li> Mapping Services
    128. 128. Addressing
    129. 129. Web Geo-spatial Solutions
    130. 130. Data accuracy validation
    131. 131. ESRI ArcSDE Configuration and tuning
    132. 132. GIS Database Consulting
    133. 133. GIS Planning and Implementation</li></li></ul><li>Contact One Products<br />GIS Data Management System<br />Web-based Geospatial solution<br />Dispatch Mapping System<br />Soft and hard-copy map Atlases<br />Wireless Data Management System<br />Copyright 2008 Contact One, Inc.<br />2009 © Copyright Contact One, Inc<br />
    134. 134. Copyright 2008 Contact One, Inc.<br />2009 © Copyright Contact One, Inc<br />
    135. 135. High quality, cost-effective “sky to screen”geomatic services<br /><ul><li>Vertical and Oblique Aerial Photography
    136. 136. Aerial and Terrestrial LiDAR Surveys
    137. 137. Multi/Hyperspectral and Thermal Remote Sensing
    138. 138. Ground and Airborne GPS
    139. 139. Digital Orthophotography
    140. 140. Digital Terrain and Surface Modeling
    141. 141. Digital Planimetric and Topographic Feature Mapping
    142. 142. Cross-Section and Plan-Profile Mapping
    143. 143. Volumetric/Earthwork Surveys
    144. 144. Cadastral and Land Use Mapping
    145. 145. Data Conversion
    146. 146. GIS Implementation, Application and Support</li></ul>KUCERA<br />
    147. 147. Experienced, Professional Staff and Proven, Advanced Technologies:<br /><ul><li>Headquartered in Willoughby OH – offices throughout the US
    148. 148. Staff of 80, including multiple licensed/registered Cps, PSs, PEs, GISPs, and other professionals
    149. 149. Fleet of 5 aircraft-including 3 twin-engines + 2 single-engines
    150. 150. Six aerial cameras – 2 Leica ADS40/SH 51 strip digital + 4 Zeiss RMK TOP/LMK film
    151. 151. Leica ALS60 200 KHz aerial lidar system w/ Multiple Pulse in the Air (MPiA) capability
    152. 152. GeoVista digital aerial oblique imaging systems and RIT WASP multispectral sensors
    153. 153. All sensors integrated with Applanix POS/AV or Leica IPAS AGPS/IMU systems
    154. 154. Trimble and Novatel survey grade GPS receivers
    155. 155. Inpho OrthoMaster/Orthovista digital orthophoto systems
    156. 156. BAE Socet Set and Cardinal Systems VR2 softcopy stereoplotters
    157. 157. TerraSolid and BAE N-Gate terrain/surface modeling
    158. 158. ESRI, AutoDesk, Intergraph, Bentley GIS/CAD platforms</li></ul>KUCERA<br />
    159. 159. Extensive Experience Working for Government and Private Organizations:<br /><ul><li>Over 55 years of continuous operation as a leader in aerial data acquisition, mapping, and related services
    160. 160. Have performed aerial mapping services throughout the US and abroad
    161. 161. Have complete aerial sensing and mapping covering over 200 counties and cities since 2000.
    162. 162. Summer 2009- performed digital photo + ortho of entire State of OR and USDA NAIP subcontractor
    163. 163. Numerous clients/projects in Texas:</li></ul>&gt; 2009 HPIDS Contract – TX GLO and TFS – 4-band ortho imagery of Galveston TX area<br />&gt; TX DPW – ortho imagery of Redfish Bay in 2006, 2007, 2008, 2009<br />&gt; HGAC – 7000 sq. mi. mutli-county color orthos – 2002, 2004, 2006 contracts<br />&gt; Aerial photo + lidar mapping of Cities of Huntsville (2007) and College Station (2005)<br />&gt; Color IR orthos of entire TX coastline for TX GLO (2002-2003)<br />KUCERA<br />
    164. 164. 3001 <br />
    165. 165. 37<br />Inputs<br />Inputs<br />Inputs<br />Inputs<br /><ul><li> Aircraft
    166. 166. Sensors
    167. 167. Hardware
    168. 168. Software
    169. 169. Hardware
    170. 170. Software
    171. 171. Hardware
    172. 172. Software</li></ul>3001 Product And Service Offerings<br />3001 is an End-to-End Provider of Geospatial Products and Services<br />3001 Service Segment<br />Analysis andConsulting<br /> Photogrammetry  Processing <br /> Base Mapping <br />Digital Photography  LiDAR <br />Surveying<br />GeospatialInformation<br />Systems <br />Adv Analytics<br /> Mapping <br /> Value Added Services  Exploit.<br /> Data Mining<br />Inputs<br /><ul><li>Hardware
    173. 173. Software
    174. 174. Software
    175. 175. Software
    176. 176. Sensors
    177. 177. On Board </li></ul> Processors<br />
    178. 178. 38<br />Kermit Lewis<br />985.726.2577<br />Kermit. Lewis2@ngc.com<br />
    179. 179. 39<br />
    180. 180. Transportation/ConstructionTechnologies<br />
    181. 181. HPIDS Partners<br />Williams-Stackhouse, Inc. <br />Digital Transfer Solutions<br />RazorTech, Inc.<br />Gorrandona & Associates, Inc.<br />
    182. 182. GIS Services<br />Business Consulting<br />Workflow analysis<br />Gap analysis<br />GIS design & management<br />Software engineering<br />GIS systems integration<br />Custom development<br />Data creation and maintenance<br />LiDAR <br />Aerial Photography<br />
    183. 183. Maps Across Texas<br />Aero-Metric, Inc. <br />Company Overview<br />October 2009<br />
    184. 184. Aero-Metric, Inc.<br /><ul><li>Combined experience of 5 firms whose roots date back more than eight decades
    185. 185. 260 mapping professionals
    186. 186. Own and operate fleet of 8 aircraft
    187. 187. Focus on solutions for Federal, State, and Local Government, Airports, Transportation, Energy Infrastructure, and Mining
    188. 188. Complete range of geospatial solutions
    189. 189. Tradition of technical excellence, state of the industry technology
    190. 190. On time, on spec, and under budget
    191. 191. Very high rate of repeat clients, long term relations</li></li></ul><li>Capabilities<br />Imaging and data collection<br /><ul><li>Digital aerial imagery acquisition
    192. 192. Multi-Spectral imagery acquisition
    193. 193. Airborne Light Detection and Ranging (LiDAR)</li></ul>Digital Orthophotography<br />Digital Mapping<br />Control Surveys<br />GIS Data Integration<br />ZI DMC<br />Optech<br />Gemini<br />Contact: Cliff Mefford, RPP, CPPhone: 972-931-6410Fax: 972-931-6539<br />cmefford@aerometric.com<br />
    194. 194. MJ Harden Associates, Inc.<br />
    195. 195. Services<br />Photogrammetry <br /><ul><li>Digital Aerial Imagery
    196. 196. Planimetric Mapping
    197. 197. Topographic Mapping
    198. 198. Orthorectification
    199. 199. Survey and Inventory</li></ul>LiDAR<br /><ul><li>Acquisition
    200. 200. Data Processing</li></ul>GIS <br /><ul><li>Development
    201. 201. Implementation</li></li></ul><li>Acquisition Technology<br />Aircraft<br /><ul><li>Cessna Conquest
    202. 202. Piper Navajo
    203. 203. Cessna 206</li></ul>Imagery<br /><ul><li> 2- Z/I Digital Mapping Camera (DMC)
    204. 204. Multi-spectral capability
    205. 205. All bands of data collected in a single flight</li></ul>LiDAR<br /><ul><li>Optech Gemini Airborne Terrain Laser Mapper (ALTM)
    206. 206. Multi-pulse technology</li></li></ul><li>
    207. 207. Services<br />Airborne Acquisition <br />Orthophotography<br />Planimetric Maps<br />Topographic Maps<br />Hyperspectral Imagery<br />LiDAR<br />Geographic Information Solutions<br />
    208. 208. Fleet of Aircraft<br />Cessna 206 Stationair<br />Cessna 335<br />Cessna 404 Titan<br />Cessna 441 Conquest (three)<br />
    209. 209.
    210. 210. Vendor Contract Experiences<br />
    211. 211. Break<br />
    212. 212.
    213. 213. Survey Overview<br />Thanks for your participation!!<br />
    214. 214.
    215. 215. Representation From:<br />
    216. 216. COG Participation<br />
    217. 217. Aerial and Satellite Imagery<br />Transportation Data<br /><ul><li>Resolution
    218. 218. Frequency
    219. 219. Natural color or Infrared (IR)
    220. 220. Centerlines
    221. 221. Address Points
    222. 222. Address Ranges</li></ul>Political Data<br />Elevation Data<br /><ul><li> Parcels
    223. 223. Special Districts
    224. 224. Contours
    225. 225. LiDAR</li></li></ul><li>Survey Results<br />National Hydrography Dataset (NHD)<br />Project initiated by the federal government to create a seamless, multi-resolution, applications-ready surface water database. <br /><ul><li>Survey polled users for interest in data at three scales:
    226. 226. 1:100,000
    227. 227. 1:24,000
    228. 228. 1:12,000
    229. 229. 1:24,000 scale was found to be the most favored resolution</li></li></ul><li>Survey Results<br />Aerial and Satellite Imagery: Popularity Rank<br />1<br />2<br />3<br />4<br />5<br />2 foot<br />3 inch<br />6 inch<br />1 foot<br />1 meter<br />*Participants allowed to select multiple resolutions<br />
    230. 230. Survey Results<br />Aerial and Satellite Imagery, p2<br /><ul><li>Approximately 50% of all respondents indicated a need for imagery
    231. 231. Mostly COGS interested in ultra-high resolution (</= 6 inch)
    232. 232. These COGs cover densely populated areas in Texas
    233. 233. Primarily state entities asking for 2 foot resolution (some COGs)
    234. 234. Natural color was more commonly requested than infrared (IR)
    235. 235. Consensus on annual or bi-annual updates</li></li></ul><li>Survey Results<br />Aerial and Satellite Imagery, p3<br /><ul><li>Current NAIP Project Status
    236. 236. State Agency Planning and Preferences
    237. 237. State projects are dependent on federal cycles of collection and additional funding
    238. 238. Councils of Government Strategies
    239. 239. What is the current stability and projected sustainability of regional imagery programs?
    240. 240. Vendor Discussion
    241. 241. How can the COG’s align their programs more effectively?
    242. 242. Key variable is timing and frequency</li></li></ul><li>Survey Results<br />Popularity Rank<br />Elevation<br />1<br /><ul><li> Contours were more requested than LiDAR</li></ul>Contours<br />Responses* (%)<br />2<br />LiDAR<br />*Participants allowed to select multiple datasets<br />
    243. 243. Survey Results<br />Elevation, cont’d<br /><ul><li>Most already have or are not interested in elevation data
    244. 244. Majority of remaining participants requested both DEMS and Contours</li></li></ul><li>Survey Results<br />1<br />Popularity Rank<br />Transportation<br />Address Points<br />Responses* (%)<br />2<br />Address Ranges<br />3<br />Centerlines<br />*Participants allowed to select multiple datasets<br />
    245. 245. Survey Results<br />Transportation, cont’d<br /><ul><li>Local/Regional entities currently collecting
    246. 246. State agencies have a strong desire for current statewide transportation and address database</li></li></ul><li>Key Issues - Transportation<br />- Audience Participation-<br />What standards need to be adopted?<br /><ul><li>What is the level of urgency and need to coordinate/collaborate?
    247. 247. The State needs to pursue development of a Statement of Work</li></li></ul><li>Survey Results<br />Popularity Rank<br />Political<br />1<br />Parcels<br />Responses* (%)<br />2<br />Special Districts<br />*Participants allowed to select multiple datasets<br />
    248. 248. HPIDS Review<br />
    249. 249. HPIDS Is:<br />Managed by TWDB/TNRIS<br />Accessible to all levels of government<br />Based on alignment with state priorities<br />Defined by SOW’s<br />Dependent on cooperation/notification<br />Exceptions allowed for special projects <br />
    250. 250. HPIDS is Not:<br />Intended for one-off projects in need of procurement<br />Intended for restricted use data<br />Intended for sole-sourcing without justification<br />
    251. 251. Upcoming Activities<br />2010 NAIP – possible buy-ups<br />LiDAR new Areas of Interest for 2010<br />Development of Transportation SOW<br />Development of Imagery SOW(s)<br />Refinement of TGIC governance model<br />

    ×