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"The dataset consists of tiled orthogonal imagery produced from nadir images captured by Pictometry International between May 13th, 2010 to May 28th 2011. Automatic aerial triangulation (AAT) was performed. The triangulated frames were rectified to a LiDAR derived DEM. Mosaicing was performed using an automatic seaming algorithm and manually edited to eliminate seams through elevated features where possible. NOTE: As stipulated prior to production of ortho-imagery, source frames from an existing imagery collection were to be utilized. As such, the imagery may contain long shadows, haziness, and cloud shadows. Pictometry has corrected for this where possible and has made every effort to bring the final dataset into...
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"The dataset consists of tiled orthogonal imagery produced from nadir images captured by Pictometry International between May 13th, 2010 to May 28th 2011. Automatic aerial triangulation (AAT) was performed. The triangulated frames were rectified to a LiDAR derived DEM. Mosaicing was performed using an automatic seaming algorithm and manually edited to eliminate seams through elevated features where possible. NOTE: As stipulated prior to production of ortho-imagery, source frames from an existing imagery collection were to be utilized. As such, the imagery may contain long shadows, haziness, and cloud shadows. Pictometry has corrected for this where possible and has made every effort to bring the final dataset into...
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"The dataset consists of tiled orthogonal imagery produced from nadir images captured by Pictometry International between May 13th, 2010 to May 28th 2011. Automatic aerial triangulation (AAT) was performed. The triangulated frames were rectified to a LiDAR derived DEM. Mosaicing was performed using an automatic seaming algorithm and manually edited to eliminate seams through elevated features where possible. NOTE: As stipulated prior to production of ortho-imagery, source frames from an existing imagery collection were to be utilized. As such, the imagery may contain long shadows, haziness, and cloud shadows. Pictometry has corrected for this where possible and has made every effort to bring the final dataset into...
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"The dataset consists of tiled orthogonal imagery produced from nadir images captured by Pictometry International between May 13th, 2010 to May 28th 2011. Automatic aerial triangulation (AAT) was performed. The triangulated frames were rectified to a LiDAR derived DEM. Mosaicing was performed using an automatic seaming algorithm and manually edited to eliminate seams through elevated features where possible. NOTE: As stipulated prior to production of ortho-imagery, source frames from an existing imagery collection were to be utilized. As such, the imagery may contain long shadows, haziness, and cloud shadows. Pictometry has corrected for this where possible and has made every effort to bring the final dataset into...
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"The dataset consists of tiled orthogonal imagery produced from nadir images captured by Pictometry International between May 13th, 2010 to May 28th 2011. Automatic aerial triangulation (AAT) was performed. The triangulated frames were rectified to a LiDAR derived DEM. Mosaicing was performed using an automatic seaming algorithm and manually edited to eliminate seams through elevated features where possible. NOTE: As stipulated prior to production of ortho-imagery, source frames from an existing imagery collection were to be utilized. As such, the imagery may contain long shadows, haziness, and cloud shadows. Pictometry has corrected for this where possible and has made every effort to bring the final dataset into...
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"The dataset consists of tiled orthogonal imagery produced from nadir images captured by Pictometry International between May 13th, 2010 to May 28th 2011. Automatic aerial triangulation (AAT) was performed. The triangulated frames were rectified to a LiDAR derived DEM. Mosaicing was performed using an automatic seaming algorithm and manually edited to eliminate seams through elevated features where possible. NOTE: As stipulated prior to production of ortho-imagery, source frames from an existing imagery collection were to be utilized. As such, the imagery may contain long shadows, haziness, and cloud shadows. Pictometry has corrected for this where possible and has made every effort to bring the final dataset into...
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"The dataset consists of tiled orthogonal imagery produced from nadir images captured by Pictometry International between May 13th, 2010 to May 28th 2011. Automatic aerial triangulation (AAT) was performed. The triangulated frames were rectified to a LiDAR derived DEM. Mosaicing was performed using an automatic seaming algorithm and manually edited to eliminate seams through elevated features where possible. NOTE: As stipulated prior to production of ortho-imagery, source frames from an existing imagery collection were to be utilized. As such, the imagery may contain long shadows, haziness, and cloud shadows. Pictometry has corrected for this where possible and has made every effort to bring the final dataset into...
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"The dataset consists of tiled orthogonal imagery produced from nadir images captured by Pictometry International between May 13th, 2010 to May 28th 2011. Automatic aerial triangulation (AAT) was performed. The triangulated frames were rectified to a LiDAR derived DEM. Mosaicing was performed using an automatic seaming algorithm and manually edited to eliminate seams through elevated features where possible. NOTE: As stipulated prior to production of ortho-imagery, source frames from an existing imagery collection were to be utilized. As such, the imagery may contain long shadows, haziness, and cloud shadows. Pictometry has corrected for this where possible and has made every effort to bring the final dataset into...
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"The dataset consists of tiled orthogonal imagery produced from nadir images captured by Pictometry International between May 13th, 2010 to May 28th 2011. Automatic aerial triangulation (AAT) was performed. The triangulated frames were rectified to a LiDAR derived DEM. Mosaicing was performed using an automatic seaming algorithm and manually edited to eliminate seams through elevated features where possible. NOTE: As stipulated prior to production of ortho-imagery, source frames from an existing imagery collection were to be utilized. As such, the imagery may contain long shadows, haziness, and cloud shadows. Pictometry has corrected for this where possible and has made every effort to bring the final dataset into...
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"The dataset consists of tiled orthogonal imagery produced from nadir images captured by Pictometry International between May 13th, 2010 to May 28th 2011. Automatic aerial triangulation (AAT) was performed. The triangulated frames were rectified to a LiDAR derived DEM. Mosaicing was performed using an automatic seaming algorithm and manually edited to eliminate seams through elevated features where possible. NOTE: As stipulated prior to production of ortho-imagery, source frames from an existing imagery collection were to be utilized. As such, the imagery may contain long shadows, haziness, and cloud shadows. Pictometry has corrected for this where possible and has made every effort to bring the final dataset into...
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"The dataset consists of tiled orthogonal imagery produced from nadir images captured by Pictometry International between May 13th, 2010 to May 28th 2011. Automatic aerial triangulation (AAT) was performed. The triangulated frames were rectified to a LiDAR derived DEM. Mosaicing was performed using an automatic seaming algorithm and manually edited to eliminate seams through elevated features where possible. NOTE: As stipulated prior to production of ortho-imagery, source frames from an existing imagery collection were to be utilized. As such, the imagery may contain long shadows, haziness, and cloud shadows. Pictometry has corrected for this where possible and has made every effort to bring the final dataset into...
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"The dataset consists of tiled orthogonal imagery produced from nadir images captured by Pictometry International between May 13th, 2010 to May 28th 2011. Automatic aerial triangulation (AAT) was performed. The triangulated frames were rectified to a LiDAR derived DEM. Mosaicing was performed using an automatic seaming algorithm and manually edited to eliminate seams through elevated features where possible. NOTE: As stipulated prior to production of ortho-imagery, source frames from an existing imagery collection were to be utilized. As such, the imagery may contain long shadows, haziness, and cloud shadows. Pictometry has corrected for this where possible and has made every effort to bring the final dataset into...
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"The dataset consists of tiled orthogonal imagery produced from nadir images captured by Pictometry International between May 13th, 2010 to May 28th 2011. Automatic aerial triangulation (AAT) was performed. The triangulated frames were rectified to a LiDAR derived DEM. Mosaicing was performed using an automatic seaming algorithm and manually edited to eliminate seams through elevated features where possible. NOTE: As stipulated prior to production of ortho-imagery, source frames from an existing imagery collection were to be utilized. As such, the imagery may contain long shadows, haziness, and cloud shadows. Pictometry has corrected for this where possible and has made every effort to bring the final dataset into...
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"The dataset consists of tiled orthogonal imagery produced from nadir images captured by Pictometry International between May 13th, 2010 to May 28th 2011. Automatic aerial triangulation (AAT) was performed. The triangulated frames were rectified to a LiDAR derived DEM. Mosaicing was performed using an automatic seaming algorithm and manually edited to eliminate seams through elevated features where possible. NOTE: As stipulated prior to production of ortho-imagery, source frames from an existing imagery collection were to be utilized. As such, the imagery may contain long shadows, haziness, and cloud shadows. Pictometry has corrected for this where possible and has made every effort to bring the final dataset into...
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"The dataset consists of tiled orthogonal imagery produced from nadir images captured by Pictometry International between May 13th, 2010 to May 28th 2011. Automatic aerial triangulation (AAT) was performed. The triangulated frames were rectified to a LiDAR derived DEM. Mosaicing was performed using an automatic seaming algorithm and manually edited to eliminate seams through elevated features where possible. NOTE: As stipulated prior to production of ortho-imagery, source frames from an existing imagery collection were to be utilized. As such, the imagery may contain long shadows, haziness, and cloud shadows. Pictometry has corrected for this where possible and has made every effort to bring the final dataset into...
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"The dataset consists of tiled orthogonal imagery produced from nadir images captured by Pictometry International between May 13th, 2010 to May 28th 2011. Automatic aerial triangulation (AAT) was performed. The triangulated frames were rectified to a LiDAR derived DEM. Mosaicing was performed using an automatic seaming algorithm and manually edited to eliminate seams through elevated features where possible. NOTE: As stipulated prior to production of ortho-imagery, source frames from an existing imagery collection were to be utilized. As such, the imagery may contain long shadows, haziness, and cloud shadows. Pictometry has corrected for this where possible and has made every effort to bring the final dataset into...
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"The dataset consists of tiled orthogonal imagery produced from nadir images captured by Pictometry International between May 13th, 2010 to May 28th 2011. Automatic aerial triangulation (AAT) was performed. The triangulated frames were rectified to a LiDAR derived DEM. Mosaicing was performed using an automatic seaming algorithm and manually edited to eliminate seams through elevated features where possible. NOTE: As stipulated prior to production of ortho-imagery, source frames from an existing imagery collection were to be utilized. As such, the imagery may contain long shadows, haziness, and cloud shadows. Pictometry has corrected for this where possible and has made every effort to bring the final dataset into...
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"The dataset consists of tiled orthogonal imagery produced from nadir images captured by Pictometry International between May 13th, 2010 to May 28th 2011. Automatic aerial triangulation (AAT) was performed. The triangulated frames were rectified to a LiDAR derived DEM. Mosaicing was performed using an automatic seaming algorithm and manually edited to eliminate seams through elevated features where possible. NOTE: As stipulated prior to production of ortho-imagery, source frames from an existing imagery collection were to be utilized. As such, the imagery may contain long shadows, haziness, and cloud shadows. Pictometry has corrected for this where possible and has made every effort to bring the final dataset into...
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"The dataset consists of tiled orthogonal imagery produced from nadir images captured by Pictometry International between May 13th, 2010 to May 28th 2011. Automatic aerial triangulation (AAT) was performed. The triangulated frames were rectified to a LiDAR derived DEM. Mosaicing was performed using an automatic seaming algorithm and manually edited to eliminate seams through elevated features where possible. NOTE: As stipulated prior to production of ortho-imagery, source frames from an existing imagery collection were to be utilized. As such, the imagery may contain long shadows, haziness, and cloud shadows. Pictometry has corrected for this where possible and has made every effort to bring the final dataset into...
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"The dataset consists of tiled orthogonal imagery produced from nadir images captured by Pictometry International between May 13th, 2010 to May 28th 2011. Automatic aerial triangulation (AAT) was performed. The triangulated frames were rectified to a LiDAR derived DEM. Mosaicing was performed using an automatic seaming algorithm and manually edited to eliminate seams through elevated features where possible. NOTE: As stipulated prior to production of ortho-imagery, source frames from an existing imagery collection were to be utilized. As such, the imagery may contain long shadows, haziness, and cloud shadows. Pictometry has corrected for this where possible and has made every effort to bring the final dataset into...


map background search result map search result map USGS High Resolution Orthoimagery for Honolulu, Hawaii: 04QFJ000550_201005_0x1500m_CL_1 USGS High Resolution Orthoimagery for Honolulu, Hawaii: 04QFJ000610_201005_0x1500m_CL_1 USGS High Resolution Orthoimagery for Honolulu, Hawaii: 04QFJ000640_201005_0x1500m_CL_1 USGS High Resolution Orthoimagery for Honolulu, Hawaii: 04QFJ000685_201005_0x1500m_CL_1 USGS High Resolution Orthoimagery for Honolulu, Hawaii: 04QFJ015640_201005_0x1500m_CL_1 USGS High Resolution Orthoimagery for Honolulu, Hawaii: 04QFJ015655_201005_0x1500m_CL_1 USGS High Resolution Orthoimagery for Honolulu, Hawaii: 04QFJ015685_201005_0x1500m_CL_1 USGS High Resolution Orthoimagery for Honolulu, Hawaii: 04QFJ030610_201005_0x1500m_CL_1 USGS High Resolution Orthoimagery for Honolulu, Hawaii: 04QFJ090625_201005_0x1500m_CL_1 USGS High Resolution Orthoimagery for Honolulu, Hawaii: 04QFJ105580_201005_0x1500m_CL_1 USGS High Resolution Orthoimagery for Honolulu, Hawaii: 04QFJ105640_201005_0x1500m_CL_1 USGS High Resolution Orthoimagery for Honolulu, Hawaii: 04QFJ135610_201005_0x1500m_CL_1 USGS High Resolution Orthoimagery for Honolulu, Hawaii: 04QFJ150640_201005_0x1500m_CL_1 USGS High Resolution Orthoimagery for Honolulu, Hawaii: 04QFJ180565_201005_0x1500m_CL_1 USGS High Resolution Orthoimagery for Honolulu, Hawaii: 04QFJ180625_201005_0x1500m_CL_1 USGS High Resolution Orthoimagery for Honolulu, Hawaii: 04QFJ195520_201005_0x1500m_CL_1 USGS High Resolution Orthoimagery for Honolulu, Hawaii: 04QFJ195595_201005_0x1500m_CL_1 USGS High Resolution Orthoimagery for Honolulu, Hawaii: 04QFJ210520_201005_0x1500m_CL_1 USGS High Resolution Orthoimagery for Honolulu, Hawaii: 04QFJ210610_201005_0x1500m_CL_1 USGS High Resolution Orthoimagery for Honolulu, Hawaii: 04QFJ240580_201005_0x1500m_CL_1 USGS High Resolution Orthoimagery for Honolulu, Hawaii: 04QFJ000550_201005_0x1500m_CL_1 USGS High Resolution Orthoimagery for Honolulu, Hawaii: 04QFJ000610_201005_0x1500m_CL_1 USGS High Resolution Orthoimagery for Honolulu, Hawaii: 04QFJ000640_201005_0x1500m_CL_1 USGS High Resolution Orthoimagery for Honolulu, Hawaii: 04QFJ030610_201005_0x1500m_CL_1 USGS High Resolution Orthoimagery for Honolulu, Hawaii: 04QFJ015640_201005_0x1500m_CL_1 USGS High Resolution Orthoimagery for Honolulu, Hawaii: 04QFJ015655_201005_0x1500m_CL_1 USGS High Resolution Orthoimagery for Honolulu, Hawaii: 04QFJ000685_201005_0x1500m_CL_1 USGS High Resolution Orthoimagery for Honolulu, Hawaii: 04QFJ015685_201005_0x1500m_CL_1 USGS High Resolution Orthoimagery for Honolulu, Hawaii: 04QFJ105580_201005_0x1500m_CL_1 USGS High Resolution Orthoimagery for Honolulu, Hawaii: 04QFJ090625_201005_0x1500m_CL_1 USGS High Resolution Orthoimagery for Honolulu, Hawaii: 04QFJ105640_201005_0x1500m_CL_1 USGS High Resolution Orthoimagery for Honolulu, Hawaii: 04QFJ135610_201005_0x1500m_CL_1 USGS High Resolution Orthoimagery for Honolulu, Hawaii: 04QFJ195520_201005_0x1500m_CL_1 USGS High Resolution Orthoimagery for Honolulu, Hawaii: 04QFJ180565_201005_0x1500m_CL_1 USGS High Resolution Orthoimagery for Honolulu, Hawaii: 04QFJ210520_201005_0x1500m_CL_1 USGS High Resolution Orthoimagery for Honolulu, Hawaii: 04QFJ150640_201005_0x1500m_CL_1 USGS High Resolution Orthoimagery for Honolulu, Hawaii: 04QFJ195595_201005_0x1500m_CL_1 USGS High Resolution Orthoimagery for Honolulu, Hawaii: 04QFJ180625_201005_0x1500m_CL_1 USGS High Resolution Orthoimagery for Honolulu, Hawaii: 04QFJ210610_201005_0x1500m_CL_1 USGS High Resolution Orthoimagery for Honolulu, Hawaii: 04QFJ240580_201005_0x1500m_CL_1