NITF version 2.1/NSIF version 1.0
Sample Imagery


NITF 1.1 NITF 2.0 NITF 2.1/NSIF 1.0 JPEG 2000 RSM


Number Case OBJECTIVE  OF THIS  FILE
1 i_3001a Can the system handle an uncompressed 1024x1024 8-bit mono image and file contains GEO data?  (AIRFIELD)
2 ns3004f Checks a system to see how it applies GEO data around 00, 000.
3 i_3004g Checks a system to see how it applies GEO data around 00, 180.
4 ns3005b Checks a JPEG-compressed 1024x1024 8-bit mono image compressed with visible 8-bit tables and COMRAT 01.1.  (AIRFIELD)
5 i_3008a Checks a JPEG-compressed, 256x256 8-bit mono image, Q4, COMRAT 00.4 with general purpose tables embedded. File also contains image comments.  (TANK)
6 ns3010a Can the system handle a JPEG-compressed 231x191 8-bit mono image that is non-divide by 8, and file also contains image comments?  (BLIMP)
7 i_3015a Can the system handle a JPEG-compressed 256x256 8-bit mono image with comment in the JPEG stream before frame marker?  (TANK)
8 ns3017a Checks a JPEG-compressed 231x191 8-bit mono image with a corrupted restart marker occurring too late.  (BLIMP)
9 i_3018a Checks a JPEG-compressed 231x191 8-bit mono image with a corrupted restart marker occurring too early.  (BLIMP)
10 ns3022b Checks a JPEG-compressed 181 x 73 8-bit mono image with split Huffman tables 1 DC 1 AC having separate marker for each.  (JET)
11 i_3025b Checks to see if a viewer can read a JPEG stream with fill bytes (FF) in the JPEG stream before FFD8.  (LINCOLN)
12 ns3033b Checks a JPEG-compressed 512x512 8-bit mono image with APP7 marker in JPEG stream.  (LENNA)
13 i_3034c Checks a 1-bit RGB/LUT with an arrow, the value of 1 mapped to green and the background value of 0 mapped to red, and no mask table.
14 ns3034d Checks a 1-bit mono with mask table having (0x00) black as transparent with white arrow.
15 i_3034f Checks a 1-bit RGB/LUT (green arrow) with a mask table (pad pixels having value of 0x00) and a transparent pixel value of 1 being mapped to green by the LUT.
16 ns3038a Checks all run lengths on a bi-level compressed at 1D and 1024x1024 FAX imagery.  (SEMAPHORE)
17 i_3041a Checks a bi-level compressed at 2DS 512x512 FAX image.  (SHIP)
18 ns3050a Checks all run lengths on a bi-level compressed at 2DH and 1024x1024 FAX imagery.  (SEMAPHORE)
19 i_3051e Checks to see if a system can render CGM Text in the proper location.
20 ns3051v Checks to see if the system can render CGM polygon sets properly and two polygons that do not intersect.
21 i_3052a Checks to see if the system renders a basic Circle.
22 ns3059a Checks for rendering CGM ellipses with edge width of 50.
23 i_3060a Checks for rendering CGM polylines (types 1 through 5.)
24 ns3061a Checks an IMODE S image with a data mask subheader, the subheader with padded pixels, having a color value of 0x00, 0x00, 0x00 displaying as transparent, and 3x3 blocks.
25 i_3063f Checks for rendering CGM polygons with hatch style 5.
26 ns3063h Checks for rendering CGM polygons with hatch style 1 with auxiliary color.
27 i_3068a Checks for rendering CGM rectangles with starting point in Lower Right of rectangle.
28 ns3073a Checks for rendering various CGM circular arcs.
29 i_3076a Checks for rendering various CGM elliptical arc cords.
30 ns3090i CIRARCC1 checks for proper interpretation of lower left VDC and drawing of center-closed CGM circular arcs across different quadrants.
31 i_3090m CIRARCC5 checks for proper interpretation of upper left VDC and drawing of center-closed CGM circular arcs across different quadrants.
32 ns3090q CIRARCC9 checks for proper interpretation of lower right VDC and drawing of center-closed CGM circular arcs across different quadrants.
33 i_3090u CIRARCCD checks for proper interpretation of upper right VDC and drawing of center-closed CGM circular arcs across different quadrants.
34 ns3101b Checks to see what CGM fonts are supported by the system. The display image is shown with limited font support.
35 i_3113g Can system display a Low Bite Rate (LBR) file with an uncompressed image overlay?
36 ns3114a Can the render an NSIF file with a single (STA) text segment with only one byte of data?
37 i_3114e Checks to see if the system recognizes all UT1 values 0xA0 to 0xFF.
38 ns3114i Can the system render a U8S character set (this text segment is in an HTML format)?  (To verify data, ensure your web browser is set to properly display Unicode UT8-F.)
39 i_3117ax Can the system render an NSIF file having the maximum total bytes in 32 text segments each of 99,998 bytes with an image segment?  (Text shows 1 of 32 identical text segments.)
40 ns3118b Can the system render an embedded MTF file is the second text segment. Text shows MTF text segment.
Can the system render an embedded MTF file that is the second text segment?  (Text shows MTF text segment.)
41 ns3119b Can the system render the maximum CGM total bytes for a clevel 3 file (total bytes 1,048,576 in 8 CGM segments)?
42 i_3128b This file contains PIAE TREs version 2.0 to include three PEA TREs.  If the system supports PIAE TREs, can they find each TRE to include all 3 PEA TREs?
43 ns3201a Checks a systems ability to handle an RGB/LUT. (LUT has 128 entries.)
44 i_3201c Checks a systems ability to handle a single block IMODE R image, 126x126
45 ns3228b MS IMODE S RGB, multi-blocked image, not all bands displayed.
46 i_3228c MS IMODE P RGB, multi-blocked image, not all bands displayed.
47 ns3228d MS IMODE B RGB, multi-blocked image, not all bands displayed.
48 i_3228e MS IMODE R RGB, multi-blocked image, not all bands displayed.
49 ns3229b Nine band MS image, PVTYPE=SI, ABPP=16 in NBPP=16, IMODE B. Band 1, 2 & 3 have been enhanced for viewing, image is naturally dark.
50 i_3301a Checks an uncompressed 1024x1024 24-bit multi-blocked (IMode-S) color image. (HELO)
51 ns3301b Checks an IMODE B image with a data mask subheader, the subheader with padded pixels, having a pad pixel value of 0x00 displaying as transparent, 3x3 blocks.
52 i_3301c Checks an IMODE S image with a data mask subheader, the subheader with padded pixels, having a pad pixel value of 0x00 displaying as transparent, 3x3 blocks.
53 ns3301e Checks an IMODE P image with a data mask subheader, the subheader with padded pixels, having a pad pixel value of 0x7F displaying as determined by the ELT, 4x4 blocks.
54 i_3301h Can the system display a multi block 6x6 IMODE R image and 216x216?
55 ns3301j Can the system display a mono JPEG image with mask blocks?
56 i_3301k Checks an IMODE R image with a data mask subheader, with padded pixels, a pad pixel value of 0x00 displaying as transparent, and 3x3 blocks.
57 ns3302a Can the system display an uncompressed 256x256 24-bit multi-blocked (IMode-B) image? (TRACKER)
58 i_3303a Can the system display an uncompressed 2048x2048 8-bit multi-blocked mono image? (CAMELS)
59 ns3304a Can the system display a JPEG-compressed 2048x2048 8-bit multi-blocked (512x512) mono image w/QFAC=3, RSTI=32, and IMODE=B? (CAMELS)
60 i_3309a Can the system display a JPEG-compressed 2048x2048 8-bit multi-blocked (256x256) mono image w/QFAC=3, RSTI=16, and IMODE=B? (CAMELS)
61 ns3310a Can the system display an uncompressed, 244x244 24-bit IMODE P multi-blocked (128x128) color image? (BIRDS)
62 i_3311a Can the system display a JPEG 2048x2048 24-bit PI block color w/QFAC=3,RSTI=32,IMODE=P, blocked (512x512)? (JET)
63 ns3321a Can the system handle an NSIF file containing a streaming file header (in which the image size was unknown at the time of production) and the main header has replacement data?
64 ns3361c How does the system handle multi-images with GEO data?
65 i_3405a Can the system handle a multi-blocked 1024x1024 image with 11/16 (ABPP=11, NBPP=16)? (AIRSTRIP)
66 ns3417c Can the system handle a 98x208 mono image with custom 12-bit JPEG SAR tables and COMRAT 03.5?
67 i_3430a Can the system handle an NSIF file with an uncompressed image with 12-bit back to back data, ABPP = 12, and NBPP = 12?
68 ns3437a Can the system handle a 12-bit JPEG C5 (Lossless) ES implementation multi-blocked 1024x2048 image with APP6 in each displayable block?
69 i_3450c Can the system read a 32-bit real image?
70 ns3450e Can the system read a 64-bit real image?
71 i_5012c Can the system handle an NSIF file with 100 images, 100 symbols and 32 text elements, images 1, 25, 50, 75 and 100 attached to "000", symbol 12 and text 29 attached to image 25, symbol 32 and text 30 attached to image 50, symbol 86 and text 31 attached to image 75, symbol 90 and text 32 attached to image 100, and all other segments attached to image 1?
72 ns5600a Can the system handle a MS, 31 Band image, 42 by 42 pixels, 32bpp Float, and IREPBANDS all blank?


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        Updated on 09 December 2005