It looks like you're using an Ad Blocker.
Please white-list or disable AboveTopSecret.com in your ad-blocking tool.
Thank you.
Some features of ATS will be disabled while you continue to use an ad-blocker.
Originally posted by Jepic
reply to post by mthgs602
Oh well that's f***** news to me! It's a conspiracy site people. That means a shi**y photo is automatically a conspiracy! Way to go... I'm just obviously loving that logic. Get real...edit on 14-4-2011 by Jepic because: (no reason given)
Originally posted by canadiancatfoodforcrocadi
reply to post by Furbs
who said they were poor you jack ass I am a pipelayer or you americans probably call us ditch diggers and Imake 26 dollars an hour and if I work in the city its 30 to 35.I make more money than most of the people i graded with that went to college but I am not about money whatsoever.Money only buys stuff and thats it. Red neck beerdrinkin fisherman can be millionaires and alot of them are
Originally posted by Perfectenemy
Originally posted by TrueBrit
Just to clarify the situation, could you provide a little more information about what you are seeing in this picture, and where exactly within the shot, the suspect part of the image is?
You can´t see the obvious alien face staring at you? The shape is crystal clear and it´s a great shot and cameras are able to make strange things visible. Interesting photo and S+F for sharing.
Originally posted by Matthew Dark
Originally posted by Perfectenemy
Originally posted by TrueBrit
Just to clarify the situation, could you provide a little more information about what you are seeing in this picture, and where exactly within the shot, the suspect part of the image is?
You can´t see the obvious alien face staring at you? The shape is crystal clear and it´s a great shot and cameras are able to make strange things visible. Interesting photo and S+F for sharing.
Wait...what?
Are you serious?
Are you some expert in non-terrestrial biology?
If it's so obvious, then why don't you illuminate us all as to it's cranial-facial geometry.
Why not tell us more about this "crystal clear" image and describe it's anthropometrics?
"Crystal clear" indeed...
Originally posted by m0r1arty
I see it I think:
-m0redit on 14/4/2011 by m0r1arty because: (no reason given)
Originally posted by Furbs
1. Why do they have a digital camera if they are too poor/drunk/redneck/befuddled to know how to use the internet?
2. Since they are so poor/drunk/redneck/befuddled the story is immediately suspect.
3. After running scans on it, my conclusion is that image has been manipulated.
ASSESSMENT: Class 1 - Image is processed/edited
Yeah, there is no possible way that a redneck could own a camera.
Don't quit your day job.
JPEGsnoop 1.5.2 by Calvin Hass
www.impulseadventure.com...
-------------------------------------
Filename: [C:\Documents and Settings\M\Desktop\180b529c747e.jpg]
Filesize: [81181] Bytes
Start Offset: 0x00000000
*** Marker: SOI (xFFD8) ***
OFFSET: 0x00000000
*** Marker: APP0 (xFFE0) ***
OFFSET: 0x00000002
length = 16
identifier = [JFIF]
version = [1.1]
density = 1 x 1 (aspect ratio)
thumbnail = 0 x 0
*** Marker: COM (Comment) (xFFFE) ***
OFFSET: 0x00000014
Comment length = 59
Comment=CREATOR: gd-jpeg v1.0 (using IJG JPEG v62), quality = 80.
*** Marker: DQT (xFFDB) ***
Define a Quantization Table.
OFFSET: 0x00000051
Table length = 67
----
Precision=8 bits
Destination ID=0 (Luminance)
DQT, Row #0: 6 4 4 6 10 16 20 24
DQT, Row #1: 5 5 6 8 10 23 24 22
DQT, Row #2: 6 5 6 10 16 23 28 22
DQT, Row #3: 6 7 9 12 20 35 32 25
DQT, Row #4: 7 9 15 22 27 44 41 31
DQT, Row #5: 10 14 22 26 32 42 45 37
DQT, Row #6: 20 26 31 35 41 48 48 40
DQT, Row #7: 29 37 38 39 45 40 41 40
Approx quality factor = 79.94 (scaling=40.12 variance=1.43)
*** Marker: DQT (xFFDB) ***
Define a Quantization Table.
OFFSET: 0x00000096
Table length = 67
----
Precision=8 bits
Destination ID=1 (Chrominance)
DQT, Row #0: 7 7 10 19 40 40 40 40
DQT, Row #1: 7 8 10 26 40 40 40 40
DQT, Row #2: 10 10 22 40 40 40 40 40
DQT, Row #3: 19 26 40 40 40 40 40 40
DQT, Row #4: 40 40 40 40 40 40 40 40
DQT, Row #5: 40 40 40 40 40 40 40 40
DQT, Row #6: 40 40 40 40 40 40 40 40
DQT, Row #7: 40 40 40 40 40 40 40 40
Approx quality factor = 79.87 (scaling=40.26 variance=0.36)
*** Marker: SOF0 (Baseline DCT) (xFFC0) ***
OFFSET: 0x000000DB
Frame header length = 17
Precision = 8
Number of Lines = 768
Samples per Line = 1024
Image Size = 1024 x 768
Raw Image Orientation = Landscape
Number of Img components = 3
Component[1]: ID=0x01, Samp Fac=0x22 (Subsamp 1 x 1), Quant Tbl Sel=0x00 (Lum: Y)
Component[2]: ID=0x02, Samp Fac=0x11 (Subsamp 2 x 2), Quant Tbl Sel=0x01 (Chrom: Cb)
Component[3]: ID=0x03, Samp Fac=0x11 (Subsamp 2 x 2), Quant Tbl Sel=0x01 (Chrom: Cr)
*** Marker: DHT (Define Huffman Table) (xFFC4) ***
OFFSET: 0x000000EE
Huffman table length = 31
----
Destination ID = 0
Class = 0 (DC / Lossless Table)
Codes of length 01 bits (000 total):
Codes of length 02 bits (001 total): 00
Codes of length 03 bits (005 total): 01 02 03 04 05
Codes of length 04 bits (001 total): 06
Codes of length 05 bits (001 total): 07
Codes of length 06 bits (001 total): 08
Codes of length 07 bits (001 total): 09
Codes of length 08 bits (001 total): 0A
Codes of length 09 bits (001 total): 0B
Codes of length 10 bits (000 total):
Codes of length 11 bits (000 total):
Codes of length 12 bits (000 total):
Codes of length 13 bits (000 total):
Codes of length 14 bits (000 total):
Codes of length 15 bits (000 total):
Codes of length 16 bits (000 total):
Total number of codes: 012
*** Marker: DHT (Define Huffman Table) (xFFC4) ***
OFFSET: 0x0000010F
Huffman table length = 181
----
Destination ID = 0
Class = 1 (AC Table)
Codes of length 01 bits (000 total):
Codes of length 02 bits (002 total): 01 02
Codes of length 03 bits (001 total): 03
Codes of length 04 bits (003 total): 00 04 11
Codes of length 05 bits (003 total): 05 12 21
Codes of length 06 bits (002 total): 31 41
Codes of length 07 bits (004 total): 06 13 51 61
Codes of length 08 bits (003 total): 07 22 71
Codes of length 09 bits (005 total): 14 32 81 91 A1
Codes of length 10 bits (005 total): 08 23 42 B1 C1
Codes of length 11 bits (004 total): 15 52 D1 F0
Codes of length 12 bits (004 total): 24 33 62 72
Codes of length 13 bits (000 total):
Codes of length 14 bits (000 total):
Codes of length 15 bits (001 total): 82
Codes of length 16 bits (125 total): 09 0A 16 17 18 19 1A 25 26 27 28 29 2A 34 35 36
37 38 39 3A 43 44 45 46 47 48 49 4A 53 54 55 56
57 58 59 5A 63 64 65 66 67 68 69 6A 73 74 75 76
77 78 79 7A 83 84 85 86 87 88 89 8A 92 93 94 95
96 97 98 99 9A A2 A3 A4 A5 A6 A7 A8 A9 AA B2 B3
B4 B5 B6 B7 B8 B9 BA C2 C3 C4 C5 C6 C7 C8 C9 CA
D2 D3 D4 D5 D6 D7 D8 D9 DA E1 E2 E3 E4 E5 E6 E7
E8 E9 EA F1 F2 F3 F4 F5 F6 F7 F8 F9 FA
Total number of codes: 162
*** Marker: DHT (Define Huffman Table) (xFFC4) ***
OFFSET: 0x000001C6
Huffman table length = 31
----
Destination ID = 1
Class = 0 (DC / Lossless Table)
Codes of length 01 bits (000 total):
Codes of length 02 bits (003 total): 00 01 02
Codes of length 03 bits (001 total): 03
Codes of length 04 bits (001 total): 04
Codes of length 05 bits (001 total): 05
Codes of length 06 bits (001 total): 06
Codes of length 07 bits (001 total): 07
Codes of length 08 bits (001 total): 08
Codes of length 09 bits (001 total): 09
Codes of length 10 bits (001 total): 0A
Codes of length 11 bits (001 total): 0B
Codes of length 12 bits (000 total):
Codes of length 13 bits (000 total):
Codes of length 14 bits (000 total):
Codes of length 15 bits (000 total):
Codes of length 16 bits (000 total):
Total number of codes: 012
*** Marker: DHT (Define Huffman Table) (xFFC4) ***
OFFSET: 0x000001E7
Huffman table length = 181
----
Destination ID = 1
Class = 1 (AC Table)
Codes of length 01 bits (000 total):
Codes of length 02 bits (002 total): 00 01
Codes of length 03 bits (001 total): 02
Codes of length 04 bits (002 total): 03 11
Codes of length 05 bits (004 total): 04 05 21 31
Codes of length 06 bits (004 total): 06 12 41 51
Codes of length 07 bits (003 total): 07 61 71
Codes of length 08 bits (004 total): 13 22 32 81
Codes of length 09 bits (007 total): 08 14 42 91 A1 B1 C1
Codes of length 10 bits (005 total): 09 23 33 52 F0
Codes of length 11 bits (004 total): 15 62 72 D1
Codes of length 12 bits (004 total): 0A 16 24 34
Codes of length 13 bits (000 total):
Codes of length 14 bits (001 total): E1
Codes of length 15 bits (002 total): 25 F1
Codes of length 16 bits (119 total): 17 18 19 1A 26 27 28 29 2A 35 36 37 38 39 3A 43
44 45 46 47 48 49 4A 53 54 55 56 57 58 59 5A 63
64 65 66 67 68 69 6A 73 74 75 76 77 78 79 7A 82
83 84 85 86 87 88 89 8A 92 93 94 95 96 97 98 99
9A A2 A3 A4 A5 A6 A7 A8 A9 AA B2 B3 B4 B5 B6 B7
B8 B9 BA C2 C3 C4 C5 C6 C7 C8 C9 CA D2 D3 D4 D5
D6 D7 D8 D9 DA E2 E3 E4 E5 E6 E7 E8 E9 EA F2 F3
F4 F5 F6 F7 F8 F9 FA
Total number of codes: 162
*** Marker: SOS (Start of Scan) (xFFDA) ***
OFFSET: 0x0000029E
Scan header length = 12
Number of img components = 3
Component[1]: selector=0x01, table=0x00
Component[2]: selector=0x02, table=0x11
Component[3]: selector=0x03, table=0x11
Spectral selection = 0 .. 63
Successive approximation = 0x00
*** Decoding SCAN Data ***
OFFSET: 0x000002AC
Scan Decode Mode: No IDCT (DC only)
NOTE: Low-resolution DC component shown. Can decode full-res with [Options->Scan Segment->Full IDCT]
Scan Data encountered marker 0xFFD9 @ 0x00013D1B.0
Compression stats:
Compression Ratio: 29.31:1
Bits per pixel: 0.82:1
Huffman code histogram stats:
Huffman Table: (Dest ID: 0, Class: DC)
# codes of length 01 bits: 0 ( 0%)
# codes of length 02 bits: 1064 ( 9%)
# codes of length 03 bits: 10300 ( 84%)
# codes of length 04 bits: 444 ( 4%)
# codes of length 05 bits: 359 ( 3%)
# codes of length 06 bits: 121 ( 1%)
# codes of length 07 bits: 0 ( 0%)
# codes of length 08 bits: 0 ( 0%)
# codes of length 09 bits: 0 ( 0%)
# codes of length 10 bits: 0 ( 0%)
# codes of length 11 bits: 0 ( 0%)
# codes of length 12 bits: 0 ( 0%)
# codes of length 13 bits: 0 ( 0%)
# codes of length 14 bits: 0 ( 0%)
# codes of length 15 bits: 0 ( 0%)
# codes of length 16 bits: 0 ( 0%)
Huffman Table: (Dest ID: 1, Class: DC)
# codes of length 01 bits: 0 ( 0%)
# codes of length 02 bits: 5580 ( 91%)
# codes of length 03 bits: 454 ( 7%)
# codes of length 04 bits: 106 ( 2%)
# codes of length 05 bits: 4 ( 0%)
# codes of length 06 bits: 0 ( 0%)
# codes of length 07 bits: 0 ( 0%)
# codes of length 08 bits: 0 ( 0%)
# codes of length 09 bits: 0 ( 0%)
# codes of length 10 bits: 0 ( 0%)
# codes of length 11 bits: 0 ( 0%)
# codes of length 12 bits: 0 ( 0%)
# codes of length 13 bits: 0 ( 0%)
# codes of length 14 bits: 0 ( 0%)
# codes of length 15 bits: 0 ( 0%)
# codes of length 16 bits: 0 ( 0%)
Huffman Table: (Dest ID: 0, Class: AC)
# codes of length 01 bits: 0 ( 0%)
# codes of length 02 bits: 40754 ( 40%)
# codes of length 03 bits: 7106 ( 7%)
# codes of length 04 bits: 28546 ( 28%)
# codes of length 05 bits: 9974 ( 10%)
# codes of length 06 bits: 7090 ( 7%)
# codes of length 07 bits: 4312 ( 4%)
# codes of length 08 bits: 1575 ( 2%)
# codes of length 09 bits: 1637 ( 2%)
# codes of length 10 bits: 528 ( 1%)
# codes of length 11 bits: 247 ( 0%)
# codes of length 12 bits: 41 ( 0%)
# codes of length 13 bits: 0 ( 0%)
# codes of length 14 bits: 0 ( 0%)
# codes of length 15 bits: 1 ( 0%)
# codes of length 16 bits: 115 ( 0%)
Huffman Table: (Dest ID: 1, Class: AC)
# codes of length 01 bits: 0 ( 0%)
# codes of length 02 bits: 8850 ( 75%)
# codes of length 03 bits: 560 ( 5%)
# codes of length 04 bits: 1444 ( 12%)
# codes of length 05 bits: 635 ( 5%)
# codes of length 06 bits: 277 ( 2%)
# codes of length 07 bits: 48 ( 0%)
# codes of length 08 bits: 57 ( 0%)
# codes of length 09 bits: 5 ( 0%)
# codes of length 10 bits: 1 ( 0%)
# codes of length 11 bits: 0 ( 0%)
# codes of length 12 bits: 1 ( 0%)
# codes of length 13 bits: 0 ( 0%)
# codes of length 14 bits: 0 ( 0%)
# codes of length 15 bits: 0 ( 0%)
# codes of length 16 bits: 0 ( 0%)
YCC clipping in DC:
Y component: [255= 0]
Cb component: [255= 0]
Cr component: [255= 0]
RGB clipping in DC:
R component: [255= 0]
G component: [255= 0]
B component: [255= 0]
Average Pixel Luminance (Y):
Y=[ 88] (range: 0..255)
Brightest Pixel Search:
YCC=[ 1014, 0, 0] RGB=[254,254,254] @ MCU[ 58, 0]
Finished Decoding SCAN Data
Number of RESTART markers decoded: 0
Next position in scan buffer: Offset 0x00013D1A.7
*** Marker: EOI (End of Image) (xFFD9) ***
OFFSET: 0x00013D1B
*** Searching Compression Signatures ***
Signature: 01DC499064BA9264D591FDE9071DFD89
Signature (Rotated): 0175BAF3251040E0EFB2930B73328E7F
File Offset: 0 bytes
Chroma subsampling: 2x2
EXIF Make/Model: NONE
EXIF Makernotes: NONE
EXIF Software: NONE
Searching Compression Signatures: (3327 built-in, 0 user(*) )
EXIF.Make / Software EXIF.Model Quality Subsamp Match?
------------------------- ----------------------------------- ---------------- --------------
CAM:[OLYMPUS OPTICAL CO.,LTD ] [C2000Z ] [ ] No
CAM:[OLYMPUS OPTICAL CO.,LTD ] [C40Z,D40Z ] [ ] No
CAM:[OLYMPUS OPTICAL CO.,LTD ] [C700UZ ] [ ] No
CAM:[SONY ] [DSC-H9 ] [ ] No
SW :[Apple ImageIO.framework ] [050 (Normal) ]
SW :[IJG Library ] [080 ]
The following IJG-based editors also match this signature:
SW :[GIMP ] [080 ]
SW :[IrfanView ] [080 ]
SW :[idImager ] [080 ]
SW :[FastStone Image Viewer ] [080 ]
SW :[NeatImage ] [080 ]
SW :[Paint.NET ] [080 ]
SW :[Photomatix ] [080 ]
SW :[XnView ] [080 ]
NOTE: JFIF COMMENT field is known software
Based on the analysis of compression characteristics and EXIF metadata:
ASSESSMENT: Class 1 - Image is processed/edited
This may be a new software editor for the database.
If this file is processed, and editor doesn't appear in list above,
PLEASE ADD TO DATABASE with [Tools->Add Camera to DB]
NOTE: JFIF COMMENT field is known software
Based on the analysis of compression characteristics and EXIF metadata:
ASSESSMENT: Class 1 - Image is processed/edited