MacEnroe
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Genau. Probiers aus. Regler extrem verstellen und schauen, was passiert.
Folgen Sie dem Video unten, um zu sehen, wie Sie unsere Website als Icon auf Ihrem Homescreen erstellen.
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Der TE hat ja erwähnt dass das Bild via WhatsApp gekommen ist. Da kannst du nichts mehr herauslesen und die Qualität ist mieser als mies.- gibt es exif Daten zum Bild, oder sind auch diese schon gelöscht oder manipuliert (Plausibilität)
- liegt das Bild in einer ausreichenden Qualität vor damit man überhaupt eine Chance hat eine Manipulation zu erkennen?
Aber am Duplikat!Genau. Probiers aus.
Das ist doch schon eine anständige Größe, um etwas erkennen zu können.1600 × 1200
ASSESSMENT: Class 1 - Image is processed/edited
ASSESSMENT: Class 4 - Uncertain if processed or original
While the EXIF fields indicate original, no compression signatures
in the current database were found matching this make/model
Tja, da stellt sich nun die Frage – in welchem Umfang? Nur Helligkeit und Kontrast oder mehr? Vielleicht wurde es ja mit einem Handy aufgenommen und irgendein Effektfilter war aktiviert?ASSESSMENT: Class 1 - Image is processed/edited
Ich würde behaupten, dass schon alleine die Verkleinerung/Komprimierung durch WhatsApp hier reinfallen würde …Tja, da stellt sich nun die Frage – in welchem Umfang? Nur Helligkeit und Kontrast oder mehr? Vielleicht wurde es ja mit einem Handy aufgenommen und irgendein Effektfilter war aktiviert?
JPEGsnoop 1.8.0 by Calvin Hass
http://www.impulseadventure.com/photo/
-------------------------------------
Filename: [G E L O E S C H T durch IMS] → BILD 1
Filesize: [168857] 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: DQT (xFFDB) ***
Define a Quantization Table.
OFFSET: 0x00000014
Table length = 132
----
Precision=8 bits
Destination ID=0 (Luminance)
DQT, Row #0: 6 6 6 7 10 15 22 34
DQT, Row #1: 6 7 8 11 14 16 21 30
DQT, Row #2: 6 8 10 12 17 25 36 54
DQT, Row #3: 7 11 12 16 21 30 42 62
DQT, Row #4: 10 14 17 21 28 38 52 76
DQT, Row #5: 15 16 25 30 38 50 68 95
DQT, Row #6: 22 21 36 42 52 68 90 124
DQT, Row #7: 34 30 54 62 76 95 124 167
Approx quality factor = 71.19 (scaling=57.62 variance=593.35)
----
Precision=8 bits
Destination ID=1 (Chrominance)
DQT, Row #0: 6 6 6 7 10 15 22 34
DQT, Row #1: 6 7 8 11 14 16 21 30
DQT, Row #2: 6 8 10 12 17 25 36 54
DQT, Row #3: 7 11 12 16 21 30 42 62
DQT, Row #4: 10 14 17 21 28 38 52 76
DQT, Row #5: 15 16 25 30 38 50 68 95
DQT, Row #6: 22 21 36 42 52 68 90 124
DQT, Row #7: 34 30 54 62 76 95 124 167
Approx quality factor = 80.24 (scaling=39.51 variance=961.47)
*** Marker: SOF2 (Progressive DCT, Huffman) (xFFC2) ***
OFFSET: 0x0000009A
Frame header length = 17
Precision = 8
Number of Lines = 1200
Samples per Line = 1600
Image Size = 1600 x 1200
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: 0x000000AD
Huffman table length = 50
----
Destination ID = 0
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 (000 total):
Codes of length 09 bits (000 total):
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: 008
----
Destination ID = 1
Class = 0 (DC / Lossless Table)
Codes of length 01 bits (001 total): 00
Codes of length 02 bits (001 total): 01
Codes of length 03 bits (001 total): 02
Codes of length 04 bits (001 total): 03
Codes of length 05 bits (001 total): 04
Codes of length 06 bits (001 total): 05
Codes of length 07 bits (000 total):
Codes of length 08 bits (000 total):
Codes of length 09 bits (000 total):
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: 006
*** Marker: SOS (Start of Scan) (xFFDA) ***
OFFSET: 0x000000E1
Scan header length = 12
Number of img components = 3
Component[1]: selector=0x01, table=0(DC),0(AC)
Component[2]: selector=0x02, table=1(DC),0(AC)
Component[3]: selector=0x03, table=1(DC),0(AC)
Spectral selection = 0 .. 0
Successive approximation = 0x02
NOTE: Scan parsing doesn't support this SOF mode.
*** Marker: DHT (Define Huffman Table) (xFFC4) ***
OFFSET: 0x000050EF
Huffman table length = 2
*** Marker: SOS (Start of Scan) (xFFDA) ***
OFFSET: 0x000050F3
Scan header length = 12
Number of img components = 3
Component[1]: selector=0x01, table=0(DC),0(AC)
Component[2]: selector=0x02, table=0(DC),0(AC)
Component[3]: selector=0x03, table=0(DC),0(AC)
Spectral selection = 0 .. 0
Successive approximation = 0x21
NOTE: Scan parsing doesn't support this SOF mode.
*** Marker: DHT (Define Huffman Table) (xFFC4) ***
OFFSET: 0x0000670F
Huffman table length = 2
*** Marker: SOS (Start of Scan) (xFFDA) ***
OFFSET: 0x00006713
Scan header length = 12
Number of img components = 3
Component[1]: selector=0x01, table=0(DC),0(AC)
Component[2]: selector=0x02, table=0(DC),0(AC)
Component[3]: selector=0x03, table=0(DC),0(AC)
Spectral selection = 0 .. 0
Successive approximation = 0x10
NOTE: Scan parsing doesn't support this SOF mode.
*** Marker: DHT (Define Huffman Table) (xFFC4) ***
OFFSET: 0x00007D32
Huffman table length = 54
----
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 (002 total): 02 11
Codes of length 04 bits (001 total): 03
Codes of length 05 bits (003 total): 10 12 21
Codes of length 06 bits (003 total): 04 20 31
Codes of length 07 bits (003 total): 13 41 51
Codes of length 08 bits (002 total): 22 30
Codes of length 09 bits (005 total): 32 42 52 61 71
Codes of length 10 bits (004 total): 05 14 23 81
Codes of length 11 bits (002 total): 40 91
Codes of length 12 bits (001 total): 72
Codes of length 13 bits (005 total): 24 33 62 A1 B1
Codes of length 14 bits (001 total): 15
Codes of length 15 bits (001 total): 34
Codes of length 16 bits (000 total):
Total number of codes: 035
*** Marker: SOS (Start of Scan) (xFFDA) ***
OFFSET: 0x00007D6A
Scan header length = 8
Number of img components = 1
Component[1]: selector=0x02, table=0(DC),1(AC)
Spectral selection = 1 .. 63
Successive approximation = 0x00
NOTE: Scan parsing doesn't support this SOF mode.
*** Marker: DHT (Define Huffman Table) (xFFC4) ***
OFFSET: 0x0000A480
Huffman table length = 57
----
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 (002 total): 02 11
Codes of length 04 bits (001 total): 03
Codes of length 05 bits (003 total): 10 21 31
Codes of length 06 bits (003 total): 04 12 20
Codes of length 07 bits (003 total): 13 41 51
Codes of length 08 bits (003 total): 05 22 61
Codes of length 09 bits (003 total): 06 32 71
Codes of length 10 bits (002 total): 30 81
Codes of length 11 bits (006 total): 14 23 40 42 52 91
Codes of length 12 bits (002 total): 33 62
Codes of length 13 bits (001 total): A1
Codes of length 14 bits (004 total): 15 24 34 72
Codes of length 15 bits (003 total): 25 53 C1
Codes of length 16 bits (000 total):
Total number of codes: 038
*** Marker: SOS (Start of Scan) (xFFDA) ***
OFFSET: 0x0000A4BB
Scan header length = 8
Number of img components = 1
Component[1]: selector=0x03, table=0(DC),1(AC)
Spectral selection = 1 .. 63
Successive approximation = 0x00
NOTE: Scan parsing doesn't support this SOF mode.
*** Marker: DHT (Define Huffman Table) (xFFC4) ***
OFFSET: 0x0000D0AD
Huffman table length = 63
----
Destination ID = 0
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): 10 12 21 31
Codes of length 06 bits (004 total): 04 13 20 41
Codes of length 07 bits (004 total): 22 30 32 51
Codes of length 08 bits (004 total): 05 40 61 71
Codes of length 09 bits (005 total): 14 23 42 50 52
Codes of length 10 bits (003 total): 15 33 81
Codes of length 11 bits (003 total): 43 53 91
Codes of length 12 bits (003 total): 24 34 62
Codes of length 13 bits (004 total): 72 A1 B1 C1
Codes of length 14 bits (002 total): 63 82
Codes of length 15 bits (003 total): 44 D1 F1
Codes of length 16 bits (000 total):
Total number of codes: 044
*** Marker: SOS (Start of Scan) (xFFDA) ***
OFFSET: 0x0000D0EE
Scan header length = 8
Number of img components = 1
Component[1]: selector=0x01, table=0(DC),0(AC)
Spectral selection = 1 .. 63
Successive approximation = 0x02
NOTE: Scan parsing doesn't support this SOF mode.
*** Marker: DHT (Define Huffman Table) (xFFC4) ***
OFFSET: 0x000149E9
Huffman table length = 42
----
Destination ID = 0
Class = 1 (AC Table)
Codes of length 01 bits (000 total):
Codes of length 02 bits (003 total): 00 01 11
Codes of length 03 bits (000 total):
Codes of length 04 bits (002 total): 10 21
Codes of length 05 bits (002 total): 31 41
Codes of length 06 bits (002 total): 20 51
Codes of length 07 bits (002 total): 61 71
Codes of length 08 bits (002 total): 30 81
Codes of length 09 bits (002 total): 91 A1
Codes of length 10 bits (002 total): 40 B1
Codes of length 11 bits (002 total): 50 C1
Codes of length 12 bits (003 total): D1 E1 F1
Codes of length 13 bits (001 total): F0
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: 023
*** Marker: SOS (Start of Scan) (xFFDA) ***
OFFSET: 0x00014A15
Scan header length = 8
Number of img components = 1
Component[1]: selector=0x01, table=0(DC),0(AC)
Spectral selection = 1 .. 63
Successive approximation = 0x21
NOTE: Scan parsing doesn't support this SOF mode.
*** Marker: DHT (Define Huffman Table) (xFFC4) ***
OFFSET: 0x0001C386
Huffman table length = 42
----
Destination ID = 0
Class = 1 (AC Table)
Codes of length 01 bits (001 total): 01
Codes of length 02 bits (001 total): 00
Codes of length 03 bits (001 total): 11
Codes of length 04 bits (000 total):
Codes of length 05 bits (002 total): 21 31
Codes of length 06 bits (002 total): 10 41
Codes of length 07 bits (002 total): 51 61
Codes of length 08 bits (002 total): 71 81
Codes of length 09 bits (002 total): 20 91
Codes of length 10 bits (002 total): A1 B1
Codes of length 11 bits (002 total): 40 50
Codes of length 12 bits (003 total): 30 C1 D1
Codes of length 13 bits (001 total): E1
Codes of length 14 bits (001 total): F1
Codes of length 15 bits (001 total): F0
Codes of length 16 bits (000 total):
Total number of codes: 023
*** Marker: SOS (Start of Scan) (xFFDA) ***
OFFSET: 0x0001C3B2
Scan header length = 8
Number of img components = 1
Component[1]: selector=0x01, table=0(DC),0(AC)
Spectral selection = 1 .. 63
Successive approximation = 0x10
NOTE: Scan parsing doesn't support this SOF mode.
*** Marker: EOI (End of Image) (xFFD9) ***
OFFSET: 0x00029397
*** Searching Compression Signatures ***
Signature: 014D6128740A2927C9914C433E852F5A
Signature (Rotated): 014D6128740A2927C9914C433E852F5A
File Offset: 0 bytes
Chroma subsampling: 2x2
EXIF Make/Model: NONE
EXIF Makernotes: NONE
EXIF Software: NONE
Searching Compression Signatures: (3347 built-in, 0 user(*) )
EXIF.Make / Software EXIF.Model Quality Subsamp Match?
------------------------- ----------------------------------- ---------------- --------------
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]
JPEGsnoop 1.8.0 by Calvin Hass
http://www.impulseadventure.com/photo/
-------------------------------------
Filename: [G E L O E S C H T durch IMS] → BILD 2
Filesize: [335500] 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: DQT (xFFDB) ***
Define a Quantization Table.
OFFSET: 0x00000014
Table length = 67
----
Precision=8 bits
Destination ID=0 (Luminance)
DQT, Row #0: 8 6 5 8 12 20 26 31
DQT, Row #1: 6 6 7 10 13 29 30 28
DQT, Row #2: 7 7 8 12 20 29 35 28
DQT, Row #3: 7 9 11 15 26 44 40 31
DQT, Row #4: 9 11 19 28 34 55 52 39
DQT, Row #5: 12 18 28 32 41 52 57 46
DQT, Row #6: 25 32 39 44 52 61 60 51
DQT, Row #7: 36 46 48 49 56 50 52 50
Approx quality factor = 74.75 (scaling=50.51 variance=0.81)
*** Marker: DQT (xFFDB) ***
Define a Quantization Table.
OFFSET: 0x00000059
Table length = 67
----
Precision=8 bits
Destination ID=1 (Chrominance)
DQT, Row #0: 9 9 12 24 50 50 50 50
DQT, Row #1: 9 11 13 33 50 50 50 50
DQT, Row #2: 12 13 28 50 50 50 50 50
DQT, Row #3: 24 33 50 50 50 50 50 50
DQT, Row #4: 50 50 50 50 50 50 50 50
DQT, Row #5: 50 50 50 50 50 50 50 50
DQT, Row #6: 50 50 50 50 50 50 50 50
DQT, Row #7: 50 50 50 50 50 50 50 50
Approx quality factor = 74.74 (scaling=50.52 variance=0.19)
*** Marker: SOF2 (Progressive DCT, Huffman) (xFFC2) ***
OFFSET: 0x0000009E
Frame header length = 17
Precision = 8
Number of Lines = 1600
Samples per Line = 1200
Image Size = 1200 x 1600
Raw Image Orientation = Portrait
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: 0x000000B1
Huffman table length = 26
----
Destination ID = 0
Class = 0 (DC / Lossless Table)
Codes of length 01 bits (000 total):
Codes of length 02 bits (003 total): 01 02 03
Codes of length 03 bits (001 total): 00
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 (000 total):
Codes of length 08 bits (000 total):
Codes of length 09 bits (000 total):
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: 007
*** Marker: DHT (Define Huffman Table) (xFFC4) ***
OFFSET: 0x000000CD
Huffman table length = 24
----
Destination ID = 1
Class = 0 (DC / Lossless Table)
Codes of length 01 bits (001 total): 00
Codes of length 02 bits (001 total): 01
Codes of length 03 bits (001 total): 02
Codes of length 04 bits (001 total): 03
Codes of length 05 bits (001 total): 04
Codes of length 06 bits (000 total):
Codes of length 07 bits (000 total):
Codes of length 08 bits (000 total):
Codes of length 09 bits (000 total):
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: 005
*** Marker: SOS (Start of Scan) (xFFDA) ***
OFFSET: 0x000000E7
Scan header length = 12
Number of img components = 3
Component[1]: selector=0x01, table=0(DC),0(AC)
Component[2]: selector=0x02, table=1(DC),0(AC)
Component[3]: selector=0x03, table=1(DC),0(AC)
Spectral selection = 0 .. 0
Successive approximation = 0x02
NOTE: Scan parsing doesn't support this SOF mode.
*** Marker: SOS (Start of Scan) (xFFDA) ***
OFFSET: 0x00004C4D
Scan header length = 12
Number of img components = 3
Component[1]: selector=0x01, table=0(DC),0(AC)
Component[2]: selector=0x02, table=0(DC),0(AC)
Component[3]: selector=0x03, table=0(DC),0(AC)
Spectral selection = 0 .. 0
Successive approximation = 0x21
NOTE: Scan parsing doesn't support this SOF mode.
*** Marker: SOS (Start of Scan) (xFFDA) ***
OFFSET: 0x0000626D
Scan header length = 12
Number of img components = 3
Component[1]: selector=0x01, table=0(DC),0(AC)
Component[2]: selector=0x02, table=0(DC),0(AC)
Component[3]: selector=0x03, table=0(DC),0(AC)
Spectral selection = 0 .. 0
Successive approximation = 0x10
NOTE: Scan parsing doesn't support this SOF mode.
*** Marker: DHT (Define Huffman Table) (xFFC4) ***
OFFSET: 0x0000788C
Huffman table length = 42
----
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 (002 total): 02 11
Codes of length 04 bits (002 total): 10 21
Codes of length 05 bits (001 total): 31
Codes of length 06 bits (004 total): 03 12 20 41
Codes of length 07 bits (002 total): 30 51
Codes of length 08 bits (002 total): 13 22
Codes of length 09 bits (003 total): 04 32 61
Codes of length 10 bits (001 total): 40
Codes of length 11 bits (001 total): 71
Codes of length 12 bits (001 total): 42
Codes of length 13 bits (001 total): 52
Codes of length 14 bits (001 total): D1
Codes of length 15 bits (000 total):
Codes of length 16 bits (000 total):
Total number of codes: 023
*** Marker: SOS (Start of Scan) (xFFDA) ***
OFFSET: 0x000078B8
Scan header length = 8
Number of img components = 1
Component[1]: selector=0x02, table=0(DC),1(AC)
Spectral selection = 1 .. 63
Successive approximation = 0x00
NOTE: Scan parsing doesn't support this SOF mode.
*** Marker: DHT (Define Huffman Table) (xFFC4) ***
OFFSET: 0x00009455
Huffman table length = 41
----
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 (002 total): 02 11
Codes of length 04 bits (002 total): 10 21
Codes of length 05 bits (002 total): 12 31
Codes of length 06 bits (002 total): 20 41
Codes of length 07 bits (002 total): 03 51
Codes of length 08 bits (001 total): 61
Codes of length 09 bits (005 total): 04 13 22 30 71
Codes of length 10 bits (001 total): 32
Codes of length 11 bits (001 total): 14
Codes of length 12 bits (001 total): 42
Codes of length 13 bits (001 total): 81
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: 022
*** Marker: SOS (Start of Scan) (xFFDA) ***
OFFSET: 0x00009480
Scan header length = 8
Number of img components = 1
Component[1]: selector=0x03, table=0(DC),1(AC)
Spectral selection = 1 .. 63
Successive approximation = 0x00
NOTE: Scan parsing doesn't support this SOF mode.
*** Marker: DHT (Define Huffman Table) (xFFC4) ***
OFFSET: 0x0000B46B
Huffman table length = 73
----
Destination ID = 0
Class = 1 (AC Table)
Codes of length 01 bits (000 total):
Codes of length 02 bits (001 total): 01
Codes of length 03 bits (003 total): 00 02 11
Codes of length 04 bits (003 total): 03 12 21
Codes of length 05 bits (002 total): 31 41
Codes of length 06 bits (005 total): 04 10 13 22 51
Codes of length 07 bits (002 total): 32 61
Codes of length 08 bits (004 total): 20 42 71 81
Codes of length 09 bits (005 total): 05 14 23 52 91
Codes of length 10 bits (003 total): 30 33 A1
Codes of length 11 bits (002 total): 62 B1
Codes of length 12 bits (002 total): 24 C1
Codes of length 13 bits (008 total): 15 34 40 43 53 72 D1 E1
Codes of length 14 bits (005 total): 63 82 83 92 A2
Codes of length 15 bits (002 total): F0 44
Codes of length 16 bits (007 total): 06 25 73 B2 C2 F1 F2
Total number of codes: 054
*** Marker: SOS (Start of Scan) (xFFDA) ***
OFFSET: 0x0000B4B6
Scan header length = 8
Number of img components = 1
Component[1]: selector=0x01, table=0(DC),0(AC)
Spectral selection = 1 .. 63
Successive approximation = 0x02
NOTE: Scan parsing doesn't support this SOF mode.
*** Marker: DHT (Define Huffman Table) (xFFC4) ***
OFFSET: 0x0001EF15
Huffman table length = 41
----
Destination ID = 0
Class = 1 (AC Table)
Codes of length 01 bits (001 total): 01
Codes of length 02 bits (000 total):
Codes of length 03 bits (002 total): 00 11
Codes of length 04 bits (002 total): 21 31
Codes of length 05 bits (002 total): 41 51
Codes of length 06 bits (002 total): 61 71
Codes of length 07 bits (002 total): 10 81
Codes of length 08 bits (002 total): 91 A1
Codes of length 09 bits (002 total): 20 B1
Codes of length 10 bits (002 total): C1 D1
Codes of length 11 bits (003 total): 30 E1 F0
Codes of length 12 bits (001 total): F1
Codes of length 13 bits (001 total): 40
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: 022
*** Marker: SOS (Start of Scan) (xFFDA) ***
OFFSET: 0x0001EF40
Scan header length = 8
Number of img components = 1
Component[1]: selector=0x01, table=0(DC),0(AC)
Spectral selection = 1 .. 63
Successive approximation = 0x21
NOTE: Scan parsing doesn't support this SOF mode.
*** Marker: DHT (Define Huffman Table) (xFFC4) ***
OFFSET: 0x0003207C
Huffman table length = 40
----
Destination ID = 0
Class = 1 (AC Table)
Codes of length 01 bits (001 total): 01
Codes of length 02 bits (000 total):
Codes of length 03 bits (002 total): 00 11
Codes of length 04 bits (002 total): 21 31
Codes of length 05 bits (002 total): 41 51
Codes of length 06 bits (002 total): 61 71
Codes of length 07 bits (001 total): 81
Codes of length 08 bits (004 total): 91 A1 B1 C1
Codes of length 09 bits (003 total): 10 D1 E1
Codes of length 10 bits (001 total): F0
Codes of length 11 bits (001 total): F1
Codes of length 12 bits (001 total): 20
Codes of length 13 bits (001 total): 30
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: 021
*** Marker: SOS (Start of Scan) (xFFDA) ***
OFFSET: 0x000320A6
Scan header length = 8
Number of img components = 1
Component[1]: selector=0x01, table=0(DC),0(AC)
Spectral selection = 1 .. 63
Successive approximation = 0x10
NOTE: Scan parsing doesn't support this SOF mode.
*** Marker: COM (Comment) (xFFFE) ***
OFFSET: 0x00051E85
Comment length = 3
Comment=.
*** Marker: EOI (End of Image) (xFFD9) ***
OFFSET: 0x00051E8A
*** Searching Compression Signatures ***
Signature: 0182408A81A4ABF04D4A34A8A5E98C58
Signature (Rotated): 012D821C6AB210E2A753BE053B8F55D0
File Offset: 0 bytes
Chroma subsampling: 2x2
EXIF Make/Model: NONE
EXIF Makernotes: NONE
EXIF Software: NONE
Searching Compression Signatures: (3347 built-in, 0 user(*) )
EXIF.Make / Software EXIF.Model Quality Subsamp Match?
------------------------- ----------------------------------- ---------------- --------------
CAM:[SONY ] [CYBERSHOT U ] [ ] Yes
SW :[Adobe Photoshop 7.0 ] [Save As 07 ]
SW :[Apple Quicktime ] [0466-0467 ]
SW :[Digital Photo Professiona] [05 ]
SW :[IJG Library ] [075 ]
SW :[MS Paint ] [ ]
SW :[MS Visio ] [ ]
SW :[ZoomBrowser EX ] [low ]
The following IJG-based editors also match this signature:
SW :[GIMP ] [075 ]
SW :[IrfanView ] [075 ]
SW :[idImager ] [075 ]
SW :[FastStone Image Viewer ] [075 ]
SW :[NeatImage ] [075 ]
SW :[Paint.NET ] [075 ]
SW :[Photomatix ] [075 ]
SW :[XnView ] [075 ]
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]
Dann wird es für Dich schwer sein, eine Analyse zu machen...Leider verstehe ich nur die Hälfte von dem was Ihr da sagt.