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	.TH SIFT 1 "" "VLFeat" "VLFeat"
	.\" ------------------------------------------------------------------
	.SH NAME
	.\" ------------------------------------------------------------------
	sift \- Scale Invariant Feature Transform
	.\" ------------------------------------------------------------------
	.SH SYNOPSIS
	.\" ------------------------------------------------------------------
	.B sift
	.RI [ options ]
	FILE .\\|.\\|.
	.\" ------------------------------------------------------------------
	.SH OPTIONS
	.\" ------------------------------------------------------------------
	.TP
	.B \-v\fR,\fP \-\^\-verbose
	Increase verbosity level (may be repeated).
	.TP
	.B \-h\fR,\fP \-\^\-help
	Show options and version.
	.TP
	.BI \-\^\-output "\fR[=\fPFILESPEC\fR],\fP " \-o FILESPEC
	Enable/specify seeds output.
	.TP
	.BI \-\^\-frames \fR[=\fPFILESPEC\fR]\fP
	Enable/specify frames output.
	.TP
	.BI \-\^\-descriptors \fR[=\fPFILESPEC\fR]\fP
	Enable/specify descriptors output.
	.TP
	.BI \-\^\-gss \fR[=\fPFILESPEC\fR]\fP
	Enable/specify the Gaussian Scale Space (GSS) output.
	.TP
	.BI \-\^\-meta \fR[=\fPFILESPEC\fR]\fP
	Enable/specify meta output.
	.TP
	.BI \-\^\-first-octave \fR=\fPINTEGER
	Specifiy the index of the first octave of the GSS.
	.TP
	.BI \-\^\-edge-thresh \fR=\fPREAL
	Specify the edge threshold.
	.TP
	.BI \-\^\-peak-thresh \fR=\fPREAL
	Specify the peak threshold.
	.TP
	.BI \-\^\-read-frames \fR[=\fPFILESPEC\fR]\fP
	Enable/specify reading the frames from a file.
	.B \-\^\-orientations
	Force the computation of the frame orientations.
	.\" ------------------------------------------------------------------
	.SH DESCRIPTION
	.\" ------------------------------------------------------------------
	.B sift
	computes the
	.I Scale Invariant Feature Transform (SIFT).
	\. In the simplest case,
	.B sift
	reads an image file (in PGM format), computes the SIFT frames and
	their descriptors and write them to a file. Alternatively,
	.B --frames
	option can be used to suppress the standard output and produce a file
	with the feature frames only. Similarly,
	.B --descriptors
	suppresses the standard output and produce a file of descriptors only.
	.B --output
	can be used in combination with the previous too if the combined
	output of frames and descriptors is required.
	.P
	The
	.B --read-frames
	option bypasses the SIFT detector and reads the frames from the
	specified file. This option can be used iin combination with
	.B --orientations
	to read the frames but calculate their orientations anyway. Both option
	do not change how the frames and the descriptors are written to disk.
	Notice that if
	.B --orientations
	is used, the number of frames may change if multiple orientations are detected).
	.P
	A frame is an oriented ellipse (also called affine frame) and is
	specified by 6 floating point numbers (in order: coordinate of the
	center
	.I x
	and
	.I y,
	and elements
	.IR A11 ,
	.IR A21 ,
	.IR A21 ,
	.I A22
	of the matrix mapping the unit circle to the ellipse). A feature
	descriptor is an histogram. It is specifyied by 128 non-negative
	integer numbers.
	.P
	.B sift
	can process multiple images and derive the names of the various output
	files by means of
	.I FILESPEC
	(see
	.BR vlfeat (7)).
	Both frames and descriptors can be saved/loaded either in ascii or binary
	format.
	.
	.TP
	Ascii format
	.
	Each descriptor is a list of 128 decimal numbers and
	occupies a line of text. Each frame is a list of 5 numbers,
	specifying an elliptical frame, one per line of text. The combined
	output file (with both frames and descriptors) stores a frame
	.I and
	the corresponding descriptor for each line of text.
	.
	.TP
	Binary format
	.
	The binary format is similar to the ASCII format, except
	that each frame element is stored as an IEEE double floating point
	number (eight bytes) and each descriptor element is stored as an
	unsiged integer (one byte). The data is written in little
	endian order.
	.
	.\" ------------------------------------------------------------------
	.SH EXAMPLES
	.\" ------------------------------------------------------------------
	.TP
	sift test.pgm --peak-thresh=0.03
	Caluclates the SIFT frames and descriptors of image
	.I /tmp/myimage.pgm
	with peak threshold equal to 0.03
	and save them back to
	.I test.sift
	in ascii format.
	.TP
	sift test.pgm --frames
	Writes the frames to
	.I
	test.frame
	in ascii format and does not compute the descriptors.
	.
	.TP
	sift test.pgm --descriptors=bin://
	writes only the frames to
	.IR test.descr.
	in binary format.
	.
	.TP
	sift test.pgm \-\^\-frames=my.frames -o bin:///tmp/%.sift
	writes the frames in ascii format to
	.I my.frames
	and the combined frames-descriptors file in binary format to
	.IR /tmp/test.sift .
	.
	.TP
	sift test1.pgm test2.pgm \-\^\-read-frames=bin:/tmp/%.key
	reads the
	frames of images
	.I test1.pgm
	and
	.I test2.pgm
	from the binary files
	.I /tmp/test1.key
	and
	.I /tmp/test2.key
	and writes the frames and their descriptors to the files
	.I test1.sift
	and
	.I test2.sift
	respectively.
	.
	.\" ------------------------------------------------------------------
	.SH SEE ALSO
	.\" ------------------------------------------------------------------
	.BR vlfeat (7).

	D. G. Lowe.
	Distinctive image features from scale-invariant keypoints.
	.IR IJCV ,
	2(60):91-110, 2004.