id	sid	tid	token	lemma	pos
k930bv76j74	1	1	one	one	NUM
k930bv76j74	1	2	of	of	ADP
k930bv76j74	1	3	the	the	DET
k930bv76j74	1	4	major	major	ADJ
k930bv76j74	1	5	quantities	quantity	NOUN
k930bv76j74	1	6	of	of	ADP
k930bv76j74	1	7	interest	interest	NOUN
k930bv76j74	1	8	for	for	ADP
k930bv76j74	1	9	airborne	airborne	ADJ
k930bv76j74	1	10	laser	laser	NOUN
k930bv76j74	1	11	systems	system	NOUN
k930bv76j74	1	12	is	be	AUX
k930bv76j74	1	13	the	the	DET
k930bv76j74	1	14	unsteady	unsteady	ADJ
k930bv76j74	1	15	variation	variation	NOUN
k930bv76j74	1	16	in	in	ADP
k930bv76j74	1	17	pointing	point	VERB
k930bv76j74	1	18	direction	direction	NOUN
k930bv76j74	1	19	of	of	ADP
k930bv76j74	1	20	the	the	DET
k930bv76j74	1	21	beam	beam	NOUN
k930bv76j74	1	22	,	,	PUNCT
k930bv76j74	1	23	or	or	CCONJ
k930bv76j74	1	24	jitter	jitter	NOUN
k930bv76j74	1	25	.	.	PUNCT
k930bv76j74	2	1	in	in	ADP
k930bv76j74	2	2	airborne	airborne	ADJ
k930bv76j74	2	3	laser	laser	NOUN
k930bv76j74	2	4	systems	system	NOUN
k930bv76j74	2	5	,	,	PUNCT
k930bv76j74	2	6	the	the	DET
k930bv76j74	2	7	beam	beam	NOUN
k930bv76j74	2	8	jitter	jitter	NOUN
k930bv76j74	2	9	is	be	AUX
k930bv76j74	2	10	usually	usually	ADV
k930bv76j74	2	11	thought	think	VERB
k930bv76j74	2	12	of	of	ADP
k930bv76j74	2	13	as	as	SCONJ
k930bv76j74	2	14	sourced	source	VERB
k930bv76j74	2	15	from	from	ADP
k930bv76j74	2	16	two	two	NUM
k930bv76j74	2	17	components	component	NOUN
k930bv76j74	2	18	.	.	PUNCT
k930bv76j74	3	1	the	the	DET
k930bv76j74	3	2	component	component	NOUN
k930bv76j74	3	3	of	of	ADP
k930bv76j74	3	4	the	the	DET
k930bv76j74	3	5	jitter	jitter	NOUN
k930bv76j74	3	6	caused	cause	VERB
k930bv76j74	3	7	by	by	ADP
k930bv76j74	3	8	mechanical	mechanical	ADJ
k930bv76j74	3	9	vibration	vibration	NOUN
k930bv76j74	3	10	of	of	ADP
k930bv76j74	3	11	the	the	DET
k930bv76j74	3	12	optical	optical	ADJ
k930bv76j74	3	13	table	table	NOUN
k930bv76j74	3	14	,	,	PUNCT
k930bv76j74	3	15	optical	optical	ADJ
k930bv76j74	3	16	elements	element	NOUN
k930bv76j74	3	17	,	,	PUNCT
k930bv76j74	3	18	etc	etc	X
k930bv76j74	3	19	.	.	X
k930bv76j74	3	20	is	be	AUX
k930bv76j74	3	21	called	call	VERB
k930bv76j74	3	22	mechanical	mechanical	ADJ
k930bv76j74	3	23	jitter	jitter	NOUN
k930bv76j74	3	24	.	.	PUNCT
k930bv76j74	4	1	the	the	DET
k930bv76j74	4	2	component	component	NOUN
k930bv76j74	4	3	of	of	ADP
k930bv76j74	4	4	jitter	jitter	NOUN
k930bv76j74	4	5	caused	cause	VERB
k930bv76j74	4	6	by	by	ADP
k930bv76j74	4	7	flow	flow	NOUN
k930bv76j74	4	8	structures	structure	NOUN
k930bv76j74	4	9	on	on	ADP
k930bv76j74	4	10	the	the	DET
k930bv76j74	4	11	order	order	NOUN
k930bv76j74	4	12	of	of	ADP
k930bv76j74	4	13	the	the	DET
k930bv76j74	4	14	aperture	aperture	NOUN
k930bv76j74	4	15	size	size	NOUN
k930bv76j74	4	16	is	be	AUX
k930bv76j74	4	17	called	call	VERB
k930bv76j74	4	18	the	the	DET
k930bv76j74	4	19	aero	aero	NOUN
k930bv76j74	4	20	-	-	PUNCT
k930bv76j74	4	21	optical	optical	ADJ
k930bv76j74	4	22	jitter	jitter	NOUN
k930bv76j74	4	23	.	.	PUNCT
k930bv76j74	5	1	in	in	ADP
k930bv76j74	5	2	typical	typical	ADJ
k930bv76j74	5	3	experiments	experiment	NOUN
k930bv76j74	5	4	,	,	PUNCT
k930bv76j74	5	5	information	information	NOUN
k930bv76j74	5	6	pertaining	pertain	VERB
k930bv76j74	5	7	to	to	ADP
k930bv76j74	5	8	the	the	DET
k930bv76j74	5	9	aero	aero	NOUN
k930bv76j74	5	10	-	-	PUNCT
k930bv76j74	5	11	optical	optical	ADJ
k930bv76j74	5	12	component	component	NOUN
k930bv76j74	5	13	of	of	ADP
k930bv76j74	5	14	the	the	DET
k930bv76j74	5	15	jitter	jitter	NOUN
k930bv76j74	5	16	is	be	AUX
k930bv76j74	5	17	almost	almost	ADV
k930bv76j74	5	18	always	always	ADV
k930bv76j74	5	19	corrupted	corrupt	VERB
k930bv76j74	5	20	by	by	ADP
k930bv76j74	5	21	mechanical	mechanical	ADJ
k930bv76j74	5	22	disturbances	disturbance	NOUN
k930bv76j74	5	23	and	and	CCONJ
k930bv76j74	5	24	is	be	AUX
k930bv76j74	5	25	typically	typically	ADV
k930bv76j74	5	26	removed	remove	VERB
k930bv76j74	5	27	from	from	ADP
k930bv76j74	5	28	the	the	DET
k930bv76j74	5	29	data	datum	NOUN
k930bv76j74	5	30	.	.	PUNCT
k930bv76j74	6	1	in	in	ADP
k930bv76j74	6	2	this	this	DET
k930bv76j74	6	3	work	work	NOUN
k930bv76j74	6	4	an	an	DET
k930bv76j74	6	5	algorithm	algorithm	NOUN
k930bv76j74	6	6	was	be	AUX
k930bv76j74	6	7	developed	develop	VERB
k930bv76j74	6	8	that	that	PRON
k930bv76j74	6	9	takes	take	VERB
k930bv76j74	6	10	advantage	advantage	NOUN
k930bv76j74	6	11	of	of	ADP
k930bv76j74	6	12	the	the	DET
k930bv76j74	6	13	advective	advective	ADJ
k930bv76j74	6	14	nature	nature	NOUN
k930bv76j74	6	15	of	of	ADP
k930bv76j74	6	16	aberrations	aberration	NOUN
k930bv76j74	6	17	to	to	PART
k930bv76j74	6	18	compensate	compensate	VERB
k930bv76j74	6	19	for	for	ADP
k930bv76j74	6	20	the	the	DET
k930bv76j74	6	21	tip	tip	NOUN
k930bv76j74	6	22	,	,	PUNCT
k930bv76j74	6	23	tilt	tilt	NOUN
k930bv76j74	6	24	,	,	PUNCT
k930bv76j74	6	25	and	and	CCONJ
k930bv76j74	6	26	piston	piston	NOUN
k930bv76j74	6	27	removal	removal	NOUN
k930bv76j74	6	28	in	in	ADP
k930bv76j74	6	29	experiment	experiment	NOUN
k930bv76j74	6	30	.	.	PUNCT
k930bv76j74	7	1	the	the	DET
k930bv76j74	7	2	algorithm	algorithm	PROPN
k930bv76j74	7	3	is	be	AUX
k930bv76j74	7	4	able	able	ADJ
k930bv76j74	7	5	to	to	PART
k930bv76j74	7	6	recover	recover	VERB
k930bv76j74	7	7	the	the	DET
k930bv76j74	7	8	aero	aero	NOUN
k930bv76j74	7	9	-	-	PUNCT
k930bv76j74	7	10	optical	optical	ADJ
k930bv76j74	7	11	component	component	NOUN
k930bv76j74	7	12	of	of	ADP
k930bv76j74	7	13	the	the	DET
k930bv76j74	7	14	jitter	jitter	NOUN
k930bv76j74	7	15	and	and	CCONJ
k930bv76j74	7	16	to	to	PART
k930bv76j74	7	17	provide	provide	VERB
k930bv76j74	7	18	time	time	NOUN
k930bv76j74	7	19	series	series	NOUN
k930bv76j74	7	20	of	of	ADP
k930bv76j74	7	21	global	global	ADJ
k930bv76j74	7	22	tilt	tilt	NOUN
k930bv76j74	7	23	free	free	ADJ
k930bv76j74	7	24	of	of	ADP
k930bv76j74	7	25	mechanical	mechanical	ADJ
k930bv76j74	7	26	disturbances	disturbance	NOUN
k930bv76j74	7	27	.	.	PUNCT
k930bv76j74	8	1	this	this	DET
k930bv76j74	8	2	algorithm	algorithm	NOUN
k930bv76j74	8	3	is	be	AUX
k930bv76j74	8	4	called	call	VERB
k930bv76j74	8	5	the	the	DET
k930bv76j74	8	6	stitching	stitching	NOUN
k930bv76j74	8	7	method	method	NOUN
k930bv76j74	8	8	.	.	PUNCT
k930bv76j74	9	1	the	the	DET
k930bv76j74	9	2	stitching	stitching	NOUN
k930bv76j74	9	3	method	method	NOUN
k930bv76j74	9	4	was	be	AUX
k930bv76j74	9	5	extensively	extensively	ADV
k930bv76j74	9	6	modeled	model	VERB
k930bv76j74	9	7	using	use	VERB
k930bv76j74	9	8	a	a	DET
k930bv76j74	9	9	sine	sine	ADJ
k930bv76j74	9	10	wave	wave	NOUN
k930bv76j74	9	11	with	with	ADP
k930bv76j74	9	12	added	add	VERB
k930bv76j74	9	13	noise	noise	NOUN
k930bv76j74	9	14	as	as	ADP
k930bv76j74	9	15	a	a	DET
k930bv76j74	9	16	surrogate	surrogate	ADJ
k930bv76j74	9	17	wavefront	wavefront	NOUN
k930bv76j74	9	18	.	.	PUNCT
k930bv76j74	10	1	experiments	experiment	NOUN
k930bv76j74	10	2	were	be	AUX
k930bv76j74	10	3	conducted	conduct	VERB
k930bv76j74	10	4	in	in	ADP
k930bv76j74	10	5	notre	notre	PROPN
k930bv76j74	10	6	dame	dame	NOUN
k930bv76j74	10	7	's	's	PART
k930bv76j74	10	8	tri	tri	ADJ
k930bv76j74	10	9	-	-	ADJ
k930bv76j74	10	10	sonic	sonic	ADJ
k930bv76j74	10	11	wind	wind	NOUN
k930bv76j74	10	12	tunnel	tunnel	NOUN
k930bv76j74	10	13	(	(	PUNCT
k930bv76j74	10	14	twt	twt	PROPN
k930bv76j74	10	15	)	)	PUNCT
k930bv76j74	10	16	facility	facility	NOUN
k930bv76j74	10	17	.	.	PUNCT
k930bv76j74	11	1	optical	optical	ADJ
k930bv76j74	11	2	wavefront	wavefront	ADJ
k930bv76j74	11	3	measurements	measurement	NOUN
k930bv76j74	11	4	were	be	AUX
k930bv76j74	11	5	conducted	conduct	VERB
k930bv76j74	11	6	on	on	ADP
k930bv76j74	11	7	a	a	DET
k930bv76j74	11	8	mach	mach	NOUN
k930bv76j74	11	9	0.6/0.1	0.6/0.1	NUM
k930bv76j74	11	10	shear	shear	ADJ
k930bv76j74	11	11	layer	layer	NOUN
k930bv76j74	11	12	and	and	CCONJ
k930bv76j74	11	13	mach	mach	NOUN
k930bv76j74	11	14	0.2	0.2	NUM
k930bv76j74	11	15	boundary	boundary	ADJ
k930bv76j74	11	16	layer	layer	NOUN
k930bv76j74	11	17	.	.	PUNCT
k930bv76j74	12	1	in	in	ADP
k930bv76j74	12	2	the	the	DET
k930bv76j74	12	3	mach	mach	NOUN
k930bv76j74	12	4	0.6/0.1	0.6/0.1	NUM
k930bv76j74	12	5	shear	shear	ADJ
k930bv76j74	12	6	layer	layer	NOUN
k930bv76j74	12	7	experiment	experiment	NOUN
k930bv76j74	12	8	voice	voice	NOUN
k930bv76j74	12	9	coil	coil	NOUN
k930bv76j74	12	10	actuators	actuator	NOUN
k930bv76j74	12	11	were	be	AUX
k930bv76j74	12	12	placed	place	VERB
k930bv76j74	12	13	on	on	ADP
k930bv76j74	12	14	the	the	DET
k930bv76j74	12	15	splitter	splitter	NOUN
k930bv76j74	12	16	plate	plate	NOUN
k930bv76j74	12	17	to	to	PART
k930bv76j74	12	18	regularize	regularize	VERB
k930bv76j74	12	19	the	the	DET
k930bv76j74	12	20	shear	shear	ADJ
k930bv76j74	12	21	layer	layer	NOUN
k930bv76j74	12	22	.	.	PUNCT
k930bv76j74	13	1	optical	optical	ADJ
k930bv76j74	13	2	data	datum	NOUN
k930bv76j74	13	3	for	for	ADP
k930bv76j74	13	4	both	both	DET
k930bv76j74	13	5	forced	force	VERB
k930bv76j74	13	6	and	and	CCONJ
k930bv76j74	13	7	unforced	unforced	ADJ
k930bv76j74	13	8	shear	shear	ADJ
k930bv76j74	13	9	layers	layer	NOUN
k930bv76j74	13	10	were	be	AUX
k930bv76j74	13	11	collected	collect	VERB
k930bv76j74	13	12	.	.	PUNCT
k930bv76j74	14	1	the	the	DET
k930bv76j74	14	2	stitching	stitching	NOUN
k930bv76j74	14	3	method	method	NOUN
k930bv76j74	14	4	was	be	AUX
k930bv76j74	14	5	used	use	VERB
k930bv76j74	14	6	to	to	PART
k930bv76j74	14	7	recover	recover	VERB
k930bv76j74	14	8	the	the	DET
k930bv76j74	14	9	aero	aero	NOUN
k930bv76j74	14	10	-	-	PUNCT
k930bv76j74	14	11	optical	optical	ADJ
k930bv76j74	14	12	component	component	NOUN
k930bv76j74	14	13	of	of	ADP
k930bv76j74	14	14	the	the	DET
k930bv76j74	14	15	jitter	jitter	NOUN
k930bv76j74	14	16	for	for	ADP
k930bv76j74	14	17	the	the	DET
k930bv76j74	14	18	experiments	experiment	NOUN
k930bv76j74	14	19	described	describe	VERB
k930bv76j74	14	20	.	.	PUNCT
k930bv76j74	15	1	the	the	DET
k930bv76j74	15	2	predicted	predict	VERB
k930bv76j74	15	3	results	result	NOUN
k930bv76j74	15	4	for	for	ADP
k930bv76j74	15	5	the	the	DET
k930bv76j74	15	6	rms	rm	NOUN
k930bv76j74	15	7	of	of	ADP
k930bv76j74	15	8	the	the	DET
k930bv76j74	15	9	aero	aero	NOUN
k930bv76j74	15	10	-	-	PUNCT
k930bv76j74	15	11	optical	optical	ADJ
k930bv76j74	15	12	jitter	jitter	NOUN
k930bv76j74	15	13	from	from	ADP
k930bv76j74	15	14	the	the	DET
k930bv76j74	15	15	stitching	stitching	NOUN
k930bv76j74	15	16	method	method	NOUN
k930bv76j74	15	17	matched	match	VERB
k930bv76j74	15	18	well	well	ADV
k930bv76j74	15	19	with	with	ADP
k930bv76j74	15	20	modeled	model	VERB
k930bv76j74	15	21	results	result	NOUN
k930bv76j74	15	22	.	.	PUNCT
k930bv76j74	16	1	since	since	SCONJ
k930bv76j74	16	2	the	the	DET
k930bv76j74	16	3	stitching	stitching	NOUN
k930bv76j74	16	4	method	method	NOUN
k930bv76j74	16	5	produces	produce	VERB
k930bv76j74	16	6	full	full	ADJ
k930bv76j74	16	7	time	time	NOUN
k930bv76j74	16	8	series	series	NOUN
k930bv76j74	16	9	of	of	ADP
k930bv76j74	16	10	global	global	ADJ
k930bv76j74	16	11	tilt	tilt	NOUN
k930bv76j74	16	12	,	,	PUNCT
k930bv76j74	16	13	energy	energy	NOUN
k930bv76j74	16	14	spectra	spectra	NOUN
k930bv76j74	16	15	were	be	AUX
k930bv76j74	16	16	also	also	ADV
k930bv76j74	16	17	computed	compute	VERB
k930bv76j74	16	18	and	and	CCONJ
k930bv76j74	16	19	presented	present	VERB
k930bv76j74	16	20	.	.	PUNCT
k930bv76j74	17	1	this	this	DET
k930bv76j74	17	2	information	information	NOUN
k930bv76j74	17	3	can	can	AUX
k930bv76j74	17	4	be	be	AUX
k930bv76j74	17	5	used	use	VERB
k930bv76j74	17	6	by	by	ADP
k930bv76j74	17	7	systems	system	NOUN
k930bv76j74	17	8	designers	designer	NOUN
k930bv76j74	17	9	to	to	PART
k930bv76j74	17	10	benchmark	benchmark	VERB
k930bv76j74	17	11	fast	fast	ADJ
k930bv76j74	17	12	steering	steering	NOUN
k930bv76j74	17	13	mirrors	mirror	NOUN
k930bv76j74	17	14	for	for	ADP
k930bv76j74	17	15	use	use	NOUN
k930bv76j74	17	16	in	in	ADP
k930bv76j74	17	17	airborne	airborne	ADJ
k930bv76j74	17	18	directed	direct	VERB
k930bv76j74	17	19	energy	energy	NOUN
k930bv76j74	17	20	systems	system	NOUN
k930bv76j74	17	21	.	.	PUNCT
k930bv76j74	18	1	finally	finally	ADV
k930bv76j74	18	2	,	,	PUNCT
k930bv76j74	18	3	additional	additional	ADJ
k930bv76j74	18	4	data	datum	NOUN
k930bv76j74	18	5	collected	collect	VERB
k930bv76j74	18	6	by	by	ADP
k930bv76j74	18	7	other	other	ADJ
k930bv76j74	18	8	researchers	researcher	NOUN
k930bv76j74	18	9	in	in	ADP
k930bv76j74	18	10	flight	flight	NOUN
k930bv76j74	18	11	aboard	aboard	ADP
k930bv76j74	18	12	the	the	DET
k930bv76j74	18	13	airborne	airborne	ADJ
k930bv76j74	18	14	aero	aero	NOUN
k930bv76j74	18	15	-	-	PUNCT
k930bv76j74	18	16	optics	optic	NOUN
k930bv76j74	18	17	laboratory	laboratory	NOUN
k930bv76j74	18	18	(	(	PUNCT
k930bv76j74	18	19	aaol	aaol	PROPN
k930bv76j74	18	20	)	)	PUNCT
k930bv76j74	18	21	were	be	AUX
k930bv76j74	18	22	analyzed	analyze	VERB
k930bv76j74	18	23	.	.	PUNCT
k930bv76j74	19	1	both	both	CCONJ
k930bv76j74	19	2	the	the	DET
k930bv76j74	19	3	rms	rm	NOUN
k930bv76j74	19	4	of	of	ADP
k930bv76j74	19	5	the	the	DET
k930bv76j74	19	6	global	global	ADJ
k930bv76j74	19	7	tilt	tilt	NOUN
k930bv76j74	19	8	and	and	CCONJ
k930bv76j74	19	9	the	the	DET
k930bv76j74	19	10	global	global	ADJ
k930bv76j74	19	11	tilt	tilt	NOUN
k930bv76j74	19	12	energy	energy	NOUN
k930bv76j74	19	13	spectra	spectra	NOUN
k930bv76j74	19	14	were	be	AUX
k930bv76j74	19	15	computed	compute	VERB
k930bv76j74	19	16	.	.	PUNCT
k930bv76j74	20	1	the	the	DET
k930bv76j74	20	2	results	result	NOUN
k930bv76j74	20	3	were	be	AUX
k930bv76j74	20	4	found	find	VERB
k930bv76j74	20	5	to	to	PART
k930bv76j74	20	6	agree	agree	VERB
k930bv76j74	20	7	well	well	ADV
k930bv76j74	20	8	with	with	SCONJ
k930bv76j74	20	9	the	the	DET
k930bv76j74	20	10	results	result	NOUN
k930bv76j74	20	11	from	from	ADP
k930bv76j74	20	12	other	other	ADJ
k930bv76j74	20	13	shear	shear	ADJ
k930bv76j74	20	14	layer	layer	NOUN
k930bv76j74	20	15	flows	flow	VERB
k930bv76j74	20	16	.	.	PUNCT