000			02169cam0a2200421 4500
001			15728
009			201597225
003			http://www.sudoc.fr/201597225
005			20250630092537.0
010			_a9781119188971 _brel.
010			_a1-119-18897-0
020			_aUS _b2017000471
073		0	_a9781119188971
090			_a15728
099			_tOUVR _zALEX31141
100			_a20170606d2017 k y0frey50 ba
101	0		_aeng _2639-2
102			_aUS
105			_aa a 001yy
106			_ar
181			_6z01 _ctxt _2rdacontent
181		1	_6z01 _ai# _bxxxe##
182			_6z01 _cn _2rdamedia
182		1	_6z01 _an
183		1	_6z01 _anga _2RDAfrCarrier
200	1		_aLimits of detection in chemical analysis _fEdward Voigtman
214		0	_aHoboken (N.J.) _cWiley _d2017
215			_a1 vol. (XVIII-343 p.) _cill. _d25 cm
225	0		_aChemical analysis _ea series of monographs on analytical chemistry and its applications _vvolume 185
320			_aRéférences bibliogr. en fin de chapitres. Index
359	2		_bBackground _bChemical measurement systems and their errors _bThe response, net response and content domains _bTraditional limits of detection _bModern limits of detection _bReceiver operating characteristics _bStatistics of an ideal model CMS _bIf only the true intercept is unknown _bIf only the true slope is unknown _bIf the true intercept and true slope are both unknown _bIf only the population standard deviation is unknown _bIf only the true slope is known _bIf only the true intercept is known _bIf all three parameters are unknown _bBootstrapped detection limits in a real CMS _bFour relevant considerations _bNeyman-Pearson hypothesis testing _bHeteroscedastic noises _bLimits of quantitation _bThe sampled step function _bThe sampled rectangular pulse _bThe sampled triangular pulse _bThe sampled Gaussian pulse _bParting considerations
410			_0038846322 _tChemical analysis _x0069-2883 _v185
606			_3027222985 _aChimie analytique _2rameau
606			_3154373605 _aChimie analytique _2mesh
606			_aChemistry, Analytic _2lc
676			_a543.19 _v23
680			_aQD75.22 _b.V65 2017
700		1	_3201597942 _aVoigtman _bEdward _4070