[Janiga, I., Garaj, I., Cisko, P. (2004). Estimation of minimum detectable value by using linear calibration with constant standard deviation. Forum Metricum Slov. 8, 68-73.]Search in Google Scholar
[Janiga, I., Mocak, J., Cisko, P., Garaj, I., Szarková, D. (2006). Detection of the mercury content in food and medicines by means of linear calibration function. Forum Statist. Slov. 2, 67-72.]Search in Google Scholar
[International Organization for Standardization. (1996). ISO 11843-2. Capability of detection. Part 2: Methodology in the linear calibration case. ISO/TC69/SC6, P. Wilrich, Chairman.]Search in Google Scholar
[Slovak Institute for Standardization. (2002). Slovak Technical Standard. STN ISO 11843-2. Detekčná schopnost'. Čast' 2: Metodika lineárnej kalibrácie (in Slovak). Bratislava.]Search in Google Scholar
[IUPAC, Analytical Chemistry Division (1978). Nomenclature, symbol, units and their usage in spectrochemical analysis. II. Data interpretation. Spectrochim. Acta B 33(6), 241-246.]Search in Google Scholar
[Currie, L. A. (1995). Nomenclature in evaluation of analytical methods including detection and quantification capabilities. IUPAC Recommendations 1995. Pure & Appl. Chem. 67, 1699-1723.10.1351/pac199567101699]Search in Google Scholar
[Mocak, J., Bond, A. M., Mitchell, S., Schollary, G. (1997). A statistical overview of standard (IUPAC and ACS) and new procedures for determining the limits of detection and quantification: Application to voltammetric and stripping techniques. IUPAC Technical Report 1997. Pure & Appl. Chem. 69, 297-328.10.1351/pac199769020297]Search in Google Scholar
[Mocak, J., Bobrowski, A. (2001). Determination of cadmium and lead in water - new recommended way of evaluating the limits of detection and quantification. Water Sci. & Technol. Water Supply 1, 19-26.10.2166/ws.2001.0017]Search in Google Scholar
