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Assessment of Analytical Information

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Keywords

Information Content Information Entropy Analytical Information Qualitative Test Information Amount 
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.

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References

  1. Bohacek, P (1977) Chemical inhomogeneity of materials and its determination. Compact materials. Coll Czechoslov Chem Commun 4:2982Google Scholar
  2. Bongard MM (1970) Pattern recognition. Spartan Books, New YorkGoogle Scholar
  3. Brillouin L (1963) Science and information theory. Academic Press, New YorkGoogle Scholar
  4. Danzer K (1973a) Zu einigen informationstheoretischen Aspekten der Analytik. Z Chem 13:20Google Scholar
  5. Danzer K (1973b) Die Informationsmenge als Kenngröße zweidimensionaler analytischer Aussagen. Z Chem 13:69Google Scholar
  6. Danzer K (1973c) Ermittlung der Informationsmenge qualitaiver Analysengäange. Z Chem 13:229Google Scholar
  7. Danzer K (1974) Informationstheoretische Charakterisierung von Verteilungsanalysen. Z Chem 14:73Google Scholar
  8. Danzer K (1975a) Zur Ermittlung der Informationsmenge bei spektrochemischen Analysenverfahren. Z Chem 15:158Google Scholar
  9. Danzer K (1975b) Kennzeichnung des Leistungsvermögens und des rentablen Einsatzes von Analysenverfahren mit Hilfe der Informationstheorie. Z Chem 15:326Google Scholar
  10. Danzer K (1978) Zur Ermittlung der Informationsmenge und des Informationsflusses in der Prozeßanalytik. Z Chem 18:104Google Scholar
  11. Danzer K (1983) Möglichkeiten der informationstheoretischen Bewertung von Analysenverfahren und-ergebnissen. In Müller RK (ed): Instrumentelle Analytik in der Toxikologie. Universität Leipzig, p 26Google Scholar
  12. Danzer K (1993) Information content of an analytical result and its assessment by interlaboratory studies. IDF Special Issue 9302: Analytical quality assurance and good laboratory practice in dairy laboratories. IDF, BrusselsGoogle Scholar
  13. Danzer K (2004) A closer look at analytical signals. Anal Bioanal Chem 380:376CrossRefGoogle Scholar
  14. Danzer K, Eckschlager K (1978) Information efficiency of analytical methods. Talanta 25:725CrossRefGoogle Scholar
  15. Danzer K, Marx G (1979a) Zu einigen informationstheoretischen Grundlagen der Strukturanalytik, I. Ermittlung der Informationsmenge qualitativer Strukturaussagen. Chem Analit [Warsaw] 24:33Google Scholar
  16. Danzer K, Marx G (1979b) Zu einigen informationstheoretischen Grundlagen der Strukturanalytik, II. Die Informationsmenge quantitativer Strukturinformationen und Analysenverfahren. Chem Analit [Warsaw] 24:43Google Scholar
  17. Danzer K, Than E, Molch D (1976, 1977, 1987) Analytik. Systematischer Überblick. Akademische Verlagsgesellschaft Geest & Portig, Leipzig, 1976; Wissenschaftliche Verlagsgesellschaft, Stuttgart, 1977 (2nd edn 1987)Google Scholar
  18. Danzer K, Eckschlager K, Wienke D (1987) Informationstheorie in der Analytik, I. Grundlagen und Anwendungen auf Einkomponentenanalysen. Fresenius Z Anal Chem 327:312CrossRefGoogle Scholar
  19. Danzer K, Eckschlager K, Matherny M (1989) Informationstheorie in der Analytik, II. Mehrkomponentenanalyse. Fresenius Z Anal Chem 334:1CrossRefGoogle Scholar
  20. Danzer K, Schubert M, Liebich V (1991) Information theory in analytical chemistry, III. Distribution-analytical investigations. Fresenius J Anal Chem 341:511CrossRefGoogle Scholar
  21. Danzer K, Hobert H, Fischbacher C, Jagemann K-U (2001) Chemometrik. Grundlagen und Anwendungen. Springer, Berlin Heidelberg New YorkGoogle Scholar
  22. Doerffel K, Hildebrandt W (1969) Beurteilung von Analysenverfahren unter Einsatz der Informationstheorie. Wiss Z Techn Hochsch Leuna-Merseburg 11:30Google Scholar
  23. Dupuis F, Dijkstra A (1975) Application of information theory to analytical chemistry. Identification by retrieval of gas chromatographic retention indices. Anal Chem 47:379CrossRefGoogle Scholar
  24. Eckschlager K (1971–1989) Theory of information as applied to analytical chemistry. Collect Czech Chem Commun 36: 3016; 37: 137, 1486; 38: 1330; 39: 1426, 3076; 40: 3627; 41: 1875, 2527; 42: 225, 1935; 43: 231; 44: 2373; 45: 2516; 46: 478; 47: 1195, 1580; 49: 2342; 50: 1359; 53: 1647, 3021; 54: 1770, 3031Google Scholar
  25. Eckschlager K, Danzer K (1994) Information theory in analytical chemistry. Wiley, New YorkGoogle Scholar
  26. Eckschlager K, Stepanek V (1985) Analytical measurement and information. Letchworth, Res Studies PressGoogle Scholar
  27. Fresenius W, Malissa H Sr (eds), Grasserbauer M (coord), Cammann K, Valcarcel M, Zuckerman AM, Nan Z, Koch KH, Perez-Bustamante JA, Ortner, HM, Danzer K, Green JD, Stulik K, Zyka J, Kuznetsov VI (1992) Analytical chemistry — today’s definition and interpretation. Fresenius J Anal Chem 343:809–835Google Scholar
  28. Gerlach W, Gerlach W (1936) Die chemische Emissionsspektralanalyse. II. Anwendungen in Medizin, Chemie und Mineralogie. Voss, LeipzigGoogle Scholar
  29. Gerlach W, Riedl E (1939) Die chemische Emissionsspektralanalyse. III. Tabellen zur quantitativen Analyse. Voss, LeipzigGoogle Scholar
  30. Gerlach W, Schweizer E (1930) Die chemische Emissionsspektralanalyse. I. Grundlagen und Methoden. Voss, LeipzigGoogle Scholar
  31. Grasserbauer M (1985) Distribution analysis in materials research. Fresenius Z Anal Chem 322:105CrossRefGoogle Scholar
  32. Grasserbauer M, Dudek HJ, Ebel MF (1986a) Angewandte Oberflächenanalyse. Springer, Berlin Heidelberg New YorkGoogle Scholar
  33. Grasserbauer M, Stingeder G, Pötzl H, Guerrero E (1986b) Fresenius Z Anal Chem 323:421CrossRefGoogle Scholar
  34. Hartley RVL (1928) Transmission of information. Bell Syst Techn J 7:535Google Scholar
  35. Hutter H, Brunner C, Nikolov S, Mittermayer C, Grasserbauer M (1996) Imaging surface spectroscopy for two-and three-dimensional characterization of materials. Fresenius J Anal Chem 355:585Google Scholar
  36. Kaiser H (1970) Quantitation in elemental analysis. Anal Chem 42(2):24A, 42(4):26AGoogle Scholar
  37. Kerridge DF (1961) Inaccuaracy and inference. J R Statist Soc B23:184Google Scholar
  38. Kullback S (1959) Information theory and statistics. Wiley, New YorkGoogle Scholar
  39. Malissa H, Rendl J, Clerc JT, Gottschalk G, Kaiser R, Schwarz-Bergkampf E, Spitzy H, Werder D, Zettler H (1974) Arbeitskreis “Automation in der Analyse”, Informationstheorie in der Analytik. Fresenius Z Anal Chem 272:1CrossRefGoogle Scholar
  40. Matherny M, Eckschlager K (1996) Determination of relevancy and redundancy of the parameters of information theory. Chemom Intell Lab Syst 32:67CrossRefGoogle Scholar
  41. Meyer-Eppler W (1969) Grundlagen und Anwendungen der Informationstheorie. Springer, Berlin Heidelberg New YorkGoogle Scholar
  42. Rackow B (1963–1969) (30 papers on information-theoretical aspects of physicochemistry, e.g. introduction of the quantity “molbit”, relationship between information and thermodynamical entropy, etc) (in German). Z Chem 3: 268, 316, 437, 477; 4: 36, 72, 73, 109, 155, 196, 236, 275, 311; 5: 67, 116, 159, 195, 238, 278, 434; 7: 398, 444, 472; 8: 33, 117, 157, 434; 9: 318; 11: 398, 436Google Scholar
  43. Rüdenauer FG (1989) Multidimensional image acquisition and processing in surface analysis. Fresenius J Anal Chem 333:308CrossRefGoogle Scholar
  44. Shannon CE (1948) A mathematical theory of communication. Bell Syst Techn J 27:379, 623Google Scholar
  45. Shannon CE, Weaver W (1949) The mathematical theory of communication. Univ Illinois Press, UrbanaGoogle Scholar
  46. Wienke D, Wank U, Wagner M, Danzer K (1991) MULTIVAR, PLANEX, INTERLAB — From a collection of algorithms to an expert system: statistics software written from chemists for chemists. In: Gmeling J (ed) Software development in chemistry, vol 5, p 113Google Scholar

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