"IKT teadus- ja arendustegevuse toetamine" projekt SLOKT13058T
SLOKT13058T (3.2.1201.13-0020) "Tarkvara arendamine kromatograafiliste analüüsimeetodite valideerimiseks (1.03.2013−30.06.2015)", Koit Herodes, Tartu Ülikool, Tartu Ülikool, Loodus- ja tehnoloogiateaduskond, Tartu Ülikooli Keemia Instituut.
3.2.1201.13-0020
SLOKT13058T
Tarkvara arendamine kromatograafiliste analüüsimeetodite valideerimiseks
Development of software for validation of chromatographic methods
Development of software for validation of chromatographic methods
1.03.2013
30.06.2015
Teadus- ja arendusprojekt
IKT teadus- ja arendustegevuse toetamine
ETIS klassifikaatorAlamvaldkondCERCS klassifikaatorFrascati Manual’i klassifikaatorProtsent
4. Loodusteadused ja tehnika4.11. Keemia ja keemiatehnikaP300 Analüütiline keemia 1.3. Keemiateadused (keemia ja muud seotud teadused)70,0
4. Loodusteadused ja tehnika4.6. ArvutiteadusedP170 Arvutiteadus, arvutusmeetodid, süsteemid, juhtimine (automaatjuhtimisteooria)1.1. Matemaatika ja arvutiteadus (matemaatika ja teised sellega seotud teadused: arvutiteadus ja sellega seotud teadused (ainult tarkvaraarendus, riistvara arendus kuulub tehnikavaldkonda)30,0
AsutusRollPeriood
Tartu Ülikoolkoordinaator01.03.2013−30.06.2015
Tartu Ülikool, Loodus- ja tehnoloogiateaduskond, Tartu Ülikooli Keemia Instituutkoordinaator01.03.2013−30.06.2015
AsutusRiikTüüp
SA Archimedes
PerioodSumma
01.03.2013−30.06.2015188 083,71 EUR
188 083,71 EUR

The aim of the current project is to develop a configurable software system (named here CVG), which will help analytical chemistry laboratories to plan, assess and report validation of chromatographic methods. The main capabilities of CVG are expected to be: 1. The system can automatically determine a validation procedure from a collection of validation rules and taking into account the characteristics of the particular task at hand; 2. The system is extensible, allowing authorized users to add or modify validation rules using a rule definition language that is easy to learn for them. 3. The system allows users to choose the validation rule-sets (e.g. EMEA, FDA, ICH etc.) that should be applied for a given validation 4. The software can guide the user through the validation process including the following: a. Planning the needed experiments based on the nature of the particular analytical method under validation; b. Collecting experimental data; c. Performing necessary calculations of validation characteristics, based on the calculations giving feedback on the quality of the data; d. Estimating measurement uncertainty; e. Creating validation report.
The aim of the current project is to develop a configurable software system (named here CVG), which will help analytical chemistry laboratories to plan, assess and report validation of chromatographic methods. The main capabilities of CVG are expected to be: 1. The system can automatically determine a validation procedure from a collection of validation rules and taking into account the characteristics of the particular task at hand; 2. The system is extensible, allowing authorized users to add or modify validation rules using a rule definition language that is easy to learn for them. 3. The system allows users to choose the validation rule-sets (e.g. EMEA, FDA, ICH etc.) that should be applied for a given validation 4. The software can guide the user through the validation process including the following: a. Planning the needed experiments based on the nature of the particular analytical method under validation; b. Collecting experimental data; c. Performing necessary calculations of validation characteristics, based on the calculations giving feedback on the quality of the data; d. Estimating measurement uncertainty; e. Creating validation report.
KirjeldusProtsent
Rakendusuuring100,0