Procedures for NIR calibration – Creation of NIRS spectroscopy calibration curvesArbeitsweisen zur NIR Kalibrierung – Erstellung von NIRS-Spektroskopie Kalibrierungskurven Le procedure di calibrazione NIR – Realizzazione di curve di calibrazione NIRS spettroscopia

Do you know the effect that you prefer to try out their favorite data pretreatments in combination and often try the same wavelength selections based spectra of the visualized?

You try as six to ten combinations until one of them selects his favorite calibration model, to then continue to optimize. Since then suddenly fall to outliers, because it goes in depth, so is familiar with the data, we know now the spectra of numbers of outliers and is familiar with the extreme values.

Now, the focus is on the major components (principal components, Latent Variables, factors) and makes sure not to over-fit and under-fit not to. The whole takes a few hours and finally one is content with the model found.

So what would happen if you all in the beginning tried variants found outliers removed and re-evaluated and compared? The results would be better than that of the previous model choice? One does not try out? Because it is cumbersome and takes hours again?

We have developed a software which simplifies this so that also the number of model variations can be increased as desired. The variants generation is automated with an intelligent control system, as well as the optimization and comparing the models and finally the final selection of the best calibration model.

Our software includes all the usual known data pretreatment methods (data pre-processing) and can combine them useful. Since many Preteatments are directly dependent on the wavelength selection, such as the normalization the determined within a wavelength range of the scaling factors to normalize the spectra so that pretreatments with the wavelength ranges may be combined. So a variety of settings sensible model comes together that are all calculated and optimized. For the automatic selection of the relevant wavelength ranges, different methods are used, which are based on the spectral intensities. Thus, for example, regions with total absorption is not used, and often interfering water bands removed or retained.

Over all the calculated model variations as a summary outlier analysis can be made. Are there any new outliers (hidden outlier) discovered, all previous models can be automatically recalculated, optimized and compared without these outliers.

From this great number of calculated models with the statistical quality reviews (prediction performance) the optimum calibration can now be selected. For this purpose, not simply sorting by the prediction error (prediction error, SEP RMSEP) or the coefficient of determination (coefficient of determination r²), but by several statistical and test values are used jointly toward the final assessment of optimal calibration.

Thus we have created a platform that allows the highly automated work what a man can never do with a commercial software.

We therefore offer the largest number of matched to your application problem modeling calculations and choose the best calibration for you!

This means that our results are faster, more accurate, robust and objective basis (person independent) and quite easy for you to apply.

You have the full control of the models supplied by us, because we provide a clearly structured and detailed blueprint of the complete calibration, with all settings and parameters, with all necessary statistical characteristics and graphics.

Using this blueprint, you can adjust the quantitative calibration model itself in the software you use, understand and compare. You have everything under control form model creation, model validation and model refinement.

Your privacy is very important to us. The NIR data that you briefly provide us for the custom calibration development will remain of course your property. Your NIR data will be deleted after the job with us.

Start Calibrate

Interested, then do not hesitate to contact us.

Kennen Sie den Effekt, dass Sie bevorzugt ihre Lieblings-Datenvorbehandlungen in Kombination durchprobieren und oft die gleichen Wellenlängen-Selektionen anhand der visualisierten Spektren ausprobieren?

Man probiert z.B. sechs bis zehn Kombinationen aus, bis man davon sein favorisiertes Kalibrationsmodell auswählt, um es dann weiter zu optimieren. Da fallen dann plötzlich Ausreisser (Outlier) auf, weil man in die Tiefe geht, also mit den Daten vertraut ist, man kennt mittlerweile die Spektren-Nummern der Ausreisser und ist mit den Extremwerten vertraut.

Jetzt fokussiert man sich auf die Hauptkomponenten (Principal Components, Latent Variables, Faktoren) und achtet darauf nicht zu über-fitten und nicht zu unter-fitten. Das ganze dauert ein paar Stunden und schliesslich begnügt man sich mit dem gefundenen Modell.

Was wäre nun, wenn man in all den zu Beginn ausprobierten Varianten, die gefundenen Ausreisser entfernt und nochmals berechnet und vergleicht? Wären die Ergebnisse besser als die von der bisherigen Modell Wahl? Man probiert es nicht aus? Weil es mühsam ist und wieder Stunden dauert?

Wir haben eine Software entwickelt die dies so vereinfacht, dass auch die Anzahl der Modell Variationen beliebig erhöht werden kann. Die Varianten Erzeugung läuft automatisiert mit einem intelligenten Regelsystem, so auch die Optimierung und das Vergleichen der Modelle und schliesslich die finale Auswahl des Besten Kalibrations Modell.

Unsere Software beinhaltet alle üblichen bekannten Datenvorbehandlungs Methoden (Preteatments) und kann diese sinnvoll kombinieren. Da viele Preteatments direkt abhängig sind von der Wellenlängen Selektion, so z.B. die Normalisierungen die innerhalb eines Wellenlängen-Bereiches die Skalierungsfaktoren ermittelt, um die Spektren damit zu normieren, werden die Pretreatments mit dem Wellenlängen-Bereichen kombiniert. So kommt eine Vielzahl von sinnvollen Modell Einstellungen zusammen die alle berechnet und optimiert werden.

Für die automatische Auswahl der relevanten Wellenlängen Bereiche kommen verschiedene Methoden zum Einsatz, die sich an den Spektren Intensitäten orientieren. So werden z.B. Bereiche mit Totalabsorption nicht verwendet, oftmals störende Wasserbanden entfernt oder beibehalten.

Über all die berechneten Modell Variationen können so zusammenfassende Outlier Analysen gemacht werden. Werden durch die gefahrenen Versuche neue Outlier (Hidden Outlier) entdeckt, können alle bisherigen Modelle automatisch ohne diese Ausreisser nachberechnet, optimiert und verglichen werden.

Aus dieser Vielzahl berechneter Modelle mit deren Statistischen Güte Bewertungen (Prediction Performance) kann nun die optimale Kalibration ausgewählt werden. Dazu wird nicht einfach nach dem Vorhersage Fehler (Prediction Error, SEP, RMSEP) oder nach dem Bestimmtheitsmaß (Coefficient of Determination r²) sortiert, sondern mehrere Statistik- und Testwerte gemeinsam zur umfänglichen Beurteilung der optimalen Kalibration herangezogen.

Somit haben wir eine Plattform geschaffen, die es ermöglicht hochgradig automatisiert das zu tun, was ein Mensch niemals mit einer handelsüblichen Software tun kann.

Wir bieten damit die grösste Anzahl auf Ihr Applikations-Problem angepasste Modellierungs-Berechnungen und wählen die beste Kalibration für Sie aus!

Das heisst, unsere Ergebnisse sind schneller, genauer, robuster und objektiv ausgewählt (Personen unabhängig) und für Sie ganz einfach anzuwenden.

Die Kontrolle über die von uns gelieferten Modelle haben Sie vollumfänglich, denn wir liefern einen klar strukturierten und detaillierten Bauplan der kompletten Kalibration, mit allen Einstellungen und Parametern, mit allen notwendigen Statistischen Kenngrössen und Grafiken.

Anhand dieses Bauplans können Sie das quantitative Kalibrations Modell selbst in der von Ihnen verwendeten Software nachstellen, nachvollziehen und vergleichen. Sie haben so alles im Griff, für die Modell-Validierung und die Modellpflege.

Der Datenschutz ist uns sehr wichtig. Die NIR Daten, die Sie uns für die Kalibrations-Erstellung kurzzeitig zu Verfügung stellen bleiben selbstverständlich Ihr Eigentum. Ihre NIR Daten werden nach Abschluss des Auftrags bei uns gelöscht.

Start Calibrate

Interessiert, dann zögern Sie nicht uns zu kontaktieren.

Do you know the effect that you prefer to try out their favorite data pretreatments in combination and often try the same wavelength selections based spectra of the visualized?

You try as six to ten combinations until one of them selects his favorite calibration model, to then continue to optimize. Since then suddenly fall to outliers, because it goes in depth, so is familiar with the data, we know now the spectra of numbers of outliers and is familiar with the extreme values.

Now, the focus is on the major components (principal components, Latent Variables, factors) and makes sure not to over-fit and under-fit not to. The whole takes a few hours and finally one is content with the model found.

So what would happen if you all in the beginning tried variants found outliers removed and re-evaluated and compared? The results would be better than that of the previous model choice? One does not try out? Because it is cumbersome and takes hours again?

We have developed a software which simplifies this so that also the number of model variations can be increased as desired. The variants generation is automated with an intelligent control system, as well as the optimization and comparing the models and finally the final selection of the best calibration model.

Our software includes all the usual known data pretreatment methods (data pre-processing) and can combine them useful. Since many Preteatments are directly dependent on the wavelength selection, such as the normalization the determined within a wavelength range of the scaling factors to normalize the spectra so that pretreatments with the wavelength ranges may be combined. So a variety of settings sensible model comes together that are all calculated and optimized. For the automatic selection of the relevant wavelength ranges, different methods are used, which are based on the spectral intensities. Thus, for example, regions with total absorption is not used, and often interfering water bands removed or retained.

Over all the calculated model variations as a summary outlier analysis can be made. Are there any new outliers (hidden outlier) discovered, all previous models can be automatically recalculated, optimized and compared without these outliers.

From this great number of calculated models with the statistical quality reviews (prediction performance) the optimum calibration can now be selected. For this purpose, not simply sorting by the prediction error (prediction error, SEP RMSEP) or the coefficient of determination (coefficient of determination r²), but by several statistical and test values are used jointly toward the final assessment of optimal calibration.

Thus we have created a platform that allows the highly automated work what a man can never do with a commercial software.

We therefore offer the largest number of matched to your application problem modeling calculations and choose the best calibration for you!

This means that our results are faster, more accurate, robust and objective basis (person independent) and quite easy for you to apply.

You have the full control of the models supplied by us, because we provide a clearly structured and detailed blueprint of the complete calibration, with all settings and parameters, with all necessary statistical characteristics and graphics.

Using this blueprint, you can adjust the quantitative calibration model itself in the software you use, understand and compare. You have everything under control form model creation, model validation and model refinement.

Your privacy is very important to us. The NIR data that you briefly provide us for the custom calibration development will remain of course your property. Your NIR data will be deleted after the job with us.

Start Calibrate

Interested, then do not hesitate to contact us.

NIR Spectroscopy Calibration Report for quantitative predictive models

When you send your quantitative NIR spectra data to our NIR Calibration Model Service, you get a detailed calibration report (calibration protocol) of the found optimal calibration settings, so you are able to see all insights (ISO 12099) and easily capable to re-build the model in your NIR/Chemometric software.

Here is a part of our calibration report, that exactly describes the data used in the calibration set (CSet), the validation set (VSet) and the test set (TSet). The numbers are the number ids of the spectra in your delivered NIR data file.

The calibration method settings and parameters are

Waveselection : the variable selection or wavenumber selection or wavelength selection

Pretreatments : the spectral data pre-processing

PCs : the number of Principal Components (PC) or Latent Variables (LV)

Method : the modeling method algorithm used, e.g. PLS

Then the statistical analysis of the PLS model by the different sets (CSet, VSet, Tset).

Statistical analysis of calibration, validation and test results : 1 Name, 2 Unit, 3 N : number of spectra, 4 N : number of samples, 5 Average spectra count per sample, 6 Reference values, 7 Min, 8 Mean, 9 Median, 10 Max, 11 Standard deviation, 12 Skewness : left (-) or right (+) lack of symmetry, 13 Kurtosis : flat (-) or peaked (+) shape, 14 Model statistics, 15 RPD, 16 R², 17 RMSEC, RMSEP, RMSET : root mean square of prediction errors, 18 SEC, SEP, SET : standard error (bias corrected), 19 Bias, 20 Skewness of prediction errors, 21 Kurtosis of prediction errors, 22 Intercept, 23 Slope, 24 Intercept (reverse), 25 Slope (reverse), 26 Sample Prediction Repeatability Error, 27 Sample Prediction Repeatability Error (of Missing data MSet)

This shows how we deliver the optimal settings. With the statistical values, the NIR model predicted values of all spectra and additional plots you are able to compare with your re-built model to verify that the models perform nearly equally.

Your Calibration Report including all calibration-, validation- and test statistics and plots can be downloaded from our Web-Shop after processing of your Calibration Request.

UniquenessEinzigartigkeitUniqueness

Please see NIR-PredictorPlease see NIR-PredictorPlease see NIR-Predictor

NIR Calibration Modeling (Part 2)NIR Kalibrationsentwicklung (Teil 2)NIR calibrazione Modeling (parte 2)

( to part 1 )

All the below categories are implemented by using multiple different algorithms and formulas which leads to many different calibrations.

Steps in modeling

Data Cleaning - (bad data, missing values, duplicate elimination, spectral quality / intensity / noise, input value typing errors, …)
Initial Calibration set up - selection of calibration, validation and test samples
Wavelengths selection
Data preprocessing, pretreatments
Method calculation
Choosing the number of Principal Components / Latent Variables
Validation of calibration model / Statistics of performance - (accuracy, precision, linearity, repeatability, range, distribution, robustness / stability, sensitivity, simplicity, etc.)
Outlier examination and removal

The problem of choosing the optimal number of factors to find the optimum between underfitting and overfitting is solved by having multiple methods and protocols implemented leading to multiple calibrations.

The evaluation and the selection of the best calibration is based on many individual statistical values including the most popular RMSEP, SEP, Bias, SEC, R² and PCs etc.

Results and Reporting

A detailed calibration report is provided detailing the best available calibration containing all calibration parameter settings and statistics of prediction performance of the calibration set, the validation set and the test set. A visual expression of the calibration is provided with the most importance plots.

Our service works with any quantitative NIR spectra data set in the standard JCAMP-DX format and uses mainly PLS and PCR to be compatible with other chemometric calibration software.

( zu Teil 1 )

Alle folgenden Kategorien werden durch die Verwendung mehrerer verschiedener Algorithmen und Formeln umgesetzt, was zu vielen unterschiedlichen Kalibrierungen führt.

Arbeitsschritte bei der Modell Erstellung

Daten Bereinigung - (schlechte Daten, fehlende Werte, Duplikateliminierung, spektrale Qualität / Intensität / Rauschen, Eingabewert Tippfehler, ...)
Initial Kalibrierung einrichten - Auswahl der Kalibrierungs-, Validierungs- und Test-Sets
Wellenlängen Auswahl
Datenvorverarbeitung, Datenvorbehandlungen
Method Berechnung
Die Wahl der Anzahl der Hauptkomponenten / Latente Variablen / Faktoren
Validierung des Kalibrierungs Modell / Performance Statistiken - (Genauigkeit, Präzision, Linearität, Wiederholbarkeit, Reichweite, Verteilung, Robustheit / Stabilität, Empfindlichkeit, Einfachheit, etc.)
Ausreißer Untersuchung und Beseitigung

Das Problem der Wahl der optimalen Anzahl von Faktoren, um das Optimum zwischen Unterfittung und Überfittung zu finden, wird gelöst durch mehrere implementierte Methoden und Protokollen, was zu mehreren Kalibrierungen führt.

Die Auswertung und die Auswahl der besten Kalibrierung basiert auf vielen einzelnen statistischen Werten, einschließlich der beliebtesten RMSEP, SEP, Bias, SEC, R² und PCs usw.

Ergebnisse und Berichte

Eine detailliertes Kalibrierprotokoll wird bereitgestellt, das die beste verfügbare Kalibrierung detailliert mit allen Kalibrierparameter Einstellungen und Statistiken der Vorhersage Leistung des Kalibrier-Sets, des Validierungs-Sets und des Test-Sets beinhaltet. Eine visuelle Betrachtung der Kalibrierung wird mit den wichtigsten Grafiken zur Verfügung gestellt.

Unser Service funktioniert mit jedem quantitative NIR-Spektren Daten Satz im Standardformat JCAMP-DX-Format und verwendet hauptsächlich PLS und PCR um kompatibel zu sein mit anderen chemometrischen Kalibrierungssoftwaren.

( to part 1 )

All the below categories are implemented by using multiple different algorithms and formulas which leads to many different calibrations.

Steps in modeling

Data Cleaning - (bad data, missing values, duplicate elimination, spectral quality / intensity / noise, input value typing errors, …)
Initial Calibration set up - selection of calibration, validation and test samples
Wavelengths selection
Data preprocessing, pretreatments
Method calculation
Choosing the number of Principal Components / Latent Variables
Validation of calibration model / Statistics of performance - (accuracy, precision, linearity, repeatability, range, distribution, robustness / stability, sensitivity, simplicity, etc.)
Outlier examination and removal

BenefitNutzenBenefici

The NIR Calibration service offers the following benefit: Saving money

Improving the accuracy and reliability of already used NIR calibration models have high potential in various manufacturing processes as well as in quality assurance.
increased accuracy of analysis => better control of the production process => optimum process flow => better quality => less waste => more throughput.
quick and inexpensive to create professional NIR calibration models.
relief of their own staff

Time savings

for data cleaning (increasing data quality) - missing data, outlier search, wrong data (conflicting information), outlier removal
for the search for the optimal NIR model parameter settings (calibration set, wavelength selection, data pretreatments, factor selection)
for the calculation of different variations of the model
for the validation, evaluation and selection of the optimal model (error, SEP, RMSEP, RMSEC, RPD, fit, R², bias, slope, ...)
time-consuming calculation of huge calibration models
no long trial and error and waiting in the used NIR software until the calibrations seems to work

NIR analytical accuracy

higher reliability due to accuracy and robustness of NIR calibration models
the possibility of comparison with your own created or already existing or purchased NIR calibrations
what performance increase of analytical accuracy is possible
improvement of robustness with respect to change of the product matrix and possible instruments drift

Professional NIR calibration models

decades of experience in chemometrics for NIR spectroscopy
based on theoretical and applied good practice and know-how
application of various guidelines and rules
application of vendor-independent NIR chemometric software
outsourcing of NIR calibration method development and calibration equation maintenance
improving the robustness of NIR prediction model
avoid traps and pitfalls of the complicated chemometrics

Detailed results

The service provides optimal calibration settings for your NIR data.
You get full insight into the NIR calibration, as it is produced and detailed statistical values as a performance index assisted with graphics.

A further aspect of the chemometric modeling services.

Der NIR Kalibrations Service bietet Ihnen folgende Vorteile: Geldersparnis

Die Verbesserung der Genauigkeit und Zuverlässigkeit bereits eingesetzter/angewandter NIR Kalibrationsmodelle hat hohes Einsparpotenzial bei verschiedenen Produktions Prozessen wie auch in der Qualitätssicherung.
Erhöhte Analysen Genauigkeit => den Produktionsprozess besser im Griff => optimaler Prozessablauf => bessere Qualität => weniger Ausschuss => mehr Durchsatz
Schnell und günstig professionelle NIR Kalibrations Modelle erstellen.
Entlasten von eigenem Personal

Zeitersparnis

beim Datenbereinigung (Steigerung der Datenqualität) - Fehlende Daten, Ausreisser Erkennung, fehlerhafte Daten (widersprüchliche Informationen), Ausreisser Elimination
beim Suchen nach den optimalen Parameter Kombinationen für das Modell (calibration set, wavelength selection, data pretreatments, factor selection)
beim zeitintensiven Berechnungen von diversen Variationen des Modells
bei der Validation, Bewertung und Auswahl des optimalen Modells (error, SEP, RMSEP, RMSEC, RPD, fit, R², bias, slope, ...)
Nicht lange rumprobieren in der verwendeten NIR Software bis die Kalibration einigermassen funktioniert.

NIR Analysen Genauigkeit

höhere Zuverlässigkeit durch Genauigkeit und Robustheit der NIR Kalibrations Modelle
Vergleichsmöglichkeit mit ihren eigenen erstellten oder schon vorhandenen oder gekauften NIR Kalibrationen
was ist an Performance Steigerung der Analysen Genauigkeit möglich
was ist an Robustheit bzgl. ändernder Produkt Matrix, Instrumenten Drift möglich

Professionelle NIR Kalibrations Modelle

Jahrzehnte lange Erfahrung in Chemometrics for NIR-Spectroscopy
basierend auf theoretischer und angewandter Good Practice und Know How
Anwendung verschiedenster Richtlinien und Regeln
Anwendung von Hersteller unabhängiger NIR Chemometrie Software
Auslagerung (Outsourcing) der NIR-Kalibrations Methoden Entwicklung und NIR Kalibrations Pflege
Verbesserung der Robustheit von NIR-Kalibrationen
Vermeidung von Fallstricken und Fallgruben der komplexen Chemometrie

Detaillierte Ergebnisse

Der Service liefert die optimalen Kalibrations Einstellungen für ihre NIR Daten.
Sie erhalten vollen Einblick in die NIR Kalibration, wie sie erzeugt wird und detaillierte statistische Werte als Performance Übersicht unterstützt mit Grafiken.

Ein weiterer Aspekt des chemometrischen Modellierung Services.Il servizio di calibrazione NIR offre i seguenti vantaggi: Risparmiare soldi

Migliorando la precisione e l’affidabilità di modelli di calibrazione NIR pre-esistenti si possono aumentare le potenzialità in vari processi di produzione, nonché la garanzia di qualità.
Maggiore accuratezza dell’analisi assicura un miglior controllo del processo produttivo, flusso di processo ottimale e meno scarti di produzione.
Velocità e poco costo per creare modelli di calibrazione professionali.
Sollievo del personale.

Risparmiare tempo

Ripulendo i dati e aumentandone la qualità – dati mancanti, ricerca di valori anomali, dati errati (informazioni contraddittorie), rimozione di valori anomali.
Ricercando impostazioni ottimali dei parametri del modello NIR (set di calibrazione, selezione lunghezza d'onda, pre-trattamentidi dati, selezione fattore).
Calcolando diverse varianti del modello.
Facendo valutazioni di convalida e selezione del modello ottimale (errore, SEP, RMSEP, RMSEC, RPD, fit, R², bias, slope, ...).
Per il calcolo dei modelli di calibrazioni enormi.

Precisione analitica NIR

Maggiore affidabilità grazie alla precisione e robustezza dei modelli di calibrazione NIR.
Possibilità di confronto del metodo creato e quello eventualmente da acquistare.
Aumento della performance di accuratezza analitica quanto possibile.
Miglioramento della robustezza cambiando matrice e possibile derivata.

Modelli di calibrazione NIR professionali

Decenni di esperienza nella chemiometria per la spettroscopia NIR.
Su base teorica e applicata di buone tecniche e know-how.
Applicazione di linee guida.
Presenza di venditori indipendenti di software chemiometrici NIR.
Manutenzione equazione di taratura.
Migliorare la solidità del modello di predizione NIR.
Evitare trappole e trabocchetti della complicata chemiometria.

Risultati nel dettaglio

Il servizio fornisce le impostazioni di calibrazione ottimali per i vostri dati NIR.
È possibile avere una piena conoscenza della calibrazione NIR, in quanto vengono forniti in modo dettagliato valori statistici come indice di performance assistita e relativi grafici.

Un ulteriore aspetto dei servizi di modellazione chemiometrica.

NIR Calibration Service / NIR Kalibrations Service / Servizio di calibrazione NIR

New : free NIR-Predictor Software for all NIR instrument types! Analyze your samples.

Services and software for data analysis and analytical modeling for spectroscopy.

This NIR calibration service provides the custom development of optimal quantitative NIR calibration models based on your collected NIR and reference data for vendor independent full range NIR spectrometer analyzers (NIR = Near Infra Red spectroscopy) based on chemometric multivariate methods like Partial Least Square Regression (PLS, PLSR) and Principal Component Regression (PCR).

The key points

The NIR calibration model is decisive for the analysis accuracy.

NIR analysis results make the difference.

The problems

Imagine how many publications and literature of NIR spectroscopy (JNIRS) and chemometrics (Journal of Chemometrics) is present.

Did you find the time for the right to designate to read, to study, to incorporate them into practice?

Do you have all this knowledge at your calibration developments always present, that you consider anything important, the statistical results, interpret them correctly, analyze the graphs accurately and apply all the tips & tricks of optimizing correctly?

We have the solution for you!

We'll help you to create and optimize your calibrations.
We will help you for the time-consuming and knowledge-intensive part.
You get the best calibration solution and decide for yourself

Try it and see for yourself

New : free NIR-Predictor Software for all NIR instrument types! Analyze your samples.

Dienstleistungen und Software für die Datenanalyse und analytische Modellierung für die Spektroskopie.

Dieser NIR Kalibrations Service bietet die kundenspezifische Entwicklung von optimalen quantitativen NIR-Kalibrierungs Modellen für Ihre gesammelten NIR und Referenzdaten für herstellerunabhängige full-range NIR-Spektrometer Analysatoren an (NIR = Nah InfraRot-Spektroskopie) basierend auf chemometrischen multivariaten Methoden wie Partial Least Square Regression (PLS, PLSR) und Principal Component Regression (PCR).

Die Kernpunkte

Das NIR Kalibrations Modell ist entscheidend für die Analysen Genauigkeit.

NIR-Analysen Ergebnisse machen den Unterschied.

Die Probleme

Stellen Sie sich vor, wie viele Publikationen und Literatur zum Thema NIR (JNIRS) und Chemometrie (Journal of Chemometrics) vorhanden ist.

Haben Sie die Zeit, die für Sie die passende zu finden, zu bestellen, zu lesen, zu studieren, in die Praxis einfließen zu lassen?

Haben Sie dieses ganze Knowhow bei Ihren Kalibrations-Entwicklungen immer präsent, dass Sie alles wichtige Berücksichtigen, die statistischen Ergebnisse richtig deuten, die Grafiken genau analysieren und alle Tips & Tricks und Regeln der Kunst des Optimierens korrekt anwenden?

Wir haben die Lösung für Sie!

Wir helfen Ihnen, Ihre Kalibrationen zu erstellen und zu optimieren.
Wir helfen Ihnen für den zeitaufwendigen und Knowhow Intensiven Teil.

Sie erhalten die optimale Kalibrations Lösung und entscheiden selbst.
Probieren Sie es aus und sehen Sie selbst.

New : free NIR-Predictor Software for all NIR instrument types! Analyze your samples.

Servizi e software per l'analisi dei dati e la modellazione analitica per spettroscopia.

Il servizio di calibrazione NIR fornisce lo sviluppo personalizzato di modelli quantitativi di calibrazione NIR ottimizzati in base alla banca dati NIR presente nei vostri data base e con ulteriori dati di riferimento di fornitori indipendenti di spettrofotometri NIR (NIR = spettroscopia nel vicino infrarosso) sulla base di metodi chemiometrici multivariati come la funzione di regressione Least Square (PLS, PLSR) e delle Componenti Principali (PCR).

Il modello di calibrazione NIR è determinante per l'accuratezza dell'analisi. Sono i risultati delle analisi NIR a fare la differenza.

Near-Infrared Data Modeling Calibration Service

Immaginate quante pubblicazioni e letteratura sulla spettroscopia NIR (JNIRS) e persone che si occupano di chemiometria (Journal of Chemiometrics) siano presenti.

Non avete il tempo per leggere, studiare e far pratica su questo?

Avete tutta questa conoscenza a portata di mano per avere sviluppi di calibrazione sempre aggiornati da esperti; Cosa credete sia più importante: i risultati statistici, interpretarli correttamente, analizzare i grafici accuratamente e applicare tutti i consigli e i trucchi per ottimizzare correttamente i metodi di calibrazione?

Noi abbiamo la soluzione per voi!

Vi aiuteremo a creare e ottimizzare le tarature.
È possibile ottenere la migliore soluzione di calibrazione per Voi. Prova e vedere di persona