Inclusion ratio based estimator for the mean length of the Boolean line segment model with an application to nanocrystalline cellulose
Niilo-Rämä, M., Kärkkäinen, S., Gasbarra, D., & Lappalainen, T. (2014). Inclusion ratio based estimator for the mean length of the Boolean line segment model with an application to nanocrystalline cellulose. Image Analysis and Stereology, 33(2), 147-155. https://doi.org/10.5566/ias.v33.p147-155
Published in
Image Analysis and StereologyDate
2014Copyright
© Niilo-Rämä et al. This is an open access article under a Creative Commons Attribution-NonCommercial License.
A novel estimator for estimating the mean length of fibres is proposed for censored data observed in square
shaped windows. Instead of observing the fibre lengths, we observe the ratio between the intensity estimates
of minus-sampling and plus-sampling. It is well-known that both intensity estimators are biased. In the current
work, we derive the ratio of these biases as a function of the mean length assuming a Boolean line segment
model with exponentially distributed lengths and uniformly distributed directions. Having the observed ratio
of the intensity estimators, the inverse of the derived function is suggested as a new estimator for the mean
length. For this estimator, an approximation of its variance is derived. The accuracies of the approximations
are evaluated by means of simulation experiments. The novel method is compared to other methods and
applied to real-world industrial data from nanocellulose crystalline.
Publisher
International Society for StereologyISSN Search the Publication Forum
1580-3139Keywords
Original source
http://www.ias-iss.org/ojs/IAS/article/view/1072Publication in research information system
https://converis.jyu.fi/converis/portal/detail/Publication/23758486
Metadata
Show full item recordCollections
License
Except where otherwise noted, this item's license is described as © Niilo-Rämä et al. This is an open access article under a Creative Commons Attribution-NonCommercial License.
Related items
Showing items with similar title or keywords.
-
Characterization of spatial porosity and mineral distribution of crystalline rock using X-ray micro computed tomography, C-14-PMMA autoradiography and scanning electron microscopy
Voutilainen, Mikko; Miettinen, Arttu; Sardini, Paul; Parkkonen, Joni; Sammaljärvi, Juuso; Gylling, Björn; Selroos, Jan-Olof; Yli-Kaila, Maarit; Koskinen, Lasse; Siitari-Kauppi, Marja (Pergamon, 2019)The spatial porosity and mineral distribution of geological materials strongly affects transport processes in them. X-ray micro computed tomography (X-μCT) has proven to be a powerful tool for characterizing the spatial ... -
Young Russian Immigrants' Segmental Duration and Length in Finnish
Ullakonoja, Riikka; Kuronen, Mikko (International Phonetic Association, 2015)This pilot study sheds light on how young Russian immigrants (n=10) produce Finnish segmental duration and length in read-aloud speech as compared to native Finnish speakers (n=5). Segment duration is distinctive in ... -
Tracer migration in crystalline rock : application to geological barriers of nuclear waste storage
Kuva, Jukka (University of Jyväskylä, 2016)This work deals with transport of radionuclides in the geosphere. The subject is investigated through characterisation of water conducting fractures, determining of rock transport properties and development of new methods ... -
Investigating applicability of ratings of indicators of the CLASS Pre-K instrument
Pakarinen, Eija; Malmberg, Lars-Erik; Poikkeus, Anna-Maija; Siekkinen, Martti; Lerkkanen, Marja-Kristiina (Routledge, 2023)When classroom observations are increasingly used for accountability and evaluation purposes, a deeper understanding of the psychometric properties of such measurement tools is needed. The present study took a unique ... -
Measuring intrinsic thickness of rough membranes: application to nanofibrillated cellulose films
Miettinen, Arttu; Ekman, Axel; Chinga-Carrasco, Gary; Kataja, Markku (Springer US, 2015)Adequate measurement of thickness of sheet-like materials or membranes is most important for quantifying their properties such as density, barrier properties and mechanical strength. Depending on the surface roughness of ...