Jonni Lehtiranta scite author profile

Jonni Lehtiranta

5Publications

61Citation Statements Received

57Citation Statements Given

How they've been cited

111

How they cite others

Affiliations

Finnish Meteorological Institute

Publications

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Interannual sea ice thickness variability in the Bay of Bothnia

Ronkainen¹,

Lehtiranta²,

Lensu³

et al. 2018

The Cryosphere

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Abstract. While variations of Baltic Sea ice extent and thickness have been extensively studied, there is little information about drift ice thickness, distribution, and its variability. In our study, we quantify the interannual variability of sea ice thickness in the Bay of Bothnia during the years 2003–2016. We use various different data sets: official ice charts, drilling data from the regular monitoring stations in the coastal fast ice zone, and helicopter and shipborne electromagnetic soundings. We analyze the different data sets and compare them to each other to characterize the interannual variability, to discuss the ratio of level and deformed ice, and to derive ice thickness distributions in the drift ice zone. In the fast ice zone the average ice thickness is 0.58±0.13 m. Deformed ice increases the variability of ice conditions in the drift ice zone, where the average ice thickness is 0.92±0.33 m. On average, the fraction of deformed ice is 50 % to 70 % of the total volume. In heavily ridged ice regions near the coast, mean ice thickness is approximately half a meter thicker than that of pure thermodynamically grown fast ice. Drift ice exhibits larger interannual variability than fast ice.

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Comparing C- and L-band SAR images for sea ice motion estimation

2015

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Abstract.Pairs of consecutive C-band synthetic-aperture radar (SAR) images are routinely used for sea ice motion estimation. The L-band radar has a fundamentally different character, as its longer wavelength penetrates deeper into sea ice. L-band SAR provides information on the seasonal sea ice inner structure in addition to the surface roughness that dominates C-band images. This is especially useful in the Baltic Sea, which lacks multiyear ice and icebergs, known to be confusing targets for L-band sea ice classification. In this work, L-band SAR images are investigated for sea ice motion estimation using the well-established maximal crosscorrelation (MCC) approach. This work provides the first comparison of L-band and C-band SAR images for the purpose of motion estimation. The cross-correlation calculations are hardware accelerated using new OpenCL-based source code, which is made available through the author's web site. It is found that L-band images are preferable for motion estimation over C-band images. It is also shown that motion estimation is possible between a C-band and an L-band image using the maximal cross-correlation technique.

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Evaluation of selected state-of-the-art methods for ship transit simulation in various ice conditions based on full-scale measurement

Goerlandt

Kujala

et al. 2018

Cold Regions Science and Technology

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SAR-based estimation of the baltic sea ice motion

Karvonen¹,

Similä²,

Lehtiranta³

2007

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Polarview@FIMR: WWW-based delivery of baltic sea ice products to end-users

Karvonen¹,

Haapala²,

Lehtiranta³

et al. 2007

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