Nauki Techniczne

Geodesy and Cartography


Geodesy and Cartography | 2017 | vol. 66 | No 2 |


The cognitive aim of this study is to point to the optimum number of local government units and the optimum boundaries of spatial units in Poland with the assumption of minimizing the cumulated theoretical travel time to all settlement units in the country. The methodological aim, in turn, is to present the use of the ArcGIS location-allocation tool for the purposes of delimitation processes as exemplified by administrative boundaries in Poland. The rationale for the implementation of this study is that number and the boundaries of units of all levels of Poland’s current territorial division are far from optimum in the light of minimization of accumulated theoretical travel time to all settlement units in the country. It may be concluded that it would be justifiable to increase the number of voivodships from the current number of 16 to 18. Besides it would be necessary to introduce modifications in relation to units with regional functions. In contrast, the number of districts and communes should be reduced. A continuation of this research may go in the direction of including analysis of public transport network in the research, creating in this way a multimodal set of network data. This would illustrate, apart from the potential itself resulting from the infrastructure, also the actually existing connections.
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We evaluated the performance of nine machine learning regression algorithms and their ensembles for sub-pixel estimation of impervious areas coverages from Landsat imagery. The accuracy of imperviousness mapping in individual time points was assessed based on RMSE, MAE and R 2 . These measures were also used for the assessment of imperviousness change intensity estimations. The applicability for detection of relevant changes in impervious areas coverages at sub-pixel level was evaluated using overall accuracy, F-measure and ROC Area Under Curve. The results proved that Cubist algorithm may be advised for Landsat-based mapping of imperviousness for single dates. Stochastic gradient boosting of regression trees (GBM) may be also considered for this purpose. However, Random Forest algorithm is endorsed for both imperviousness change detection and mapping of its intensity. In all applications the heterogeneous model ensembles performed at least as well as the best individual models or better. They may be recommended for improving the quality of sub-pixel imperviousness and imperviousness change mapping. The study revealed also limitations of the investigated methodology for detection of subtle changes of imperviousness inside the pixel. None of the tested approaches was able to reliably classify changed and non-changed pixels if the relevant change threshold was set as one or three percent. Also for five percent change threshold most of algorithms did not ensure that the accuracy of change map is higher than the accuracy of random classifier. For the threshold of relevant change set as ten percent all approaches performed satisfactory.
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The dedicated gravity satellite missions, in particular the GRACE (Gravity Recovery and Climate Experiment) mission launched in 2002, provide unique data for studying temporal variations of mass distribution in the Earth’s system, and thereby, the geometry and the gravity field changes of the Earth. The main objective of this contribution is to estimate physical height (e.g. the orthometric/normal height) changes over Central Europe using GRACE satellite mission data as well as to analyse them and model over the selected study area. Physical height changes were estimated from temporal variations of height anomalies and vertical displacements of the Earth surface being determined over the investigated area. The release 5 (RL05) GRACE-based global geopotential models as well as load Love numbers from the Preliminary Reference Earth Model (PREM) were used as input data. Analysis of the estimated physical height changes and their modelling were performed using two methods: the seasonal decomposition method and the PCA/ EOF (Principal Component Analysis/Empirical Orthogonal Function) method and the differences obtained were discussed. The main findings reveal that physical height changes over the selected study area reach up to 22.8 mm. The obtained physical height changes can be modelled with an accuracy of 1.4 mm using the seasonal decomposition method.
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The cadastral data, including land parcels, are the basic reference data for presenting various objects collected in spatial databases. Easy access to up-to-date records is a very important matter for the individuals and institutions using spatial data infrastructure. The primary objective of the study was to check the current accessibility of cadastral data as well as to verify how current and complete they are. The author started researching this topic in 2007, i.e. from the moment the Team for National Spatial Data Infrastructure developed documentation concerning the standard of publishing cadastral data with the use of the WMS. Since ten years, the author was monitoring the status of cadastral data publishing in various districts as well as participated in data publishing in many districts. In 2017, when only half of the districts published WMS services from cadastral data, the questions arise: why is it so and how to change this unfavourable status? As a result of the tests performed, it was found that the status of publishing cadastral data is still far from perfect. The quality of the offered web services varies and, unfortunately, many services offer poor performance; moreover, there are plenty services that do not operate at all.
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Land consolidation procedures are an attempt to comprehensively change the existing spatial structure of land in rural areas. This treatment also brings many other social and economic benefits, contributing to the development of consolidated areas. Land consolidation in mountain areas differs in many respects from those implemented in areas with more favorable conditions for the functioning of agriculture. The unfavorable values of land fragmentation indices, terrain conditions and lower than the average soil quality affect both the dominant forms of agricultural activity and the limited opportunities to improve the distribution of plots in space, parameters of shape, and the area as a result of land consolidation. For this reason, the effectiveness of land consolidation in mountain areas can be achieved by improving the quality of transportation network and the accessibility of the plots, arranging ownership issues and improving the quality of cadastral documentation. This article presents the evaluation of the measures of effectiveness of land consolidation realized in mountain areas on the example of Łetownia Village in the Małopolska Province, located in the southern part of Poland. Selected village is an area with unfavorable conditions for the functioning of agriculture and high values of land fragmentation indices.
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In recent years, Global Navigation Satellite Systems (GNSS) have gained great importance in terms of the benefits it provides such as precise geodetic point positioning, determining crustal deformations, navigation, vehicle monitoring systems and meteorological applications etc. As in Turkey, for this purpose, each country has set up its own GNSS station networks like Turkish National Permanent RTK Network analyzed precise station coordinates and velocities together with the International GNSS Service , Turkish National Fundamental GPS Network and Turkish National Permanent GNSS Network (TNPGN) stations not only are utilized as precise positioning but also GNSS meteorology studies so total number of stations are increased. This work is related to the reactivated of the TRAB IGS station which was established in Karadeniz Technical University, Department of Geomatics Engineering. Within the COST ES1206 Action (GNSS4SWEC) KTU analysis center was established and Trop-NET system developed by Geodetic Observatory Pecny (GOP, RIGTC) in order to troposphere monitoring. The project titled “Using Regional GNSS Networks to Strengthen Severe Weather Prediction” was accepted to the scientific and technological research council of Turkey (TUBITAK). With this project, we will design 2 new constructed GNSS reference station network. Using observation data of network, we will compare water vapor distribution derived by GNSS Meteorology and GNSS Tomography. At this time, KTU AC was accepted as E-GVAP Analysis Centre in December 2016. KTU reference station is aimed to be a member of the EUREF network with these studies.
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One of the fundamental problems of modern geodesy is precise de fi nition of the gravitational fi eld and its changes in time. This is essential in positioning and navigation, geophysics, geodynamics, oceanography and other sciences related to the climate and Earth’s environment. One of the major sources of gravity data is satellite altimetry that provides gravity data with almost 75% surface of the Earth. Satellite altimetry also provides data to study local, regional and global geophysical processes, the geoid model in the areas of oceans and seas. This technique can be successfully used to study the ocean mean dynamic topography. The results of the investigations and possible products of altimetry will provide a good material for the GGOS (Global Geodetic Observing System) and institutions of IAS (International Altimetry Service). This paper presents the achievements in satellite altimetry in all the above disciplines obtained in the last years. First very shorly basic concept of satellite altimetry is given. In order to obtain the highest accuracy on range measurements over the ocean improved of altimetry waveforms performed on the ground is described. Next, signi fi cant improvements of sea and ocean gravity anomalies models developed presently is shown. Study of sea level and its extremes examined, around European and Australian coasts using tide gauges data and satellite altimetry measurements were described. Then investigations of the phenomenon of the ocean tides, calibration of altimeters, studies of rivers and ice-sheets in the last years are given.
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Elżbieta Bielecka, Military University of Technology, Faculty of Civil Engineering and Geodesy (WAT WIG), Poland

Editorial Advisory Board
Aleksandra Bujakiewicz, Warsaw University of Technology, Poland
Beata Medynska-Gulij, Adam Mickiewicz University (UAM), Poland
Edward Osada, University of Lower Silesia, Poland
Jan Krynski, Institute of Geodesy and Cartography (IGiK), Poland
Jerzy Rogowski, Warsaw University of Technology, Poland
Zbigniew Wisniewski, University of Warmia and Mazury in Olsztyn (UWM), Poland
Josef Adam, University of Technology and Economics, Hungary
Adam Chrzanowski, University of New Brunswick, Canada
Dorota Grejner-Brzezińska, The Ohio State University, USA
Jaakko Makinen, Finnish Geodetic Institute, Finland
Helmut Moritz, Graz University of Technology, Austria
Heinz Ruther, University of Cape Town, RSA
Michael Sideris, University of Calgary, Canada
Gabriel Strykowski, Technical University of Denmark, Denmark
Jaroslaw S. Yatskiv, Main Astronomical Observatory, Ukraine

Pawel Kamiński, Military University of Technology, Faculty of Civil Engineering and Geodesy (WAT WIG), Poland

Technical Editors
Karolina Krawczyk, Military University of Technology, Faculty of Civil Engineering and Geodesy (WAT WIG), Poland
Krzysztof Bielecki, Military University of Technology, Faculty of Civil Engineering and Geodesy (WAT WIG), Poland



Elżbieta Bielecka

Instrukcje dla autorów

GEODESY AND CARTOGRAPHY is a semiannually journal publishing peer-reviewed articles with original solutions of theoretical, experimental or applicable problems in the field of geodesy, surveying engineering, cartography, photogrammetry and related disciplines. Besides original research papers, the journal includes commissioned review papers on topical subjects and special issues arising from chosen scientific symposia or workshops.
Legal requirements
The author(s) guarantee(s) that the manuscript will not be published elsewhere in any language without the consent of the copyright owners, that the rights of the third parties will not be violated, and that the publisher will not held legally responsible should there be any claims for compensation.
Authors wishing to include figures or text passages that have already been published elsewhere are required to obtain permission from the copyright owner(s) and to include evidence that such permission has been granted when submitting their papers. Any material received without such evidence will be assumed to originate from the authors.
Manuscript submission
Submission of the manuscript implies: that the work has not been published before (except in form of an abstract or as a part of a published lecture, review or thesis); that it is not under consideration for publication elsewhere; that its publication has been approved by all co-authors, if any, as well as by the responsible authorities at the institution where the work was carried out.
Articles should be submitted on line
In case the manuscript has more than one author its submission should include the list specifying contribution of each author to the manuscript with indicating who is the author of the concept, assumptions, research methodology, data processing. Major responsibility is of the author submitting the manuscript.
The Editor will counteract in GEODESY AND CARTOGRAPHY against Ghostwriting, i.e. when someone substantially contributed to the preparation of the manuscript but has neither been included to the list of authors nor his role is mentioned in the acknowledgements as well as Ghost authorship, i.e. when the author/co-author did not contribute to the manuscript or his contribution is negligible. Any detected case of Ghostwriting and Ghost authorship will be exposed and the appropriate subjects, i.e. employers, scientific organisations, associations of editors etc, will be informed.
Electronic submission of a manuscript
Use the template to format your paper.

Layout guidelines:- use a normal, plain Times Roman font for text, italics for textual emphasis, bold for mathematical vectors,
- use the table functions of your word processing program, not spreadsheets, to make tables,
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- place all figures with figure legends and tables with table legends in the manuscript,
- submit also all figures as separate files.
Data format:
Save your manuscript in RTF or DOC Microsoft Word for Windows format.
Figures should be provided in the vector graphics or JPG or TIF (specifically for halftone illustrations) formats will be accepted. The filename should include the figure number. Figure legends should be included in the text and not in the figure file. Scanned line drawings should be digitised with a minimum resolution of 800 dpi relative to the final figure size. For digital halftones, 300 dpi is usually sufficient. Non-standard fonts used in the vector graphics must be included. Please do not draw with hairlines. The minimum line width is 0.2 mm (0.567 pt) relative to the final size.
Manuscript preparation
Manuscripts should be typed in single-line spacing throughout on the A4 sheet with 2.5 cm margins .
1. Title page:
- a concise and informative title
- the name(s) of the author(s)
- the name(s) and address(es) of the affiliation(s) of the author(s)
- the e-mail address, telephone and fax numbers of the communicating author
2. Abstract: the paper must be preceded by a sufficiently informative abstract presenting the most important results and conclusions.
3. Keywords: three to five keywords should be supplied.
4. Introduction: should state the purpose of the investigation and give a short review of the pertinent literature.
5. Main text: including method and input data (working details must be given concisely; well-known operations should not be described in detail); results presented in tabular or graph form, with appropriate statistical evaluation, discussion of results - statement of conclusions drawn from the work, conclusions.
6. Acknowledgements: should be brief and consist of grant or individuals that require acknowledgement.
The names of funding organizations or institutions providing data should be given in full.
7. References: the list of references should be in alphabetical order and should only include works that are cited in the text and that have been published or accepted for publication. Personal communications could only be mentioned in the text. References should consist of the complete list of authors and should be given in the following form:
In the text, references should be cited by author(s) last name and year: e.g. (Beutler, 2003a), (Featherstone and Kirby, 2000), (Schwarz et al., 1990), (Sjöberg et al., 2000; Strykowski, 2001b; 2002).
8. Formulae and symbols: must be written legibly and will be typeset in italics. One-layer indexing is preferable. Numbering of formulae, if necessary should be given in brackets fitted to the right margin.
9. Footnotes: to the text should be numbered consecutively and placed on the bottom of the page to which they refer. Footnotes to the tables should be indicated by superscript lowercase letters.
10. Illustrations and tables: all figures (photographs, graphs or diagrams) and tables should be cited in the text and each numbered consecutively throughout. Lowercase roman letters should identify figure parts. Figure legends must be brief and must contain self-sufficient explanations of the illustrations. Each table should have a title and a legend explaining any abbreviation used in that table.
11. Units: SI units must be used.
12. Running head: consisting of at most 60 characters a concise banner representing the title of the article must be submitted by the author(s).
Proofreading is the responsibility of the author. Corrections should be clear; standard correction marks should be used. Corrections that lead to a change in the page layout should be avoided. The author is entitled to formal corrections only. Substantial changes in content, e.g. new results, corrected values, title and authorship are not allowed without the approval of the editor. In such case please contact the Editor-in-chief before returning the proofs.
References formatting
a. Journal Article (one author)
Nikora, V. (2006). Hydrodynamics of aquatic ecosystems: spatial-averaging perspective. Acta Geophysica, 55(1), 3-10. DOI: 10.2478/s11600-006-0043-6.
b. Journal Article (two or more authors)
Cudak, M. and Karcz J. (2006). Momentum transfer in an agitated vessel with off-centred impellers. Chem. Pap. 60(5), 375-380. DOI: 10.2478/s11696-006-0068-y.
c. Journal article from an online database
Czajgucki Z., Zimecki M. & Andruszkiewicz R. (2006, December). The immunoregulatory effects of edeine analogues in mice [Abstract]. Cell. Mol. Biol. Lett. 12(3), 149-161. Retrieved December 6.
d. Book (one author)
Baxter, R. (1982). Exactly Solvable Models in Statistical Mechanics. New York: Academic Press.
e. Book (two or more authors)
Kleiner, F.S., Mamiya C.J. and Tansey R.G. (2001). Gardner’s art through the ages (11th ed.). Fort Worth, USA: Harcourt College Publishers.
f. Book chapter or article in an edited book
Roll, W.P. (1976). ESP and memory. In J.M.O. Wheatley and H.L. Edge (Eds.), Philosophical dimensions of parapsychology (pp. 154-184). Springfield, IL: American Psychiatric Press.
g. Proceedings from a conference
Field, G. (2001). Rethinking reference rethought. In Revelling in Reference: Reference and Information Services Section Symposium, 12-14 October 2001 (pp. 59-64). Melbourne, Victoria, Australia: Australian Library and Information Association.
h. ebook
Johnson, A. (2000). Abstract Computing Machines. Springer Berlin Heidelberg. Retrieved March 30, 2006, from SpringerLink DOI: 10.1007/b138965.
i. Report
Osgood, D. W., and Wilson, J. K. (1990). Covariation of adolescent health problems. Lincoln: University of Nebraska. (NTIS No. PB 91-154 377/AS).
j. Government publication
Ministerial Council on Drug Strategy. (1997). The national drug strategy: Mapping the future. Canberra: Australian Government Publishing Service.

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