Nauki Techniczne

Geodesy and Cartography


Geodesy and Cartography | 2013 | vol. 62 | No 1 |


The existing Polish gravity control (POGK) established in the last few years of 20th century according to the international standards is spanned on 12 absolute gravity stations surveyed with four different types of absolute gravimeters. Relative measurements performed by various groups on nearly 350 points of POGK with the use of LaCoste&Romberg (LCR) gravimeters were linked to those 12 stations. The construction of the network, in particular the limited number of non homogeneously distributed absolute gravity stations with gravity determined with different instruments in different epochs is responsible for systematic errors in g on POGK stations. The estimate of those errors with the use of gravity measurements performed in 2007-2008 is given and their possible sources are discussed. The development of absolute gravity measurement technologies, in particular instruments for precise field absolute gravity measurements, provides an opportunity to establish new type of gravity control consisting of stations surveyed with absolute gravimeters. New gravity control planned to be established in 2012-2014 will consist of 28 fundamental points (surveyed with the FG5 – gravimeter), and 169 base points (surveyed with the A10 gravimeter). It will fulfill recent requirements of geodesy and geodynamics and it will provide good link to the existing POGK. A number of stations of the new gravity control with precisely determined position and height will form the national combined geodetic network. Methodology and measurement schemes for both absolute gravimeters as well as the technology for vertical gravity gradient determinations in the new gravity control were developed and tested. The way to assure proper gravity reference level with relation to ICAG and ECAG campaigns as well as local absolute gravimeter comparisons are described highlighting the role of metrology in the project. Integral part of the project are proposals of re-computation of old gravity data and their transformation to a new system (as 2nd order network) as well as a definition of gravity system as “zero-tide” system. Seasonal variability of gravity has been discussed indicating that the effects of environmental changes when establishing modern gravity control with absolute gravity survey cannot be totally neglected .
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The paper attempts to determine an optimum structure of a directional measurement and control network intended for investigating horizontal displacements. For this purpose it uses the notion of entropy as a logarithmical measure of probability of the state of a particular observation system. An optimum number of observations results from the difference of the entropy of the vector of parameters X X ˆ H ' corresponding to one extra observation. An increment of entropy interpreted as an increment of the amount of information about the state of the system determines the adoption or rejection of another extra observation to be carried out.
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Image registration is a key component of various image processing operations which involve the analysis of different image data sets. Automatic image registration domains have witnessed the application of many intelligent methodologies over the past decade; however inability to properly model object shape as well as contextual information had limited the attainable accuracy. In this paper, we propose a framework for accurate feature shape modeling and adaptive resampling using advanced techniques such as Vector Machines, Cellular Neural Network (CNN), SIFT, coreset, and Cellular Automata. CNN has found to be effective in improving feature matching as well as resampling stages of registration and complexity of the approach has been considerably reduced using corset optimization The salient features of this work are cellular neural network approach based SIFT feature point optimisation, adaptive resampling and intelligent object modelling. Developed methodology has been compared with contemporary methods using different statistical measures. Investigations over various satellite images revealed that considerable success was achieved with the approach. System has dynamically used spectral and spatial information for representing contextual knowledge using CNN-prolog approach. Methodology also illustrated to be effective in providing intelligent interpretation and adaptive resampling.
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Modernization of lands and buildings register, which is run in Poland now, assumes capturing boundaries location data by various methods. They are: direct measurement preceded by determining of boundaries in the presence of parties, photogram- metric method, cartographic method, using existing maps being in analogue form. These methods not always assure accuracy. In the paper, an idea of correcting of location of boundary points which do not fulfil accuracy requirements has been presented. These corrections have been computed by assumption of invariability of parcel area revealed in register, so far. Such way of operation from one side would avoid many misunderstandings and difficulties by applying data collected in cadastre and from the other side will not disturb used procedures, which aim is to determine boundary of parcels with demanded accuracy.
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Amendment to the Act on special rules of preparation and implementation of investment in public roads resulted in an accelerated mode of acquisition of land for the development of roads. The decision to authorize the execution of road investment issued on its basis has several effects, i.e. determines the location of a road, approves surveying division, approves construction design and also results in acquisition of a real property by virtue of law by the State Treasury or local government unit, among others. The conducted study revealed that over 3 years, in this mode, the city of Krakow has acquired 31 hectares of land intended for the implementation of road investments. Compensation is determined in separate proceedings based on an appraisal study estimating property value, often at a distant time after the loss of land by the owner. One reason for the lengthy compensation proceedings is challenging the proposed amount of compensation, unregulated legal status of the property as well as imprecise legislation. It is important to properly develop geodetic and legal documentation which accompanies the application for issuance of the decision and is also used in compensation proceedings.
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One of the more important elements of spatial information infrastructure is the organisational structure defining the obligations and dependencies between stakeholders that are responsible for the infrastructure. Many SDI practitioners and theoreticians emphasise that its influence on the success or failure of activities undertaken is significantly greater than that of technical aspects. Being aware of the role of the organisational structure in the creating, operating and maintenance of spatial information infrastructure (SII), Polish legislators placed appropriate regulations in the Spatial Information Infrastructure Act, being the transposition of the INSPIRE Directive into Polish Law. The principal spatial information infrastructure stakeholders are discussed in the article and also the scope of cooperation between them. The tasks and relationships between stakeholders are illustrated in UML, in both the use case and the class diagram. Mentioned also are the main problems and obstructions resulting from imprecise legal regulations.
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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.
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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.
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Layout guidelines:- use a normal, plain Times Roman font for text, italics for textual emphasis, bold for mathematical vectors,
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Save your manuscript in RTF or DOC Microsoft Word for Windows format.
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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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