Applied sciences

Advances in Geodesy and Geoinformation

Content

Advances in Geodesy and Geoinformation | 2023 | vol. 72 | No 1

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Abstract

The aim of this study was to evaluate millimeter-scale deformations in Tallinn, the capital of Estonia, by using repeated leveling data and the synthetic aperture radar (SAR) images of Sentinel-1 satellite mission. The persistent scattered interferometric SAR (PS-InSAR) analysis of images from ascending and descending orbits from June 2016 to November 2021 resulted the line-of-sight (LOS) displacement velocities in the Tallinn city center. Velocity solutions were estimated for the full period of time, but also for shorter periods to monitor deformation changes in yearly basis. The gridded LOS velocity models were used for the decomposition of east-west and vertical velocities. Additionally, the uncertainty of 2D velocity solutions was estimated by following the propagation of uncertainty. The 3D velocity of permanent GNSS station “MUS2” in Tallinn was used to unify the reference of all PS-InSAR velocity solutions. The results of the latest leveling in Tallinn city center in 2007/2008 and 2019 showed rather small subsidence rates which were in agreement with InSAR long-termsolution. However, the short-termInSAR velocity solutions revealed larger subsidence of city center with a rate about –10 mm/yr in 2016–2017, and the uplift around 5 mm/yr in 2018–2019 with relatively stable periods in 2017–2018 and 2019–2021. The inclusion of groundwater level observation data and the geological mapping information into the analysis revealed possible spatiotemporal correlation between the InSAR results and the groundwater level variations over the deep valleys buried under quaternary sediments.
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Authors and Affiliations

Tõnis Oja
1
ORCID: ORCID
Anti Gruno
1

  1. Datel AS, Tallinn, Estonia
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Abstract

The geodesy literature seems to offer comprehensive insight into the planar Helmert transformation with Hausbrandt corrections. Specialist literature is mainly devoted to the issues of 3D transformation. The determination of the sought values, coordinates in the target system, requires two stages of computations. The classical approach yields ‘new’ coordinates of reference points in the target system that should not be changed in principle. This requires the Hausbrandt corrections. The paper proposes to simplify the two-stage process of planar transformation by assigning adjustment corrections to reference point coordinates in the source system. This approach requires solving the Helmert transformation by adjusting conditioned observations with unknowns. This yielded transformation results consistent with the classical method. The proposed algorithm avoided the issue of correcting the official coordinates of the control network and using additional (post-transformation) corrections for the transformed points. The proposed algorithm for solving the plane Helmert transformation for �� > 2 reference points simplifies the computing stages compared to the classical approach. The assignment of adjustment corrections to coordinates of reference points in the source system helps avoid correcting coordinates of the reference points in the target system and additional corrections for transformed points. The main goal of any data adjustment process with the use of the least squares method is (by definition) obtaining unambiguous quantities that would strictly meet the mathematical relationships between them. Therefore, this work aims to show such a transformation adjusting procedure, so that no additional computational activities related to the correction of already aligned results are necessary.
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Authors and Affiliations

Tadeusz Gargula
1
ORCID: ORCID
Pelagia Gawronek
1
ORCID: ORCID

  1. University of Agriculture in Krakow, Krakow, Poland
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Abstract

The purpose of this article was to provide the user with information about the number of buildings in the analyzed OpenStreetMap (OSM) dataset in the form of data completeness indicators, namely the standard OSM building areal completeness index (C Index), the numerical completeness index (COUNT Index) and OSM building location accuracy index (TP Index). The official Polish vector database BDOT10k (Database of Topographic Objects) was designated as the reference dataset. Analyses were carried out for Piaseczno County in Poland, differentiated by land cover structure and urbanization level. The results were presented in the form of a bivariate choropleth map with an individually selected class interval suitable for the statistical distribution of the analyzed data. The results confirm that the completeness of OSM buildings close to 100% was obtained mainly in built-up areas. Areas with a commission of OSM buildings were distinguished in terms of area and number of buildings. Lower values of completeness rates were observed in less urbanized areas. The developed methodology for assessing the quality of OSM building data and visualizing the quality results to assist the user in selecting a dataset is universal and can be applied to any OSM polygon features, as well as for peer review of other spatial datasets of comparable thematic scope and detail.
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Authors and Affiliations

Sylwia Borkowska
1
ORCID: ORCID
Elzbieta Bielecka
1
ORCID: ORCID
Krzysztof Pokonieczny
1
ORCID: ORCID

  1. Military University of Technology, Warsaw, Poland

Authors and Affiliations

Jacek Paziewski
1
ORCID: ORCID
Dogan Ugur Sanli
2
ORCID: ORCID

  1. University of Warmia and Mazury in Olsztyn, Olsztyn, Poland
  2. Yildiz Technical University, Istanbul, Turkey
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Abstract

The aim study is the development of the classification of agricultural enterprises, based on the properties of the distribution of enterprises depending on the size of the land bank. To achieve this aim, open databases of agricultural enterprises were used, from which data for the Dnipropetrovsk district were selected. The data is not official. They are collected according to the data provided by the agricultural enterprises themselves. Since the official statistics group of small enterprises with up to 200 ha of land includes a fairly large number of enterprises that exist only formally, and since actively functioning enterprises are voluntarily registered in the databases used for the study, the developed classification reflects the real situation with agricultural enterprises in the Dnipropetrovsk district. The proposed scheme of a grouping of agricultural enterprises is regular, logarithmically uniform and based on the exponential increase of the land bank of agricultural enterprises. Its parameters are chosen in such a way as to take into account the classification of farms used in the Tax Code of Ukraine. The developed grouping of agricultural enterprises was used to analyze such characteristics of enterprises as types of production and organizational and legal forms of management. The analysis of the distribution showed that with the decrease of the land bank the number of farms increases and the number of enterprises, whose forms of management are joint-stock companies of different types, decreases.
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Authors and Affiliations

Elena Novikova
1
ORCID: ORCID
Alena Palamar
1
ORCID: ORCID
Daria Bondarenko
1
ORCID: ORCID
Maksym Hanchuk
2
ORCID: ORCID
Vladyslav Riabchii
3
ORCID: ORCID

  1. Kryvyi Rih National University, Kryvyi Rih, Ukraine
  2. Dmytro Motornyi Tavria State Agrotechnological University, Melitopol, Ukraine
  3. Dnipro University of Technology, Dnipro, Ukraine
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Abstract

This paper summarizes the contribution of Polish scientific units to the development of the Global Geodetic Observing System (GGOS) in recent years. We discuss the issues related to the integration of space geodetic techniques and co-location in space onboard Global Navigation Satellites Systems (GNSS) and Low Earth Orbiters (LEO), as well as perspectives introduced by the new European Space Agency’s (ESA) mission GENESIS. We summarize recent developments in terms of the European Galileo system and its contribution to satellite geodesy and general relativity, as well as ESA’s recent initiative – Moonlight to establish a satellite navigation and communication system for the Moon. Recent progress in troposphere delay modeling in Satellite Laser Ranging (SLR) allowed for better handling of systematic errors in SLR, such as range biases and tropospheric biases. We discuss enhanced tropospheric delay models for SLR based on numerical weather models with empirical corrections, which improve the consistency between space geodetic parameters derived using different techniques, such as SLR, GNSS, and Very Long Baseline Interferometry (VLBI). Finally, we review recent progress in the development of Polish GGOS scientific infrastructure in the framework of the European Plate Observing System project EPOS-PL¸.
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Authors and Affiliations

Krzysztof Sosnica
1
ORCID: ORCID
Radoslaw Zajdel
1
ORCID: ORCID
Jaroslaw Bosy
1
ORCID: ORCID

  1. Wroclaw University of Environmental and Life Science, Wroclaw, Poland
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Abstract

The aim of this research is to evaluate the performance of four UAV image processing software for the automatic estimation of volumes based on estimated volume accuracy, spatial accuracy, and execution time, with and without Ground Control Points (GCPs). A total of 52 images of a building were captured using a DJI Mavic Air UAV at 60m altitude and 80% forward and side overlap. The dataset was processed with and without GCPs using Pix4DMapper, Agisoft Metashape Pro, Reality Capture, and 3DF Zephyr. The UAV-based estimated volume generated from the software was compared with the true volume of the building generated from its as-built 3D building information modeled in Revit 2018 environment. The resulting percentage difference was computed. The average volumes estimated from the four software with the use of GCPs were 4757.448 m3 (3.87%), 4728.1 m3 (2.54%), 4291.561 m3 (11.5%), and 4154.938 m3 (14.35%), respectively. Similarly, when GCPs were not used for the image processing, average volumes of 4631.385 m3 (4.52%), 4773.025 m3 (1.6%), 4617.899 m3 (4.89%), and 4420.403 m3 (8.92%) were obtained in the same order. In addition to the volume estimation analysis, other parameters, including execution time, positional RMSE, and spatial resolution, were evaluated. Based on these parameters, Agisoft Metashape Pro proved to be more accurate, time-efficient, and reliable for volumetric estimations from UAV images compared to the other investigated software. The findings of this study can guide decision-making in selecting the appropriate software for UAV-based volume estimation in different applications.
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Authors and Affiliations

Oluibukun Gbenga Ajayi
1 2
ORCID: ORCID
Bolaji Saheed Ogundele
2
ORCID: ORCID
Gideon Abidemi Aleji
2
ORCID: ORCID

  1. Namibia University of Science and Technology, Windhoek, Namibia
  2. Federal University of Technology, Minna, Nigeria
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Abstract

We present a summary of research carried out in 2019–2022 in Poland in the area of general theory and methodology in geodesy. The study contains a description of original contributions by authors affiliated with Polish scientific institutions. It forms part of the national report presented at the 28th General Assembly of the International Union of Geodesy and Geophysics (IUGG) taking place on 11-20 July 2023 in Berlin, Germany. The Polish authors developed their research in the following thematic areas: robust estimation and its applications, prediction problems, cartographic projections, datum transformation problems and geometric geodesy algorithms, optimization and design of geodetic networks, geodetic time series analysis, relativistic effects in GNSS (Global Navigation Satellite System) and precise orbit determination of GNSS satellites. Much has been done on the subject of estimating the reliability of existing algorithms, but also improving them or studying relativistic effects. These studies are a continuation of work carried out over the years, but also they point to new developments in both surveying and geodesy.We hope that the general theory and methodology will continue to be so enthusiastically developed by Polish authors because although it is not an official pillar of geodesy, it is widely applicable to all three pillars of geodesy.
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Authors and Affiliations

Anna Klos
1
ORCID: ORCID
Marcin Ligas
2
ORCID: ORCID
Marek Trojanowicz
3
ORCID: ORCID

  1. Military University of Technology, Warsaw, Poland
  2. AGH University of Science and Technology, Krakow, Poland
  3. Wroclaw University of Environmental and Life Science, Wroclaw, Poland

Instructions for authors

The Advances in Geodesy and Geoinformation accepts a wide range of papers including original research papers, original short communication papers, review articles and symposium pieces. Details of submission are provided below. Please, note, that at the submission stage, the author(s) ensure(s) that the submitted work will not be published elsewhere in any language without the consent of the copyright owners. All co-authors also agree on the publication ethics statement.

For all parties involved in the act of publishing (the author, the journal editor(s), the peer reviewer and the publisher) it is necessary to agree upon standards of expected ethical behavior. The ethics statements for Advances in Geodesy and Geoinformation are based on the Committee on Publication Ethics (COPE) Best Practice Guidelines for Journal Editors (https://publicationethics.org/resources/guidelines ).


TYPES OF MANUSCRIPTS

Original Research papers:

Research papers can have 8000 words in length, although longer articles will be accepted on an occasional basis if the topic demands this length of treatment.

Original Short communication papers:

Short communication papers can have 2500 words as a maximum and contain at most 1 table and 3 figures. Such a note is technical and well-focused, for example illustrating a new technique, describing a well worked-out case study or a specific new algorithm.

Original research and short communications papers should contain the following sections: Abstract (max. of 250 words), Introduction, Data used and methods applied, Results, Discussion, Conclusions, Acknowledgments, References.

Review article:

The journal also considers short reviews (not exceeding 12 pages in print) intended to debate recent advances in rapidly developing fields that are within its scope. Such articles may have ample references. Reviews should contain the following sections: Abstract (max. of 250 words), Introduction, Topics (with headings and subheadings), Conclusions and Outlook, Acknowledgments, References

Symposium pieces:

Symposium pieces describe a research symposium or seminar and present the topic covered in the form of a news brief, opinion piece, or mini-review. A news brief summarizes a few talks on the same general topic or issues at a given symposium. This can include a summary of the discussion that followed the symposium or the significance of the talks at a large symposia to a particular field. It is important to indicate the main point of the symposium.

An opinion piece discusses the personal perspectives after a given symposium, including an analysis of the symposium and how this affected the author.

A mini-review can be based on a theme from a given symposium. This may require the author(s) to review articles written by a speaker at that symposium.

These articles should be no more than 3,000 words. All symposium pieces should include the following sections: Abstract (max. of 250 words), Introduction, Topics (with headings and subheadings) [specifically required for a mini-review], Conclusions and Outlook, References


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.


ETHICAL RESPONSIBILITIES OF AUTHORS

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.

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 on the corresponding author.

The Editor will counteract in Advances in Geodesy and Geoinformation 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 organizations, associations of editors etc., will be informed.


MANUSCRIPT SUBMISSION

The manuscripts are submitted online via https://www.editorialsystem.com/agg/ and should be submitted in Word. Please, do not exceed the number of words intended to a specific submission. Please, count the number of words before submitting, with abstract, acknowledgements and references excluded.

Names of authors and their affiliation should be removed from the manuscripts for the review process in order to have a fair evaluation of their manuscript. All authors of the manuscript are responsible for its content; they must have agreed to its publication and have given the corresponding author the authority to act on their behalf in all matters pertaining to publication. The Corresponding Author is responsible for informing the coauthors of the manuscript status throughout the submission, review, and production process. The editorial system requires: 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 of the corresponding author, the 16-digit ORCID number of the author(s). The corresponding author is required to provide his/her ORCID number. ORCID numbers of co-authors are not necessary, but advised.

Manuscript preparation

Manuscripts should be typed in single-line spacing throughout on the A4 sheet with 2.5 cm margins. Use plain 11-point Times Roman font for text, italics for textual emphasis, bold for mathematical vectors.

1. Abstract: The paper must be preceded by a sufficiently informative abstract presenting the most important results and conclusions. It should not be longer than 250 words and should not contain any unexplained abbreviations and unspecified references.

2. Keywords: Three to five keywords should be supplied. These are used for indexing purposes.

3. Introduction: It should explicitly state the purpose of the investigation and give a short review of the pertinent literature.

4. Main text: It should include all methods and input data (working details must be given concisely; well-known operations should not be described in details); results presented in tabular or graph form, with appropriate statistical evaluation, discussion of results - statement of conclusions drawn from the work and conclusions.

5. Acknowledgements: Please, include all institutions, names or numbers of grants that require acknowledgement. The names of funding organizations or institutions providing data should be given in full. This information is mandatory for all submitted papers.

6. Author Contributions: All authors contributing to the paper need to have their role assigned.

7. Data availability: Indicate where to download the data you used and how they can be accessed. Are your final results available anywhere?

8. References: The list of references should be prepared 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 in the text, 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). The details on the reference list preparation is provided below.

9. Formulae and symbols: They 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. use the equation editor or MathType for equations

10. Illustrations and tables: All figures (photographs, graphs or diagrams) and tables should be cited in the text and 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. Tables and illustrations have to be placed in the text and send as separate files.

11. Units: SI units must be used.

12. Short title: Please, include a running head consisting of at most 60 characters. This concise banner represents the title of the article and must be submitted by the author(s).

Proofreading

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.

Reference list

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.), . (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. Online document

Johnson, A. (2000). Abstract Computing Machines. Springer Berlin Heidelberg. Retrieved March 30, 2006, from SpringerLink http://springerlink.com/content/w25154. 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.

Charges

Advances in Geodesy and Geoinformation is published in Open Access journal with all content available with no charge in full text version. This means that all articles are available on the internet to all users immediately upon publication free of charge for the readers.



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Publication Ethics Policy


ETHIC POLICY

Editor Responsibilities

The editor of Advances in Geodesy and Geoinformation is guided by COPE’s Guidelines ( https://publicationethics.org/resources/guidelines) for Retracting Articles when considering retracting, issuing expressions of concern about, and issuing corrections pertaining to articles that have been published in the journal. The editor evaluates manuscripts for intellectual content without regard to race, gender, sexual orientation, religious belief, ethnic origin, citizenship, or political philosophy of the author(s). The editor do not disclose any information about a manuscript under consideration to anyone other than the author(s), reviewers and potential reviewers, and in some instances the editorial board members, as appropriate. The editor seeks so ensure a fair and appropriate peer review process. Editors recuse themselves (i.e. ask a co-editor, associate editor or other member of the editorial board instead to review and consider) from considering manuscripts in which they have conflicts of interest resulting from competitive, collaborative, or other relationships or connections with any of the authors, companies, or (possibly) institutions connected to the papers. Editors require all contributors to disclose relevant competing interests and publish corrections if competing interests are revealed after publication. If needed, other appropriate action should be taken, such as the publication of a retraction or expression of concern.

Reviewer Responsibilities


Peer review assists the editor in making editorial decisions and, through the editorial communication with the author, may also assist the author in improving the manuscript. Any invited referee who feels unqualified to review the research reported in a manuscript or knows that its timely review will be impossible should immediately notify the editor so that alternative reviewers can be contacted.

Any manuscripts received for review is treated as confidential documents. They must not be shown to or discussed with others except if authorized by the editor. Reviews should be conducted objectively. Personal criticism of the author is inacceptable. Referees should express their views clearly with appropriate supporting arguments.

Reviewers should identify relevant published work that has not been cited by the authors. Any statement that an observation, derivation, or argument had been previously reported should be accompanied by the relevant citation. A reviewer should also call to the editor's attention any substantial similarity or overlap between the manuscript under consideration and any other published data of which they have personal knowledge.

Privileged information or ideas obtained through peer review is kept confidential and not used for personal advantage. Reviewers should not consider evaluating manuscripts in which they have conflicts of interest resulting from competitive, collaborative, or other relationships or connections with any of the authors, companies, or institutions connected to the submission.

Author Responsibilities

Authors reporting results of original research should present an accurate account of the work performed as well as an objective discussion of its significance. Underlying data should be represented accurately in the manuscript. A paper should contain sufficient detail and references to permit others to replicate the work. Fraudulent or knowingly inaccurate statements constitute unethical behavior and are unacceptable.

The authors should ensure that they have written entirely original works, and if the authors have used the work and/or words of others that this has been appropriately cited or quoted.
An author should not in general publish manuscripts describing essentially the same research in more than one journal or primary publication. Parallel submission of the same manuscript to more than one journal constitutes unethical publishing behavior and is unacceptable.

Proper acknowledgment of the work of others must always be given. Authors should also cite publications that have been influential in determining the nature of the reported work.

Authorship should be limited to those who have made a significant contribution to the conception, design, execution, or interpretation of the reported study. All those who have made significant contributions should be listed as co-authors. Where there are others who have participated in certain substantive aspects of the research project, they should be named in an Acknowledgement section.

The corresponding author should ensure that all appropriate co-authors (according to the above definition) and no inappropriate co-authors are included in the author list of the manuscript, and that all co-authors have seen and approved the final version of the paper and have agreed to its submission for publication.

If the work involves chemicals, procedures or equipment that have any unusual hazards inherent in their use, the authors must clearly identify these in the manuscript.

All authors should disclose in their manuscript any financial or other substantive conflict of interest that might be construed to influence the results or their interpretation in the manuscript. All sources of financial support for the project should be disclosed.

When an author discovers a significant error or inaccuracy in his/her own published work, it is the author’s obligation to promptly notify the journal’s editor or publisher and cooperate with them to either retract the paper or to publish an appropriate erratum.

Publisher’s Confirmation

In cases of alleged or proven scientific misconduct, fraudulent publication or plagiarism the publisher, in close collaboration with the editors, will take all appropriate measures to clarify the situation and to amend the article in question. This includes the prompt publication

Peer-review Procedure

MANUSCRIPT REVIEW PROCEDURE

The editor of a peer-reviewed journal is responsible for deciding which articles submitted to the journal should be published, and, moreover, is accountable for everything published in the journal. In making these decisions, the editor may be guided by the policies of the journal’s editorial board as well as by legal requirements regarding libel, copyright infringement and plagiarism. The editor may confer with other editors or reviewers when making publication decisions. The editor maintain the integrity of the academic record, preclude business needs from compromising intellectual and ethical standards, and always be willing to publish corrections, clarifications, retractions and apologies when needed. The editor evaluate manuscripts for intellectual content without regard to race, gender, sexual orientation, religious belief, ethnic origin, citizenship, or political philosophy of the author(s). The editor do not disclose any information about a manuscript under consideration to anyone other than the author(s), reviewers and potential reviewers, and in some instances the editorial board members, as appropriate.

The editor is guided by COPE’s Guidelines ( https://publicationethics.org/resources/guidelines) for Retracting Articles when considering retracting, issuing expressions of concern about, and issuing corrections pertaining to articles that have been published in Advances in Geodesy and Geoinformation.

Peer review assists the editor in making editorial decisions and, through the editorial communication with the author, may also assist the author in improving the manuscript.

Any manuscripts received for review is treated as confidential documents. They must not be shown to or discussed with others except if authorized by the editor.

Manuscript evaluations are assigned one of four outcomes: Accept without changes, accept after changes suggested by reviewer, rate manuscript once again after major changes and another review, reject, withdraw.

Manuscripts requiring minor revision (accept after changes suggested by reviewer) not require a second review. All manuscripts receiving a "Rate manuscript once again after major changes and another review " evaluation must be subjected to a second review. Rejected manuscripts are given no further consideration. Normally, manuscripts that receive a "Rate manuscript once again after major changes and another review " decision have only one additional chance for revision and the revised version should be uploaded to the Editorial System within six weeks. If the author(s) failed to make satisfactory changes, the manuscript is rejected. On acceptance, manuscripts are subject to editorial amendment to suit house style. The article should be withdraw due to technical reason (e.g. names of authors are placed in the text, lack of references, or inappropriate structure of the text) or plagiarism.

Reviewers

Reviewers list 2022

Prof. Cüneyt Aydın, Yildiz Technical University, Turkey
Dr. Agnieszka Bieda, AGH University of Science and Technology, Poland
Prof. Elzbieta Bielecka, Military University of Technology, Poland
Dr. Monika Biryło, University of Warmia and Mazury in Olsztyn, Poland
Dr. Andrzej Bobojć, University of Warmia and Mazury in Olsztyn, Poland
Dr. Piotr Bożek, University of Agriculture in Krakow, Poland
Dr. Jerzy Chmiel, Warsaw University of Technology, Poland
Prof. Kazimierz Ćmielewski, Wrocław University of Environmental and Life Sciences, Poland
Dr. Bahattin Erdogan, Yildiz Technical University, Turkey
Prof. Juraj Gasinec, Technical University of Kosice, Slovakia
Dr. Volodymyr Hlotov, Lviv Polytechnic National University, Ukraine
Dr. Tymoteusz Horbiński, Institute of Physical Geography and Environmental Planning, Poland
Dr. Oleksandra Hulko, Lviv Polytechnic National University, Ukraine
Dr. Joanna Janicka, University of Warmia and Mazury in Olsztyn, Poland
Dr. Izabela Jaśkiewicz-Proć, KGHM CUPRUM sp. z o.o. – CBR, Poland
Prof. Roman Józef Kadaj, Rzeszów University of Technology, Poland
Dr. Jānis Kaminskis, Riga Technical University, Latvia
Dr. Yulia Кhavar, Lviv Polytechnic National University, Ukraine
Dr. Jolanta Korycka-Skorupa, Warsaw University, Poland
Prof. Wolfgang Kresse, University of Applied Sciences Neubrandenburg, Germany
Prof. Eugene Levin, Michigan Technological University, United States
Dr. Tomasz Lipecki, AGH University of Science and Technology, Poland
Dr. Tomasz Liwosz, Warsaw University of Technology, Poland
Prof. Radovan Machotka, Brno University of Technology, Czech Republic
Prof. Šárka Mayerová, Faculty of Military Technology University of Defence, Brno, Czech Republic
Dr. Bartosz Mitka, University of Agriculture in Krakow, Poland
Prof. Marek Mróz, University of Warmia and Mazury in Olsztyn, Poland
Prof. Maria Mrówczyńska, Architecture and Environmental Engineering University of Zielona Gora, Poland
Dr. Tomasz Noszczyk, University of Agriculture in Krakow, Poland
Dr. Agata Orych, Military University of Technology, Poland
Dr. Joanna Pluto-Kossakowska, Warsaw University of Technology, Poland
Prof. Krystian Pyka, AGH University of Science and Technology, Poland
Dr. Umberto Robustelli, University of Naples "Parthenope", Italy
Prof. Zofia Rzepecka, University of Warmia and Mazury in Olsztyn, Poland
Dr. Vira Sai, Lviv Polytechnic National University, Ukraine
Dr. D. Ugur Sanli, Yildiz Technical University, Turkey
Dr. Mahmut Oğuz Selbesoğlu, Istanbul Technical University, Turkey
Prof. Izabela Skrzypczak, Rzeszów University of Technology, Poland
Prof. Viktor Sidorenko, Kryvyi Rih National University, Geodesy Department, Ukraine
Dr. Katarzyna Stępniak, University of Warmia and Mazury in Olsztyn, Poland
Dr. Lech Stolecki, KGHM CUPRUM Sp. z.o.o. – Research and Development Centre, Poland
Dr. Jacek Sztubecki, Bydgoszcz University of Technology, Poland
Dr. İbrahim Tiryakioğlu, Afyon Kocatepe University, Turkey
Prof. Ihor Trevoho, Lviv Polytechnic National University, Ukraine
Dr. Agnieszka Trystula, University of Warmia and Mazury in Olsztyn, Poland
Dr. Tomasz Wojciechowski, MIlitary Univesrity of Technology, Poland
Dr. Ireneusz Wyczałek, Poznań University of Technology, Poland
Dr. Patrycja Wyszkowska, University of Warmia and Mazury in Olsztyn, Poland
Dr. Hanfa Xing, Shandong Normal University, China
Prof. Cemal Özer YİĞİT, Gebze Technical University, Turkey
Dr. Marek Hubert Zienkiewicz, Gdańsk University of Technology, Poland
Prof. Ryszard Źróbek, University of Warmia and Mazury in Olsztyn, Poland

Plagiarism Policy

Advances in Geodesy and Geoinformation journal uses iThenticate software to screen for plagiarism. Each manuscript submitted to the journal undergoes this procedure before it is send to the Reviewers. Authors submitting an original article should be certain that no paragraphs or data of others are presented as their own. If this is the case it will be considered 'plagiarism'. If material from other works is used, appropriate acknowledgements should be made to them. This applies to all material that is copied, summarized or paraphrased from any copyrighted material. Authors should also be certain that the work they submit is original and not a duplication of their previous work. If this is the case, it may be considered 'self-plagiarism'.

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