TY  - JOUR
AU  - Odalović, Oleg
AU  - Grekulović, Sanja
AU  - Starcević, Miroslav
AU  - Nikolić, Dobrica
AU  - Todorović-Drakul, Miljana
AU  - Joksimović, Danilo
PY  - 2018
UR  - https://grafar.grf.bg.ac.rs/handle/123456789/961
AB  - This paper presents the determination of terrain correction by the means of the Digital Density Model (DDM) of topographic masses (Earth's crust mass above the geoid) for the territory of Serbia. The DDM is determined using the Digital Terrain Model (DTM) with the resolution of 30 m, basic geological map of Serbia, and a set of hypotheses on the density of the Earth's crust masses. The assumption that the general lithosphere density over the territory of Serbia ranges between 2200 kg/m(3) and 2800 kg/m(3) was adopted. Terrain correction is determined at 5765 points, with relatively uniform distribution over the territory of Serbia. The calculations had also included comparing the values obtained therein to the terrain corrections obtained when accepting the hypothesis of constant lithosphere density of 2670 kg/m(3) . Results of comparison highlight that the differences of terrain correction values ranging from -1.31 mGal to 0.73 mGal, along with 98 % of differences falling within the range of +/- 0.2 mGal.
PB  - Zvava Geodetov Slovenije
T2  - Geodetski vestnik
T1  - Terrain correction computations using digital density model of topographic masses
EP  - 97
IS  - 1
SP  - 79
VL  - 62
DO  - 10.15292/geodetski-vestnik.2018.01.79-97
ER  - 

@article{
author = "Odalović, Oleg and Grekulović, Sanja and Starcević, Miroslav and Nikolić, Dobrica and Todorović-Drakul, Miljana and Joksimović, Danilo",
year = "2018",
abstract = "This paper presents the determination of terrain correction by the means of the Digital Density Model (DDM) of topographic masses (Earth's crust mass above the geoid) for the territory of Serbia. The DDM is determined using the Digital Terrain Model (DTM) with the resolution of 30 m, basic geological map of Serbia, and a set of hypotheses on the density of the Earth's crust masses. The assumption that the general lithosphere density over the territory of Serbia ranges between 2200 kg/m(3) and 2800 kg/m(3) was adopted. Terrain correction is determined at 5765 points, with relatively uniform distribution over the territory of Serbia. The calculations had also included comparing the values obtained therein to the terrain corrections obtained when accepting the hypothesis of constant lithosphere density of 2670 kg/m(3) . Results of comparison highlight that the differences of terrain correction values ranging from -1.31 mGal to 0.73 mGal, along with 98 % of differences falling within the range of +/- 0.2 mGal.",
publisher = "Zvava Geodetov Slovenije",
journal = "Geodetski vestnik",
title = "Terrain correction computations using digital density model of topographic masses",
pages = "97-79",
number = "1",
volume = "62",
doi = "10.15292/geodetski-vestnik.2018.01.79-97"
}

Odalović, O., Grekulović, S., Starcević, M., Nikolić, D., Todorović-Drakul, M.,& Joksimović, D.. (2018). Terrain correction computations using digital density model of topographic masses. in Geodetski vestnik
Zvava Geodetov Slovenije., 62(1), 79-97.
https://doi.org/10.15292/geodetski-vestnik.2018.01.79-97

Odalović O, Grekulović S, Starcević M, Nikolić D, Todorović-Drakul M, Joksimović D. Terrain correction computations using digital density model of topographic masses. in Geodetski vestnik. 2018;62(1):79-97.
doi:10.15292/geodetski-vestnik.2018.01.79-97 .

Odalović, Oleg, Grekulović, Sanja, Starcević, Miroslav, Nikolić, Dobrica, Todorović-Drakul, Miljana, Joksimović, Danilo, "Terrain correction computations using digital density model of topographic masses" in Geodetski vestnik, 62, no. 1 (2018):79-97,
https://doi.org/10.15292/geodetski-vestnik.2018.01.79-97 . .

TY  - JOUR
AU  - Odalović, Oleg
AU  - Starcević, Miroslav
AU  - Grekulović, Sanja
AU  - Burazer, Milenko
AU  - Aleksić, Ivan R.
PY  - 2012
UR  - https://grafar.grf.bg.ac.rs/handle/123456789/440
AB  - In this paper, gravimetric work performed in the territory of Serbia is shown chronologically from the end of the nineteenth century until present. The first work, which was based on data from pendulums, is presented briefly. Details are provided on the establishment of the first order gravimetric network from 1952 and a basic gravimetric network created 10 years later. A review of a detailed gravimetric measurement, performed simultaneously with these works for establishing the networks, is also given. Special attention is dedicated to the first measurements using absolute gravimeters that were performed in 2007, but also to establishing a new basic gravimetric network as a basis for a future detailed gravimetric survey. From all of the shown data, it is to be noted that ex-Yugoslavia and then Serbia followed to a great extent modern trends of gravimetric network development. Unfortunately, the network maintenance was inadequate, and a database was not established due to the political and economic changes in the society, which caused suspension of some institutions that were authorised for these types of jobs.
T2  - Survey Review
T1  - The establishment of a new gravity reference frame for Serbia
EP  - 281
IS  - 327
SP  - 272
VL  - 44
DO  - 10.1179/1752270611Y.0000000033
ER  - 

@article{
author = "Odalović, Oleg and Starcević, Miroslav and Grekulović, Sanja and Burazer, Milenko and Aleksić, Ivan R.",
year = "2012",
abstract = "In this paper, gravimetric work performed in the territory of Serbia is shown chronologically from the end of the nineteenth century until present. The first work, which was based on data from pendulums, is presented briefly. Details are provided on the establishment of the first order gravimetric network from 1952 and a basic gravimetric network created 10 years later. A review of a detailed gravimetric measurement, performed simultaneously with these works for establishing the networks, is also given. Special attention is dedicated to the first measurements using absolute gravimeters that were performed in 2007, but also to establishing a new basic gravimetric network as a basis for a future detailed gravimetric survey. From all of the shown data, it is to be noted that ex-Yugoslavia and then Serbia followed to a great extent modern trends of gravimetric network development. Unfortunately, the network maintenance was inadequate, and a database was not established due to the political and economic changes in the society, which caused suspension of some institutions that were authorised for these types of jobs.",
journal = "Survey Review",
title = "The establishment of a new gravity reference frame for Serbia",
pages = "281-272",
number = "327",
volume = "44",
doi = "10.1179/1752270611Y.0000000033"
}

Odalović, O., Starcević, M., Grekulović, S., Burazer, M.,& Aleksić, I. R.. (2012). The establishment of a new gravity reference frame for Serbia. in Survey Review, 44(327), 272-281.
https://doi.org/10.1179/1752270611Y.0000000033

Odalović O, Starcević M, Grekulović S, Burazer M, Aleksić IR. The establishment of a new gravity reference frame for Serbia. in Survey Review. 2012;44(327):272-281.
doi:10.1179/1752270611Y.0000000033 .

Odalović, Oleg, Starcević, Miroslav, Grekulović, Sanja, Burazer, Milenko, Aleksić, Ivan R., "The establishment of a new gravity reference frame for Serbia" in Survey Review, 44, no. 327 (2012):272-281,
https://doi.org/10.1179/1752270611Y.0000000033 . .