TY  - JOUR
AU  - Bajat, Branislav
AU  - Joksić, Dušan
AU  - Nedeljković, Zoran
PY  - 2007
UR  - https://grafar.grf.bg.ac.rs/handle/123456789/149
AB  - A period of fifty years has been reached since the introduction of the first applications based upon geographical information systems (GIS). GIS has not only influenced the development of methods, collection techniques, processing, manipulation and visualization of spatial data. It influenced also the expansion of scientific research in geosciences, as well as the technical disciplines that are engaged in spatial analysis. Nowadays, GIS is becoming the tool for verification and practical implementation of models and algorithms that have been developed within the frame of basic scientific disciplines. The meaning of the GIS acronym is becoming more and more related to term of Geographical or Geo Information Sciences. Scientific concepts that are increasingly applied in GIS are more emphasized in that way. GIS computational techniques, required also the development of geographical data models that should effectively support GIS operations. These models represent formal equivalents of conceptual models used by people in observing geographic phenomena. Spatial phenomena used to be mapped as clearly defined points with known coordinates, or as lines which connect the very same points, or as polygons with exactly defined borders. They were mapped previously in analog form and nowadays in digital format. This approach of perceiving a space, data analyses and visualization of spatial quires is limited on the application of basic rules of Boolean algebra and binary logic, with final results presented as classical thematic maps. The need for a mathematical model that would describe uncertainty of spatial data, resulted in the introduction of the theory of fuzzy sets in spatial analysis. Moreover, this model will provide a solution for visualization and grouping up of spatial phenomena in classes which do not have clearly defined borders.
AB  - Primena tehnologija Geografskih Informacionih Sistema (GIS) otvorila nove pristupe i metodologije u analizama prostornih podataka. Narastajuće potrebe za prostornim podacima i efikasnijim sredstvima za njihovu analizu mogu se zadovoljiti primenom geoinformatičkih tehnologija. Uporedo sa razvojem GIS-a, posebno u zadnjoj deceniji dvadesetog veka i početkom novog milenijuma, svedoci smo i ekspanzije tehnologija koje se bave prikupljanjem i transferom prostornih podatka. To je rezultovalo povećanjem obima dostupnih podataka ali i svesti o potrebi za kritičkim sagledavanjem kvaliteta podataka, pouzdanosti i ocene pogodnosti za upotrebu u specifičnim aplikacijama. To je dovelo i do promenama u konceptu sagledavanja i apstrakcije prostora, a s time i novim pristupima u geoprocesiranju prostornih podataka, vizuelizaciji rezultata prostornih analiza.
PB  - Srpska akademija nauka i umetnosti SANU - Geografski institut 'Jovan Cvijić', Beograd
T2  - Zbornik radova Geografskog instituta "Jovan Cvijić", SANU
T1  - Fuzzy view of environment
T1  - Fuzzy pogled na životno okruženje
EP  - 406
IS  - 57
SP  - 399
DO  - 10.2298/IJGI0757399B
ER  - 

@article{
author = "Bajat, Branislav and Joksić, Dušan and Nedeljković, Zoran",
year = "2007",
abstract = "A period of fifty years has been reached since the introduction of the first applications based upon geographical information systems (GIS). GIS has not only influenced the development of methods, collection techniques, processing, manipulation and visualization of spatial data. It influenced also the expansion of scientific research in geosciences, as well as the technical disciplines that are engaged in spatial analysis. Nowadays, GIS is becoming the tool for verification and practical implementation of models and algorithms that have been developed within the frame of basic scientific disciplines. The meaning of the GIS acronym is becoming more and more related to term of Geographical or Geo Information Sciences. Scientific concepts that are increasingly applied in GIS are more emphasized in that way. GIS computational techniques, required also the development of geographical data models that should effectively support GIS operations. These models represent formal equivalents of conceptual models used by people in observing geographic phenomena. Spatial phenomena used to be mapped as clearly defined points with known coordinates, or as lines which connect the very same points, or as polygons with exactly defined borders. They were mapped previously in analog form and nowadays in digital format. This approach of perceiving a space, data analyses and visualization of spatial quires is limited on the application of basic rules of Boolean algebra and binary logic, with final results presented as classical thematic maps. The need for a mathematical model that would describe uncertainty of spatial data, resulted in the introduction of the theory of fuzzy sets in spatial analysis. Moreover, this model will provide a solution for visualization and grouping up of spatial phenomena in classes which do not have clearly defined borders., Primena tehnologija Geografskih Informacionih Sistema (GIS) otvorila nove pristupe i metodologije u analizama prostornih podataka. Narastajuće potrebe za prostornim podacima i efikasnijim sredstvima za njihovu analizu mogu se zadovoljiti primenom geoinformatičkih tehnologija. Uporedo sa razvojem GIS-a, posebno u zadnjoj deceniji dvadesetog veka i početkom novog milenijuma, svedoci smo i ekspanzije tehnologija koje se bave prikupljanjem i transferom prostornih podatka. To je rezultovalo povećanjem obima dostupnih podataka ali i svesti o potrebi za kritičkim sagledavanjem kvaliteta podataka, pouzdanosti i ocene pogodnosti za upotrebu u specifičnim aplikacijama. To je dovelo i do promenama u konceptu sagledavanja i apstrakcije prostora, a s time i novim pristupima u geoprocesiranju prostornih podataka, vizuelizaciji rezultata prostornih analiza.",
publisher = "Srpska akademija nauka i umetnosti SANU - Geografski institut 'Jovan Cvijić', Beograd",
journal = "Zbornik radova Geografskog instituta "Jovan Cvijić", SANU",
title = "Fuzzy view of environment, Fuzzy pogled na životno okruženje",
pages = "406-399",
number = "57",
doi = "10.2298/IJGI0757399B"
}

Bajat, B., Joksić, D.,& Nedeljković, Z.. (2007). Fuzzy view of environment. in Zbornik radova Geografskog instituta "Jovan Cvijić", SANU
Srpska akademija nauka i umetnosti SANU - Geografski institut 'Jovan Cvijić', Beograd.(57), 399-406.
https://doi.org/10.2298/IJGI0757399B

Bajat B, Joksić D, Nedeljković Z. Fuzzy view of environment. in Zbornik radova Geografskog instituta "Jovan Cvijić", SANU. 2007;(57):399-406.
doi:10.2298/IJGI0757399B .

Bajat, Branislav, Joksić, Dušan, Nedeljković, Zoran, "Fuzzy view of environment" in Zbornik radova Geografskog instituta "Jovan Cvijić", SANU, no. 57 (2007):399-406,
https://doi.org/10.2298/IJGI0757399B . .

TY  - JOUR
AU  - Joksić, Dušan
AU  - Bajat, Branislav
PY  - 2005
UR  - https://grafar.grf.bg.ac.rs/handle/123456789/98
AB  - Digital terrain models (DTMs) represent segments of spatial data bases related to presentation of terrain features and landforms. Square grid elevation models (DEMs) have emerged as the most widely used structure during the past decade because of their simplicity and simple computer implementation. They have become an important segment of Topographic Information Systems (TIS), storing natural and artificial landscape in forms of digital models. This kind of a data structure is especially suitable for morph metric terrain evaluation and analysis, which is very important in environmental and urban planning and Earth surface modeling applications. One of the most often used functionalities of Geographical information systems software packages is indivisibility or view shed analysis of terrain. Indivisibility determination from analog topographic maps may be very exhausting, because of the large number of profiles that have to be extracted and compared. Terrain representation in form of the DEMs databases facilitates this task. This paper describes simple algorithm for terrain view shed analysis by using DEMs database structures, taking into consideration the influence of uncertainties of such data to the results obtained thus far. The concept of probability maps is introduced as a mean for evaluation of results, and is presented as thematic display.
PB  - Institut za arhitekturu i urbanizam Srbije, Beograd
T2  - Spatium
T1  - Probability maps as a measure of reliability for indivisibility analysis
EP  - 27
IS  - 12
SP  - 22
DO  - 10.2298/SPAT0512022J
ER  - 

@article{
author = "Joksić, Dušan and Bajat, Branislav",
year = "2005",
abstract = "Digital terrain models (DTMs) represent segments of spatial data bases related to presentation of terrain features and landforms. Square grid elevation models (DEMs) have emerged as the most widely used structure during the past decade because of their simplicity and simple computer implementation. They have become an important segment of Topographic Information Systems (TIS), storing natural and artificial landscape in forms of digital models. This kind of a data structure is especially suitable for morph metric terrain evaluation and analysis, which is very important in environmental and urban planning and Earth surface modeling applications. One of the most often used functionalities of Geographical information systems software packages is indivisibility or view shed analysis of terrain. Indivisibility determination from analog topographic maps may be very exhausting, because of the large number of profiles that have to be extracted and compared. Terrain representation in form of the DEMs databases facilitates this task. This paper describes simple algorithm for terrain view shed analysis by using DEMs database structures, taking into consideration the influence of uncertainties of such data to the results obtained thus far. The concept of probability maps is introduced as a mean for evaluation of results, and is presented as thematic display.",
publisher = "Institut za arhitekturu i urbanizam Srbije, Beograd",
journal = "Spatium",
title = "Probability maps as a measure of reliability for indivisibility analysis",
pages = "27-22",
number = "12",
doi = "10.2298/SPAT0512022J"
}

Joksić, D.,& Bajat, B.. (2005). Probability maps as a measure of reliability for indivisibility analysis. in Spatium
Institut za arhitekturu i urbanizam Srbije, Beograd.(12), 22-27.
https://doi.org/10.2298/SPAT0512022J

Joksić D, Bajat B. Probability maps as a measure of reliability for indivisibility analysis. in Spatium. 2005;(12):22-27.
doi:10.2298/SPAT0512022J .

Joksić, Dušan, Bajat, Branislav, "Probability maps as a measure of reliability for indivisibility analysis" in Spatium, no. 12 (2005):22-27,
https://doi.org/10.2298/SPAT0512022J . .

TY  - JOUR
AU  - Joksić, Dušan
AU  - Bajat, Branislav
PY  - 2004
UR  - https://grafar.grf.bg.ac.rs/handle/123456789/61
AB  - We are witnessing nowadays that the last decade of the past century, as well as the first years of the present one, have brought technology expansion with respect to spatial data gathering and processing which makes a physical basis for management of spatial development. This has resulted in enlargement of the spatial data market. New technologies, presented in computer applications, have greatly expanded the number of users of these products. The philosophy of spatial data collecting has changed; analogue maps and plans printed on paper have been replaced by digital data bases which enable their presentation in a way that is the best for a particular user. Further, digital spatial data bases provide the possibility of their further upgrading by users. The two aspects, with respect to circumstances mentioned above, are very important in the process of data bases production and distribution. Firstly, the users of these data bases should be the ones who decide which of the available bases could satisfy their requirements, or in other words, what is the data quality level necessary for a certain application. On the other hand, the visualization of digital data bases could often mislead, since review of data bases could present data with better accuracy then the actual one. Thus, certain methods that would point to a quality of the selected data in the process of their analysis should be available to users. Specific, already adopted international standards, or specially developed procedures and methodologies, so called de facto standards, could be used in this data processing, enabling the estimation of these data quality. The development of Open GIS concept requires the adoption of widely accepted standards for spatial data quality. It is recommended that ISO standards should be accepted, firstly TC211 standards which are related to geographic information and geomatics. The realization of projects on ISO standards should be finished by 2006, so, all participants of these data bases should be both familiar with this project and ready to adapt to the given solutions. The basic components defining quality of data bases are explained by this work, and the results of the standardization regarding the procedures and methodology of their quality assessment, obtained so far, are also presented.
PB  - Institut za arhitekturu i urbanizam Srbije, Beograd
T2  - Spatium
T1  - Elements of spatial data quality as information technology support for sustainable development planning
EP  - 83
IS  - 11
SP  - 77
DO  - 10.2298/SPAT0411077J
ER  - 

@article{
author = "Joksić, Dušan and Bajat, Branislav",
year = "2004",
abstract = "We are witnessing nowadays that the last decade of the past century, as well as the first years of the present one, have brought technology expansion with respect to spatial data gathering and processing which makes a physical basis for management of spatial development. This has resulted in enlargement of the spatial data market. New technologies, presented in computer applications, have greatly expanded the number of users of these products. The philosophy of spatial data collecting has changed; analogue maps and plans printed on paper have been replaced by digital data bases which enable their presentation in a way that is the best for a particular user. Further, digital spatial data bases provide the possibility of their further upgrading by users. The two aspects, with respect to circumstances mentioned above, are very important in the process of data bases production and distribution. Firstly, the users of these data bases should be the ones who decide which of the available bases could satisfy their requirements, or in other words, what is the data quality level necessary for a certain application. On the other hand, the visualization of digital data bases could often mislead, since review of data bases could present data with better accuracy then the actual one. Thus, certain methods that would point to a quality of the selected data in the process of their analysis should be available to users. Specific, already adopted international standards, or specially developed procedures and methodologies, so called de facto standards, could be used in this data processing, enabling the estimation of these data quality. The development of Open GIS concept requires the adoption of widely accepted standards for spatial data quality. It is recommended that ISO standards should be accepted, firstly TC211 standards which are related to geographic information and geomatics. The realization of projects on ISO standards should be finished by 2006, so, all participants of these data bases should be both familiar with this project and ready to adapt to the given solutions. The basic components defining quality of data bases are explained by this work, and the results of the standardization regarding the procedures and methodology of their quality assessment, obtained so far, are also presented.",
publisher = "Institut za arhitekturu i urbanizam Srbije, Beograd",
journal = "Spatium",
title = "Elements of spatial data quality as information technology support for sustainable development planning",
pages = "83-77",
number = "11",
doi = "10.2298/SPAT0411077J"
}

Joksić, D.,& Bajat, B.. (2004). Elements of spatial data quality as information technology support for sustainable development planning. in Spatium
Institut za arhitekturu i urbanizam Srbije, Beograd.(11), 77-83.
https://doi.org/10.2298/SPAT0411077J

Joksić D, Bajat B. Elements of spatial data quality as information technology support for sustainable development planning. in Spatium. 2004;(11):77-83.
doi:10.2298/SPAT0411077J .

Joksić, Dušan, Bajat, Branislav, "Elements of spatial data quality as information technology support for sustainable development planning" in Spatium, no. 11 (2004):77-83,
https://doi.org/10.2298/SPAT0411077J . .

TY  - THES
AU  - Joksić, Dušan
PY  - 1978
UR  - https://grafar.grf.bg.ac.rs/handle/123456789/3480
T1  - Uticaj rasporeda oslonih tačaka na tačnost aerotriangulacije u katastarskoj primeni fotogrametrije
UR  - https://hdl.handle.net/21.15107/rcub_grafar_3480
ER  - 

@phdthesis{
author = "Joksić, Dušan",
year = "1978",
title = "Uticaj rasporeda oslonih tačaka na tačnost aerotriangulacije u katastarskoj primeni fotogrametrije",
url = "https://hdl.handle.net/21.15107/rcub_grafar_3480"
}

Joksić, D.. (1978). Uticaj rasporeda oslonih tačaka na tačnost aerotriangulacije u katastarskoj primeni fotogrametrije. .
https://hdl.handle.net/21.15107/rcub_grafar_3480

Joksić D. Uticaj rasporeda oslonih tačaka na tačnost aerotriangulacije u katastarskoj primeni fotogrametrije. 1978;.
https://hdl.handle.net/21.15107/rcub_grafar_3480 .

Joksić, Dušan, "Uticaj rasporeda oslonih tačaka na tačnost aerotriangulacije u katastarskoj primeni fotogrametrije" (1978),
https://hdl.handle.net/21.15107/rcub_grafar_3480 .