obrazac broj 1. pcelarstvo izvještaj vanr. prof
TRANSCRIPT
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29.12.1995. , 1996-2003. , ) ,
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05-422/03 09.12.2003. , 2003-2008. ,
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05-2538/09 25.06. 2009. ., 2009-2014. ,
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02/04-3.2369-22/14 16.07. 2014. .
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( 19. 20.) 1.1. (6 ) 1. , ., , ., , . (2003):
, , 2, 216-225 (1,00 6=6 ) 2. , ., , ., , . (2003):
, , 52, 3-4, 55-57, (1,00 6=6 )
3. ., ., , . (2003): , , 52, 3-4, 59-60, , (1,00 6=6 )
4. , ., , ., , . (2003): , , 52, 3-
4, 61-63, , (1,00 6=6 ) 5. ., ., .(2001):
. , 2, 3, 110-115 (1,00 6=6 ) 6. , ., , ., , ., , . (2001):
, , 2, 4, 92-96 (0,75 6=4 ) 7. , ., , ., , . (2001):
, , 2, 4, 97-101 (1,00 6=6 ). 1.2. , (5 ) 8. ., , ., ., . (2014):
, 49. 9. , 16.–21. 2 2014., , , ,
495-498 (0,5 5=2,5 ) 9. , ., , ., , ., , ., , , .,
, . (2014) : , 1. , 13. 2 2014. , ,
, , 53-58 (0,3 5=1,5 ) 10. , ., , ., , ., , ., , . (2013): Variability of
the production characteristics of the is traits of the honey bee in the area of Trebinje, 4. Me unarodni simpozijum "Agrosym 2013", 3.-6. 10 2013. god., , , , 1050-1055 (0,5 5=2,5 )
11. ., , . (2012): , 17. , 6-7. 4 2012. ., , ,
, 17, 19, 244-248 (1,0 5=5 ) 12. , ., , . (2012): "
", 47. 7. , 13.–17. 2. 2012., , , , 610-613 (1,0 5=5 )
13. , . (2011): " ", 46. 6. , 14. – 18. 2. 2011., ,
, , 810-812 (1,0 5=5 ) 14. , . (2010): " ", 15.
, 26-27. 3. 2010., , , , 15, 17, 523-528 (1,0 5=5 )
15. , ., , ., , . (2009): , 17. , 7. 2 2009., , , ,
153-156 (1,00 5=5 ) 16. , ., , ., , , . (2007):
“, 15. , , , , 153-158 (0,75 5=3,75 )
17. , ., , ., , . (2005): ( ) , 40. , , , 13-18. 2 2005.,
, 225-226 (1,0 5=5 )
18. , ., , ., - , ., , . (2005): , 13. , , , 12-13. 2 2005. , 77-81 (0,75 5=3,75 )
19. , ., , ., , ., , ., , , . (2005): , 13.
, , , 12-13.2 2005., , 100-105 (0,3 5=1,5 )
20. , ., , . (2003): , 11. ,
, , 8-9. 02. 2003, , 65-73 (1,00 5=5 ) 21. , ., , ., , ., , , , . (2002):
Varroe Jacobsoni, XV , , 18, 5-6, , , 329-332., (0,5 5=2,5 )
22. , ., , ., , ., , ., , . (2002): , 15. ,
, 18, 5-6, , , 333-337., (0,5 5=2,5 )
1.3. . , (3 ) 23. ., , , ., . (2013): "Impact of Different
Feed on Intestine Health of Honey Bees", 43. Internacional Apicultural Congres, 29. 9. – 4. 10. 2013, Kyiv, Ukrajina, Book of Abstracts, 113 (0,75 3=2,25 )
24. , ., , ., , ., , . (2012): "The Morphological Characterization of the Honey Bee from Different Sites in Serbia", 35th Beekeeping Days, 16-18. 3 2012, Celje, Slovenija, Book of abstracts, 37-38 (0,75 3=2,25 )
25. , , , ., , ., - , , ., , . (2010): "Opportunities for the development of organic
beekeeping in the protected areas in the republic of Macedonia, Serbia and Bosnia-Herzegovina", First World Conference on Organic Beekeeping, 27-29. 8 2010., Sunny Beach, Bulgaria, Book of abstracts, 54 (0,3 3=0,9 )
26. , . (2010): " ", " , ", 20-27.6 2010., , , 138
(1,00 3=3,00 ) 27. , , ., , . (2009): "Influence of copper gluconate and
amitraz on throw down varoa number in beehives", XXXXII Internacional Apicultural Congres, 15. – 20. 9. 2009, Montpellier, France (1,00 3=3,00 )
28. , , ., , , ., , . (2007): Active survey on health status in queen rearing units Apis mellifera in Republic of Serpska, B&H, West Balkan region, 40th Apimondia, Melbourne Australia, 9th to 14th 2007, Congress Abstracts, 117 (0,5x3=1,5 )
29. , ., , ., , . (2005): Enzyme and acids in nourishement of honey bees in B&H, 39h Apimondia, Dublin, Ireland, 21-26. 8 2005., Congress Abstracts, 132 (1x3=3
) 30. , ., , ., , , ., , . (2005): Phacelia as potential basis
for honeybee and animal food, 39th Apimondia, Dablin, Ireland, 21-26. 8 2005., Congress Abstracts, 143 (0,5x3=1,5 )
31. . . (2003): Influence of sugar syrup inverted with lactic acid on honey bees, 37. Apimondia Internacional Apicultural congres Ljubljana, Slovenija, 24-29. 8 2003., Book of Abstrakts, 444 (1,00x3=3 )
32. , ., , . (2003): Beekeeping in east Herzegovina, 37. Apimondia Internacional Apicultural congres Ljubljana, Slovenija, 24-29. 8 2003., Book of Abstrakts, 700 (1,00x3=3 )
1.4. , (1 ) 33. , ., , ., , ., , ., , . (2012): "
", 1. 17. - , 19 – 22. 3 2012, , ,
, 58 (0,5 1=0,5 ), 34. , ., , , . (2010): "
", 1. 17. - , 19 – 22. 3 2012, , , , 59
(1,00 1=1,00 ) 35. , ., , . (2011): "
", 16. - , 22 – 25. 3 2011. , , , 196 (1,00 1=1,00 ),
36. , ., , ., , . (2010): " ", 15. - , 16 – 19. 3 2010. , , , 125
(1,00 1=1,00 ) 37. , ., , ., , . (2008):
(apis mellifera carnica poll.) , 13. , 11-13. 3 2008., , , , 59 (1,00 1=1 )
38. , ., , ., , , , . (2007): , 12. , 7-
9. 3 2007., , , , 56 (0,5 1=0,5 ) 39. , ., , ., , ., , . (2006):
, 11. , 13-16. 3 2006., , , , 108 (0,75 1=0,75 )
40. , ., , ., , ., , . (2006): , 11. , 13-16. 3
2006., , , , 128 (0,75 1=0,75 ) 41. , ., , ., , ., , . (2006):
, 11. , 13-16. 3 2006., , , , 128 (0,75 1=0,75 )
42. , ., , ., , ., , . (2006): , 11. , 13-16. 3 2006., , ,
, 130 (0,75 1=0,75 ) 43. , ., , ., , , , ., , . (2006):
, 13-16. 3 2006., , , , 138 (0,75 1=0,75 )
44. , ., , ., . (2005): „ - , 10. - , ,
, 28-31. 3 2005., , 97 (1,00 1=1,00 ) 45. , , ., , ., , . (2003):
: , 7. , 22-23. 3 2003., , ,
, 18 (0,75 1=0,75 ) 46. ., , ., . (2003):
, I , 13-14. 1 2003., , , , 17 (0,75 1=0,75 )
47. , ., , ., , . (2003): . , 8. , 10-14. 3 2003, , ,
,165 (1,00 1=1,00 ) 48. , ., , ., , ., , ., , . (2003):
, 8. , 10-14. 3 2003., , , , 14-15 (0,5 1=0,5 )
49. , ., , ., , , ., , . (2001): , 6. - ,
13-16. 3 2001., , , , 161 (0,5 1=0,5 ) 50. , ., , ., , . (2001): , 6.
- , 13-16. 3 2001., , , , 163-164 (1,00 1=1,00 )
51. , , , ., , . (2001): , 6. - , 13-16. 3 2001., , ,
, 165 (1,00 1=1,00 ) 52. , ., , , ., , . (2001):
, 6. - , 13-16. 3 2001., , , , 170 (0,75 1=0,75 )
53. , ., , ., , ., , , ., , . (2000): , 5. -
, 13-17. 3 2000., , , , 24-25 (0,3 1=0,3 )
54. , ., , . (2000): , 6. - , 13-17. 3 2000., , , ,
32 (1,00 1=1,00 ) 1.5. (1 ) 55. ,
, , : (2004-2006), (1 )
1.6. (3 )
56. , ., , . (2012): " ", 47. 7. , 13.–17. 2. 2012., , , 605-609 (1,0 3=3,00 )
57. , ., , ., , ., , . (2003): , , 52, 3-4, 65-68, (0,75x3=2,25 )
: 40 (1.1) + 55,5 (1.2) + 23,4 (1.3) + 17,3 (1.4) + 1 (1.5) + 5,25 (1.6) = 142,45
/ ( ,
19. 20.) 2.1. (8 ): 1. , . (2019): , , ,
, ISBN , 115 (1x8=8 )
2.2. , (5 ): 1. , ., , ., , ., Turnbull, G., Gillanders, R., Glackin, J., , .,
, ., , . (2018): "Bees for Explosive Detection", Proceedings of 15th International Symposium Mine Action 2018, ISSN 1849-3718, , , 9-12. 4 2018., Book papers, 42-45 (0,3 5=1,50 ) NATO Science for Peace and Security Pro- gramme accepted to support Bees for Explo- sive detection at the end of 2017 year. Con- ditioning of a colony has been challenge and its use in a test mine field conditions was one of the research goals in TIRAMISU FP7 project. An aim of the programme is to de- velop innovative methods and technologies for the detection of legacy landmines. This will be achieved by the advancement and integration of current state-of-the-art tech- niques, namely, bee colonies in conjunction with organic semiconductor-based explo- sive vapour sensing films, and UAVs with high-definition and thermal imaging c meras and image processing and analysis software. The use of these methods together will allow both the passive sampling of an area to con- firm the presence of explosive materials, and the active pinpointing of landmine locations.
The major objective of Bees for Explosive is to work with end-users and experts to ensure a high-impact delivery of the project's results.
- 2017. .
TIRAMISU FP7 . .
. , , ,
. ,
. .
2. , ., , ., , . (2018): " (Apis mellifera carnica) ", 53. 13. , 18-23. 2 2018. ., , , , 385-388 (1,00 5=5,00 ) The aim of the research is to determine the average length of proboscis and cubital index, from six apiaries northwestern part of Bosnia and Herzegovina, the Banja Luka region (Novi Grad, Prijedor, Kozarska Dubica, Banja Luka, Srbac and Gradiska). The research was conducted on samples of 50 bees per location, honeybee breed, which is grown in this area, with the assumption that it is a Carniolan breed Apis mellifera carnica. The survey was conducted using a digital microscope (magnification of 20x to 800x). Based on the obtained results it was established that the length of the proboscis ranged from 6 to 7 mm and the cubital index values from 2.2 to 3.2, which corresponds to the breed characteristics of this honeybee breed. The obtained values of cubital index indicate not homogeneous genetic composition of bees. The research results point to the importance of protecting indigenous race honeybee, adapted to climate and other characteristics of the area, which calls for further research in this area.
.
( , , , , ). 50 ,
- Apis mellifera carnica. ( 20x 800x).
6 7 , 2,2 3,2, .
, , .
3. , ., , . (2017): "Analysis of morphological characteristics of carniolan bees from the Banja Luka region", The International Symposium on Animal Science (ISAS) 05. – 10. 6 2017. god., , , Proceedings, 397-403 (1,00 5=5,00 ) The goal of research is to analyze the morphological characteristics of honey bee Apismellifera L. from the area of Banja Luka region, namely: lenght of whiskers on the fifth segment of the abdomen, a width of tomentum on fourth ring and size of the tibia, from six apiaries of Banja Luka region (Novi Grad, Prijedor, Kozarska Dubica, Banja Luka, Srbac and Gradiska). Based on these parameters was determined affiliation of investigated worker bees (50 pcs.) to honeybee breed, which is grown in this area (Carniolan bee – Apis mellifera carnica). The research was conducted using a digital microscope (magnification from 20x to 800x). Based on the results of research it was found that the length of the whiskers on the fifth segment of the abdomen ranged from 0.25 mm to 0.35 mm, and the surface of the tibia from 1.5 mm² to 2.28 mm², which fully corresponds to the breed characteristics of this breed of honey bees. By analyzing the width of tomentum on fourth abdominal ring, in all samples was determined also belonging to Carniolan breed Apis mellifera carnica. The results point to the necessity of preserving the indigenous breed of honeybee, which has fully adapted to the climate and other characteristics of the area, and it will, with further study, subserve controlled
traffic of qeen bees within BiH and selection to desirable traits. Apis mellifera L.
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( 50 .) , ( -Apis mellifera carnica).
( 20x 800x). 0,25 0,35 , 1,5 2,28 ²,
. , Apis mellifera carnica.
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4. , ., , ., , ., , ., , . (2016): "Forewing differences between honey bees from Banat and central Serbia", The International Symposium on Animal Science (ISAS) 24.–25. 11 2016. god., , , Proceedings, 444-451 (0,5 5=2,5 ) The first written record of the varietie s of honey bees in Serbia may be found in the work of Grozdanic (1926) who performed morphological comparisons of honey bee samples from Banat with A. m. carnica , A. m. ligustica , A. m. cypria and A. m. syriaca and suggested the separation of the bees from Banat into subspecies A . m. banatica . Due to the adaptable abilities of bee s to specific habitat conditions in the Pannonian plain , it is assumed that different geographic ecotypes were created there. Because of this the aim of our research was to analyze a part of morphological characters of honey bees from Banat and to compare them with honey bees from Central Serbia, in order to help distingui sh and preserve indigenous honey bee varieties. The samples were collected in three different locations in Banat and one location in Central Serbia. In this study, 14 morphometric characters were measured in accordance with the standard method. By means of a variance analysis very significant differences were determined between the two examined bee groups. On the basis of LSD test we have determined that some honey bee groups from Banat differed very significantly (P<O.O 1) from honey bees in Central Serbia regarding A4, D7 and E9 angles. Honey bees from Uljma (Southern Banat region) differed very significantly from examined honey bees as regards the size of 026 angle (42.1 1±3.03°). Group of bees from Central Serbia had a very significantly larger width of forewing in relation to Banat honey bees. Investigation of morphometric character s on the forewing could contribute to a clearer separation of groups of bees in side domestic population.
(1926) A. m. carnica, A.
m. ligustica, A. m. cipria i A. m. siriaca A. m. banatica.
, .
, .
. , 14 .
. LSD (P <O.O 1)
4, 7 9. ( )
026 (42,1 1 ± 3.03 °). .
. 5. , , , ., , ., , . (2016): "Pollen bearing honey bee detection in hive entrance video recorded by remote embedded system for pollination monitoring", ISPRS Annals of the Photogrammetry, Remote Sensing and Spatial Information Sciences, Volume III-7, 51-57 XXIII ISPRS Congress, 12-19. 7. 2016, Prague, (0,75 5=3,75 ) Honey bees have crucial role in pollination across the world. This paper presents a simple, non-invasive, system for pollen bearing honey bee detection in surveillance video obtained at the entrance of a hive. The proposed system can be used as a part of a more complex system for tracking and counting of honey bees with remote pollination monitoring as a final goal. The proposed method is executed in real time on embedded systems co-located with a hive. Background subtraction, color segmentation and morphology methods are used for segmentation of honey bees. Classification in two classes, pollen bearing honey bees and honey bees that do not have pollen load, is performed using nearest mean classifier, with a simple descriptor consisting of color variance and eccentricity features. On in-house data set we achieved correct classification rate of 88.7% with 50 training images per class. We show that the obtained classification results are not far behind from the results of state-of-the-art image classification methods. That favors the proposed method, particularly having in mind that real time video transmission to remote high performance computing workstation is still an issue, and transfer of obtained parameters of pollination process is much easier.
. ,
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, , ,
. 88,7% 50 .
. , ,
. 6. , ., , ., , , , . (2016): "Background subtraction for honey bee detection in hive entrance video", XV me unarodni nau no-stru ni simpozijum Infoteh-ahorina 2016, 16.-18. 3 2016. god., , , ,736-741 (0,75 5=3,75 )
Honey bees play crucial role in pollination across the world, therefore it’s of great significance to observe status of honey bee colony honey inside bee hive. Use of automated honey bee analysis will minimize human impact on bee colony and protect her from outer influences. In hive entrance video honey bees represent fast moving objects, so the task of identifying honey bees represent widely known moving object detection problem. Paper gives researchers guidelines for finding suitable background subtraction technique that would be sufficiently accurate and computationally efficient to execute on embedded systems. This would enable researchers to develop more complex algorithms for honey bee analysis behavior. To find the most suitable technique we underwent trough comparative analysis of techniques that are often use for detecting moving objects. In the end we selected Mixture of Gaussians for honey bee detection.
, .
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. Mixture of Gaussians .
7. , ., , . (2016): "
", 21. , 11.-12. 3 2016. ., , , , 587-591 (1,00 5=5,00 )
Winter honeybees intake minimal amounts of food, only for maintenance needs. This study aims to determine the effect of year of research and the different types of food on the amount of consumed food. The survey found a statistically significant difference between mean values of food consumption by years of research, as well as mean values of consumption of different types of food. According to our results, it can be concluded that winter honeybees need easily acceptable energy for maintenance needs, so supplemental feeding during preparation for winter should be consisted only of invert syrup, without additon of protein or other nutrients.
, . -
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, . , ,
. 8. , ., , . (2016): "
", 51. 11. , 15-18. 2 2016. ., , , , 289-292 (1,00 5=5,00 ) The aim of the research was to determine the water consumption in the summer bees fed with different types of food. The average water consumption per bee ranged from 0.016 to 0.025 ml per bee day. Minimum was found in bees fed with enzymatic invert syrup and maximum in the group fed with enzymatic invert syrup and yeast. Productivity of bee colonies is greater if more bees bring nectar, and less bees bring water and pollen. If the physiological needs of bees for water are less, as a result of adequate nutrition and good climate and pasture conditions, higher yields of honey can be expected.
. 0,016 – 0,025
. , .
, . , ,
– . 9. , ., , ., , ., , ., , . (2015): "Morphological characterization of the honey bee (Apis mellifera L.) from different sites of Serbia", 4th International Congress New perspectives and challenges of sustainable livestock productions, 7-9. 10 2015. god., , , Proceedings, 693-704 (0,5 5=2,5 ) Serbia has a heterogencouns relief, climatic condtitions and honey bee pastures in which honey bees are reared. Due to the adaptability of bees to specific habitat conditions, it is assumed that different geographic ecotypes od bees were created in Serbia. In addition, during the previous decades the natural populations of Carniolan honey bee have been subjected to influence of man through migratory beekeeping and trade in honey bee queens. Therefore, the main aim of this investigation was to analyze part of morphological characters in order to help distinguish and preserve indigenous honey bee varieties. Samples were collected from six different locations covering the territory of Republic Serbia and compared with honey bee sample from Slovenia. Fiften worker bees of each sample were dissected and twenty six morphometric characters were measured with stereo microscope Leica XTL-3400D, and software package IL-1009 in aecordance with the standard method. The results
showed significant differences between the groups of bees. This separation was the most contributed by the characters angles on the front and hind wing, width of the forewing and length of the third tergit. The morphometrical control turned out to be useful method to a clearer separation of groups of bees inside domestic population.
, , . ,
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.
. .
Leica KSTL-3400D IL-1009 . . , .
. 10. , ., , . (2015): "
", XX , 13.-14. 3 2015. ., , , , 399-403 (1,00 5=5,00 ) The aim of study was to determine the speed of water consumption in winter bees fed with different types of food. Winter bees are unable to reach the natural water sources, even their need for water are minimal. Different types of food differentially affects the bees' physiological needs for water in the winter . Minimum consumption of water was found in bees fed with sugar syrup (0.0 17 g/bee/day), and the maximum in bees fed with enzymatic invert syrup with the addition of yeast (0.025 gr/bee/day) . The water content and the level of simple sugars in food for bees determines the amount of water consumed in the winter life of bee .
, .
, . .
0,017g/ / ,
0,035 g/ / . .
11. , ., , , ., , . (2015): "
, in vitro", 50. 10. , 16-20. 2 2015. ., , , , 399-402 (0,75 5=3,75 )
The aim of study was to investigate the speed of food intake by winterhoney-bees. The average food consumption per winterhoney-bees ranged from 0.034 to 0.042 g / honey bee / day. The minimum food consumption was observed in honey bees fed with enzyme invert syrup with the addition of yeast, and the maximum in cages fed with sugar syrup. In winter the number of honey bees in the hive and the rate of consumption of food affects the amount of intestinal contents, which essentially determines the length of life of winterhoney-bees and quality of honey bee society life during winter. The quality of food for the winterhoney-bee indirectly determines the level of the vernal development of bee colony.
.
0,034 – 0,042 g/ / . ,
. ,
. .
2.3. , (3
): 1. , ., Vojt, D., , ., , . (2017): "The effect of temperature and relative humidity on pollen bees activity in urban beekeeping", VIII International Scientific Agriculture Symposium, 05-08. 10 2017., , , Book of Proceeedings, 1164 (0,75 3=2,25 ) 2. , . (2017): "Effect of different methods of breeding on the number and quality of queen bee broad", 6th International Symposium on Agricultural sciences, 27. 2 – 02. 3 2017., ,
, Book of abstracts, 114 (1,00 3=3,00 ) 3. , ., , . (2015): "The Research Network for Sustainable Bee Breeding", COLOSS Spring Workshop, 9-10. 2 2015, Kirchhain, Germany, Proceedings, 21 (1,00 3=3,00
) :
8 (2.1) + 42,75 (2.2) + 8,25 (2.3) = 59,00 : 201,45
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( ( , ) 21.)
3.1. (3 ): 1. (2016):
, , ( . ), , 01-1492/17 22.02. 2017. . (1 3=3 )
3.2. (4 ): 1. (2015):
, , , ( - , 10/3.3403-1-14/16, 24.10. 2016. ) (1 4=4 ) 2. (2019):
, , , ( - , 10/3.2223-12-7/19,
04.07. 2019. ) (1 4=4 ) 3.3. (1 ): 1. (2015): , ,
, ( . 10/4.3344-2/15 10. 12. 2015. ) (1 1=1 )
2. (2016): , , , (
. 10/4.4612-3/15 01. 04. 2016. ) (1 1=1 ) 3. (2016): , ,
, ( . 10/4.3441-4/16 19. 10. 2016. ) (1 1=1 )
4. (2017): , , , (
. 10/4.1839-3/17 28. 06. 2017. ) (1 1=1 )
5. (2017): , , , ( . . 10/4.978-2/17 11. 07. 2017. ) (1 1=1 )
6. (2019): , , , ( . . 10/3.1546-10-134/19 22.
05. 2019. ) (1 1=1 ) 7. (2019): Varroa destructor,
, , ( . . 10/3.2930-13-1410/19 10. 09. 2019. ) (1 1=1 )
3.4. :
2014/2015 - 4,56 2015/2016 - 4,49 2016/2017 - 4,62 2016/2017 - 4,58 2017/2018 - 4,40 2017/2018 - 4,42 2017/2018 - 4,42 2017/2018 - 4,55 2018/2019 - 4,36
: 4,49
. ,
4,49 25. 8 .
: 3 (3.1) + 8 (3.2) + 7 (3.3) + 8 (3.4) = 26
: 26 ) :
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( 22.) 4.1. ( ) (2 ) 1. ., . (2002): "
", , 3, 5, 149-152 (1,0 2=2 ) : 2 (4.1) = 2
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( 22.) 4.2. , (2 ) 1. ., ., ., . (2002): "
", 52. 12 , 12-17. 2 2017. ., , , , 425-427 (0,75 2=1,5 ) 4.3.
( ): (2 ) 1. .
, . 01/04-3.155-5/15 29. 01. 2015. . (2 ) 2. ,
- 10/3.1895-7-3/17 07.07.2017. . (2 ) 3. ,
12.03-052-3719/15 14. 05. 2015. . (2 )
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10/3.4143-3-20/16 15.12.2016. . (2 ) 5.
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10/3.3883-2-6/17 13.12.2017. . (2 ) 6. I II
, - 10/3.3883-2-25/17 13.12.2017. . (2 )
7. 2005. . (2 ) :
1,5 (4.2) + 14 (4.3) = 15,5
: 17,5
: 244,95
III.
, 16.10.2019.
- . 10/3. 2930-13-31/19 10.09.2019. .
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