{"id":61,"date":"2021-02-07T14:05:30","date_gmt":"2021-02-07T14:05:30","guid":{"rendered":"http:\/\/127.0.0.1\/3D-forinvent\/?page_id=61"},"modified":"2022-08-26T21:08:46","modified_gmt":"2022-08-26T21:08:46","slug":"publikacije","status":"publish","type":"page","link":"https:\/\/jaska.sumins.hr\/3d-forinvent\/publikacije\/","title":{"rendered":"PUBLIKACIJE"},"content":{"rendered":"

ZNANSTVENI RADOVI<\/strong> (18)<\/span>
\nobjavljeni u \u010dasopisima indeksiranim u Web of Science Core Collection bazi<\/p>\n

    \n
  1. Liang X, Kukko A, Balenovi\u0107 I, Saarinen N, Junttila S, Kankare V, Holopainen, M, Mokro\u0161 M, Surov\u00fd P, Kaartinen H, Jurjevi\u0107 L, Honkavaara E, Nasi R, Jingbin L, Hollaus M, Yu X, Jie P, Shangshu C, Virtanen J-P, Wang Y, Hyyppa J, 2022. Close-Range Remote Sensing of Forests-The state of the art, challenges, and opportunities for systems and data acquisitions<\/strong>. IEEE Geosci Remote S<\/i>. Early Access.\u00a0 https:\/\/doi.org\/10.1109\/MGRS.2022.3168135<\/a>.<\/li>\n
  2. Mart\u00edn-Garc\u00eda S, Balenovi\u0107 I, Jurjevi\u0107 L, Lizarralde I, Buj\u00e1n S, Alonso Ponce R, 2022. What Is the Most Suitable Height Range of ALS Point Cloud and LiDAR Metric for Understorey Analysis? A Study Case in a Mixed Deciduous Forest, Pokupsko Basin, Croatia<\/strong>. Remote Sens<\/em> 14(9): 2095. https:\/\/doi.org\/10.3390\/rs14092095<\/a>.<\/li>\n
  3. Balenovi\u0107 I, Jurjevi\u0107 L, Indir K, Seletkovi\u0107 A, 2021. Photogrammetric Estimates of Stand Volume in Pedunculate Oak Stands of the Pokupsko Basin<\/strong>. Sumar List<\/em> 145(11-12): 567-579. https:\/\/doi.org\/10.31298\/sl.145.11-12.6<\/a>.<\/li>\n
  4. Martin-Garcia S, Balenovi\u0107 I, Jurjevi\u0107 L, Lizarralde I, Indir K, Alonso Ponce R, 2021. Height to Crown Base Modelling for the Main Tree Species in an Even-Aged Pedunculate Oak Forest: A Case Study from Central Croatia<\/strong>. South-east Eur for<\/em> 12(11): 1-11. https:\/\/doi.org\/10.15177\/seefor.21-04<\/a>.<\/li>\n
  5. Deur M, Ga\u0161parovi\u0107 M, Balenovi\u0107 I, 2021. A Review of Satellite Missions and Forest Cover Classification Methods Using High Resolution Satellite Imagery<\/b>. Geodet List<\/em> 75(2): 143-168. https:\/\/hrcak.srce.hr\/261116<\/a>.<\/li>\n
  6. Jurjevi\u0107 L, Ga\u0161parovi\u0107 M, Liang X, Balenovi\u0107 I, 2021. Assessment of Close-Range Remote Sensing Methods for DTM Estimation in a Lowland Deciduous Forest<\/strong>. Remote Sens<\/em> 13(11): 2063. https:\/\/doi.org\/10.3390\/rs13112063<\/a>.<\/li>\n
  7. Deur M, Ga\u0161parovi\u0107 M, Balenovi\u0107 I, 2021. An Evaluation of Pixel-and Object-Based Tree Species Classification in Mixed Deciduous Forests Using Pansharpened Very High Spatial Resolution Satellite Imagery<\/strong>. Remote Sens<\/em> 13(10): 1868. https:\/\/doi.org\/10.3390\/rs13101868<\/a>.<\/li>\n
  8. Balenovi\u0107 I, Liang X, Jurjevi\u0107 L, Hyypp\u00e4 J, Seletkovi\u0107 A, Kukko A, 2021. Hand-Held Personal Laser Scanning \u2013 Current Status and Perspectives for Forest Inventory Application<\/strong>. Croat J Forest Eng<\/em> 42(1): 165-183. https:\/\/doi.org\/10.5552\/crojfe2021.858<\/a>.<\/li>\n
  9. Jurjevi\u0107 L, Liang X, Ga\u0161parovi\u0107 M, Balenovi\u0107 I, 2020. Is field-measured tree height as reliable as believed\u2013Part II, A comparison study of tree height estimates from conventional field measurement and low-cost close-range remote sensing in a deciduous forest<\/strong>. ISPRS J Photogramm Remote Sens<\/em> 169: 227-241. https:\/\/doi.org\/10.1016\/j.isprsjprs.2020.09.014<\/a>.<\/li>\n
  10. Deur M, Ga\u0161parovi\u0107 M, Balenovi\u0107 I, 2020. Tree Species Classification in Mixed Deciduous Forests Using Very High Spatial Resolution Satellite Imagery and Machine Learning Methods<\/strong>. Remote Sens<\/em> 12(23): 3926. https:\/\/doi.org\/10.3390\/rs12233926<\/a>.<\/li>\n
  11. Jurjevi\u0107 L, Ga\u0161parovi\u0107 M, Simic Milas A, Balenovi\u0107 I, 2020. Impact of UAS Image Orientation on Accuracy of Forest Inventory Attributes<\/strong>. Remote Sens<\/em> 12(3): 404. https:\/\/doi.org\/10.3390\/rs12030404<\/a>.<\/li>\n
  12. Balenovi\u0107 I, Jurjevi\u0107 L, Simic Milas A, Ga\u0161parovi\u0107 M, Ivankovi\u0107 D, Seletkovi\u0107 A, 2019. Testing the Applicability of the Official Croatian DTM for Normalization of UAV-based DSMs and Plot-level Tree Height Estimations in Lowland Forests<\/strong>. Croat J Forest Eng<\/em> 40(1): 163-174. https:\/\/hrcak.srce.hr\/217406<\/a>.<\/li>\n
  13. Pila\u0161 I, Ga\u0161parovi\u0107 M, \u0110odan M, Balenovi\u0107 I, Duga\u010dki I, 2019. Mogu\u0107nosti kori\u0161tenja opti\u010dkih satelitskih snimaka srednje i visoke rezolucije (Landsat 8, RapidEye) u vizualizaciji i detekciji promjena \u0161umskog pokrova nakon vjetroizvala<\/strong>. Geod list<\/em> 73(96)(3): 261-276. https:\/\/hrcak.srce.hr\/227003<\/a>.<\/li>\n
  14. Ga\u0161parovi\u0107 M, Simic Milas A, Seletkovi\u0107 A, Balenovi\u0107 I, 2018. A novel automated method for the improvement of photogrammetric DTM accuracy in forests<\/strong>. \u0160umar list<\/em> 142(11-12): 567-576. https:\/\/doi.org\/10.31298\/sl.142.11-12.1<\/a>.<\/li>\n
  15. Balenovi\u0107 I, Ga\u0161parovi\u0107 M, Simic Milas A, Berta A, Seletkovi\u0107 A, 2018. Accuracy Assessment of Digital Terrain Models of Lowland Pedunculate Oak Forests Derived from Airborne Laser Scanning and Photogrammetry<\/strong>. Croat J Forest Eng<\/em> 39(1): 117-128. https:\/\/hrcak.srce.hr\/193559<\/a>.<\/li>\n
  16. Jurjevi\u0107 L, Ga\u0161parovi\u0107 M, \u017dupan R, Marjanovi\u0107 H, Balenovi\u0107 I, 2018. Algoritam za modeliranje i procjenu opsega debla na temelju fotogrametrijskog oblaka to\u010daka<\/strong>. Geod list<\/em> 72(95)(3): 181-196. https:\/\/hrcak.srce.hr\/209071<\/a>.<\/li>\n
  17. Ga\u0161parovi\u0107 M, Medak D, Pila\u0161 I, Jurjevi\u0107 L, Balenovi\u0107 I, 2018. Fusion of Sentinel-2 and Planetscope Imagery for Vegetation Detection and Monitoring<\/strong>. Int Arch Photogramm Remote Sens Spatial Inf Sci<\/em>\u00a0XLII-1: 155-160. https:\/\/doi.org\/10.5194\/isprs-archives-XLII-1-155-2018<\/a>.<\/li>\n
  18. Ga\u0161parovi\u0107 M, Seletkovi\u0107 A, Berta A, Balenovi\u0107 I, 2017. The Evaluation of Photogrammetry-Based DSM from Low-Cost UAV by LiDAR-Based DSM<\/strong>. South-east Eur for<\/em> 8(2): 117-125. https:\/\/doi.org\/10.15177\/seefor.17-16<\/a>.<\/li>\n<\/ol>\n


    \nOSTALI RADOVI<\/strong> (6)<\/p>\n

      \n
    1. Balenovi\u0107 I, Vincenc G, 2022. Primjene ru\u010dnog laserskog skeniranja za procjenu drvne zalihe<\/strong>. Hrvatske \u0161ume – \u010dasopis za popularizaciju \u0161umarstva<\/em> 307-308: 38-41. http:\/\/casopis.hrsume.hr\/pdf\/307.pdf#page=38<\/a>.<\/li>\n
    2. Balenovi\u0107 I, 2021. Primjena daljinskih istra\u017eivanja u \u0161umarstvu \u2013 popis radova hrvatskih autora objavljenih u razdoblju od 2010. do 2021. godine u bazama Web of Science i Scopus<\/strong>. Bilten Znanstvenog vije\u0107a za daljinska istra\u017eivanja HAZU<\/em> 18: 16-18. https:\/\/www.info.hazu.hr\/wp-content\/uploads\/2022\/03\/Bilten-18-2021-HQ.pdf<\/a>.<\/li>\n
    3. Jurjevi\u0107 L, 2021. Znanstveno usavr\u0161avanje na Odjelu za daljinska istra\u017eivanja i fotogrametriju Finskog geodetskog instituta<\/strong>. Bilten Znanstvenog vije\u0107a za daljinska istra\u017eivanja HAZU<\/em> 18: 23-24. https:\/\/www.info.hazu.hr\/wp-content\/uploads\/2022\/03\/Bilten-18-2021-HQ.pdf<\/a>.<\/li>\n
    4. Balenovi\u0107 I, Jurjevi\u0107 L, Indir K, 2020. Primjena tehnologija blizu-predmetnih daljinskih istra\u017eivanja u izmjeri \u0161uma<\/strong>. Hrvatske \u0161ume – \u010dasopis za popularizaciju \u0161umarstva<\/em> 285: 14-16. http:\/\/casopis.hrsume.hr\/pdf\/285.pdf#page=14<\/a>.<\/li>\n
    5. Balenovi\u0107 I, Jurjevi\u0107 L, Seletkovi\u0107 A, 2019. Ru\u010dni laserski skener (ZEB-HORIZON) – Mogu\u0107nost primjene u izmjeri pojedina\u010dnih stabala<\/strong>. Hrvatske \u0161ume – \u010dasopis za popularizaciju \u0161umarstva<\/em> 269: 10-12. http:\/\/casopis.hrsume.hr\/pdf\/269.pdf#page=10<\/a>.<\/li>\n
    6. Balenovi\u0107 I, Jurjevi\u0107 L, Seletkovi\u0107 A, 2019. Fotogrametrija u izmjeri \u0161uma \u2013 projekt 3D-FORINVENT<\/strong>. Hrvatske \u0161ume – \u010dasopis za popularizaciju \u0161umarstva<\/em> 265-266: 38-41. http:\/\/casopis.hrsume.hr\/pdf\/265.pdf#page=38<\/a>.<\/li>\n<\/ol>\n","protected":false},"excerpt":{"rendered":"

      ZNANSTVENI RADOVI (18) objavljeni u \u010dasopisima indeksiranim u Web of Science Core Collection bazi Liang X, Kukko A, Balenovi\u0107 I, Saarinen N, Junttila S, Kankare V, Holopainen, M, Mokro\u0161 M, Surov\u00fd P, Kaartinen H, Jurjevi\u0107 L, Honkavaara E, Nasi R, Jingbin L, Hollaus M, Yu X, Jie P, Shangshu C, Virtanen J-P, Wang Y, Hyyppa […]<\/p>\n","protected":false},"author":1,"featured_media":0,"parent":0,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"","meta":{"spay_email":""},"_links":{"self":[{"href":"https:\/\/jaska.sumins.hr\/3d-forinvent\/wp-json\/wp\/v2\/pages\/61"}],"collection":[{"href":"https:\/\/jaska.sumins.hr\/3d-forinvent\/wp-json\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/jaska.sumins.hr\/3d-forinvent\/wp-json\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/jaska.sumins.hr\/3d-forinvent\/wp-json\/wp\/v2\/users\/1"}],"replies":[{"embeddable":true,"href":"https:\/\/jaska.sumins.hr\/3d-forinvent\/wp-json\/wp\/v2\/comments?post=61"}],"version-history":[{"count":17,"href":"https:\/\/jaska.sumins.hr\/3d-forinvent\/wp-json\/wp\/v2\/pages\/61\/revisions"}],"predecessor-version":[{"id":705,"href":"https:\/\/jaska.sumins.hr\/3d-forinvent\/wp-json\/wp\/v2\/pages\/61\/revisions\/705"}],"wp:attachment":[{"href":"https:\/\/jaska.sumins.hr\/3d-forinvent\/wp-json\/wp\/v2\/media?parent=61"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}