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All Journal JURNAL HAMA DAN PENYAKIT TUMBUHAN TROPIKA JURNAL ILMIAH GEOMATIKA
Joni Hidayat, Joni
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Agriculture, Biological Sciences & Forestry Earth & Planetary Sciences Mathematics

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TRANSFORMATION OF TOPOGRAPHIC DATA VISUALIZATION FROM FREEHAND DRAWING TO CARTOGRAPHIC REPRESENTATION Perdana, Aji Putra; Juniati, Eli; Hidayat, Joni
GEOMATIKA Vol 19, No 2 (2013)
Publisher : Badan Informasi Geospasial in Partnership with MAPIN

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (473.316 KB) | DOI: 10.24895/JIG.2013.19-2.210

Abstract

Topographic data visualization has been changed into geodatabase cartography. So far, freehand drawing has been used to visualize topographic data. Unfortunately, freehand drawing does not connect its graphical features with its database, meaning that the attributes data not exist in the freehand drawing. Meanwhile, the existing cartographic rules for map representations still based on the freehand drawing and this is become a great challenge to transform these rules into geodatabase cartographic data visualization. The geodatabase cartography and its representation should be defined first in order to follow the existing rules and analyze it. On the other hand, there is another challenge related to human resource capability to understand the transformation process from drawing method into geodatabase cartography. This paper explores the transformation of topographic map visualization and its geodatabase design.Keywords: cartography, topographic map, geodatabase, cartographic representationABSTRAKVisualisasi data topografi dalam hal ini Peta Rupabumi mulai berubah dengan menggunakan geodatabase kartografi. Sejauh ini, penggambaran peta dengan freehand telah digunakan untuk mendesain tampilan peta topografi. Namun demikian, freehand tidak mempunyai kemampuan untuk menggabungkan data grafik dengan basis datanya, yang berakibat pada hilangnya atribut data. Sementara itu, aturan tampilan kartografi yang ada masih dibuat berdasarkan software freehand, dan hal ini menjadi tantangan besar untuk mentransformasikan ke dalam tampilan kartografi berdasarkan basis data geospasial (geodatabase). Untuk memenuhi aturan yang sudah ada, geodatabase kartografi dan tampilannya harus didefinisikan terlebih dahulu dan kemudian dianalisis. Di lain pihak, terdapat tantangan lain terkait dengan kemampuan sumberdaya manusia untuk memahami proses transformasi dari metode menggambar ke geodatabase kartografi. Makalah ini mengkaji proses transformasi dari visualisasi peta topografi dan desain geodatabasenya.Kata Kunci: kartografi, peta rupabumi, geodatabase, tampilan kartografi
IDENTIFICATION, DISTRIBUTION, AND TESTING THE LEVEL OF Sternochetus (Sternochetus sp, COLEOPTERA: CURCULIONIDAE) ATTACK AND THE HOST STATUS USING NO-CHOICE TEST Syahputra, Ade; Ahad, Mustopha; .,, Abdurakhman; Hidayat, Joni
JURNAL HAMA DAN PENYAKIT TUMBUHAN TROPIKA Vol. 19 No. 2 (2019): SEPTEMBER, JURNAL HAMA DAN PENYAKIT TUMBUHAN TROPIKA
Publisher : Universitas Lampung

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (752.96 KB) | DOI: 10.23960/j.hptt.219149-157

Abstract

Mango pulp weevil (MPW) and mango seed weevil (MSW) are found in only three species in the world, namely Sternochetus frigidus (MPW), Sternochetus mangiferae (MSW) and Sternochetus olivieri (MSW). These pests are the main pests for mango in several countries including Indonesia. But there is currently no report on the status of the three insects of Sternochetus in Indonesia, so that the information received by the Center for Agriculture and Biosciences International (CABI) as a worldwide plant pest data center is based on Kalshoven (1981). The purpose of this study was to identify species, to test the attack level and to conduct no-choice test on Sternochetus host in mango. This study was conducted at the Applied Research Institute of Agriculture Quarantine from March to October 2017. Kuweni fruit (Mangifera odorata) that was confirmed to be infested by Sternochetus insect was collected from Pesisir selatan District of West Sumatra, North Lampung District, Lubuk Linggau District of South Sumatera and Bekasi District of West Java Provinces respectively. The species identification was performed on the male genital (aedeagus) of the insect, which was obtained from the Kuweni fruit aged 95-115 days. The fruit collection from the three locations have identified S. frigidus species, with overlapping apical sclerite characteristics. In Bekasi District, S. frigidus insect could not infest the Kuweni fruit. Attack level test of S. frigidus in kuweni fruit in all three locations reached 93%. The result of host status test with no choice test showed that S. frigidus was able to infest harum manis and manalagi mango (Mangifera indica) and did not infest sapodilla fruit.
Co-Authors .,, Abdurakhman Ade Syahputra Ahad, Mustopha Aji Putra Perdana, Aji Putra Eli Juniati, Eli