Hollanda Arief Kusuma, Hollanda Arief
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DESIGN AND IMPLEMENTATION OF ELECTRONIC LOGGING INSTRUMENT TO HELP SCIENTIFIC DIVER IN CORAL REEF MONITORING Kusuma, Hollanda Arief; Jaya, Indra; Manik, Henry Munandar
Marine Research in Indonesia Vol 41, No 1 (2016)
Publisher : Research Center for Oceanography - Indonesian Institute of Sciences (LIPI)

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (1511.52 KB) | DOI: 10.14203/mri.v41i1.96

Abstract

Indonesia is situated in the Coral Triangle region that has the world’s highest coral reef biodiversity. Therefore, coral reef monitoring needs to be conducted regularly to assess the condition of coral reef ecosystem for management purpose. There are several coral reef monitoring methods available such as the line intercept transect (LIT), point intercept transect (PIT), photo transect, belt transect and benthic towed-diver. In Indonesia, LIT and PIT are the most commonly used methods for coral monitoring. However, there is a main disadvantage when collecting data using these methods, that is scientific divers need to spend hours to input the data after dives. Here, we introduce an electronic logging instrument called Coral Input Data Instrument that helps to decrease the input data time by employing a look-up table system that simplifies data input process by replacing text with numerical coding. In addition, water quality data such as temperature, depth and visibility also are embedded in the electronic logging instrument. The instrument hardware consists of Arduino Mega 2560, keypad 4x3, LCD Module 16x2 character, real time clock, temperature sensor, pressure sensor, visibility sensor and micro SD card module. Arduino IDE 1.6.5 software is used to program the microcontroller. In this paper, we describe the design and implementation of the instrument in the field.
COMMUNITY STRUCTURE OF GASTROPOD IN THE WATUKARUNG VILLAGE INTERTIDAL ZONE, DISTRICT OF PACITAN, EAST JAVA, INDONESIA Setyono, Dwi Eny Djoko; Kusuma, Hollanda Arief; Poeteri, Nandike Ayudiah; Bengen, Dietrich G; Kurniawan, Ferry
Marine Research in Indonesia Vol 44 No 1 (2019)
Publisher : Research Center for Oceanography - Indonesian Institute of Sciences (LIPI)

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Abstract

Gastropod is a class of snail with the biggest number of species from the mollusk phylum, since it is able to adapt with any type of habitat. Watukarung Village, which has unique characteristic of its rocky beaches and sand dunes, is one of many habitats of gastropods in the intertidal zone. Thus, a basic information on the structure of the gastropods community in the area is required. Research was conducted in August 2014 in Ngalorombo Beach, Pasir Putih Beach, and Kasap Beach. Systematic sampling was applied using the quadratic plot of 1 x 1 m2, while data analyses comprised of density, Shannon-Wiener index, Eveness index, Simpson index, and correspondence analysis. The gastropods were found in studied areas consist of 8 families, 9 genera, and 13 species. The highest density and the most diverse of the category were in Kasap Beach. Eveness index and Simpson index of the species in the three beaches were in the low category. There was a tendency of the gastropods to live in the habitat made up of coarse sand and stones with good water quality, as shown in the result of the correspondence’s analysis.
DESIGN AND IMPLEMENTATION OF ELECTRONIC LOGGING INSTRUMENT TO HELP SCIENTIFIC DIVER IN CORAL REEF MONITORING Kusuma, Hollanda Arief; Jaya, Indra; Manik, Henry Munandar
Marine Research in Indonesia Vol 41 No 1 (2016)
Publisher : Research Center for Oceanography - Indonesian Institute of Sciences (LIPI)

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (1511.52 KB) | DOI: 10.14203/mri.v41i1.96

Abstract

Indonesia is situated in the Coral Triangle region that has the world?s highest coral reef biodiversity. Therefore, coral reef monitoring needs to be conducted regularly to assess the condition of coral reef ecosystem for management purpose. There are several coral reef monitoring methods available such as the line intercept transect (LIT), point intercept transect (PIT), photo transect, belt transect and benthic towed-diver. In Indonesia, LIT and PIT are the most commonly used methods for coral monitoring. However, there is a main disadvantage when collecting data using these methods, that is scientific divers need to spend hours to input the data after dives. Here, we introduce an electronic logging instrument called Coral Input Data Instrument that helps to decrease the input data time by employing a look-up table system that simplifies data input process by replacing text with numerical coding. In addition, water quality data such as temperature, depth and visibility also are embedded in the electronic logging instrument. The instrument hardware consists of Arduino Mega 2560, keypad 4x3, LCD Module 16x2 character, real time clock, temperature sensor, pressure sensor, visibility sensor and micro SD card module. Arduino IDE 1.6.5 software is used to program the microcontroller. In this paper, we describe the design and implementation of the instrument in the field.
Pemodelan Garis Pantai Menggunakan Metode Interpolasi Stacked Curve Spline Tension Oktaviani, Nadya; Hartanto, Prayudha; Susetyo, Danang Budi; Kusuma, Hollanda Arief; Ardhitasari, Yustisi; Dewi, Ratna Sari
TEKNIK Vol. 42, No. 2 (2021): August 2021
Publisher : Diponegoro University

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.14710/teknik.v42i2.32940

Abstract

Wilayah pesisir merupakan lingkungan dinamis yang dipengaruhi oleh interaksi atmosfer, daratan dan lautan. Demikian pula, posisi garis pantai juga selalu berubah karena komponen alami dan ulah manusia seperti erosi, gelombang, pasang harian, badai, dan pembangunan yang terjadi di kawasan pesisir. Dalam literatur, posisi garis pantai dapat diidentifikasi berdasarkan berbagai proxi seperti: fitur pantai yang diidentifikasi dari foto udara atau citra resolusi sangat tinggi dan indikator berbasis datum pasang surut yang diekstraksi dari survei lapangan. Penelitian ini mengusulkan suatu metode dalam memodelkan garis pantai berbasis datum dengan mengintegrasikan berbagai data batimetri termasuk data single beam dan multibeam echo sounding, Digital Elevation Model Nasional, data batimetri nasional dan data batimetri yang dihasilkan dari citra satelit. Metode stacked curve spline tension diterapkan untuk mengasimilasi berbagai data batimetri tersebut dan untuk membangun garis pantai. Berdasarkan hasil uji akurasi diperoleh kemiripan garis pantai yang bervariasi akurasinya yaitu garis pantai LAT memiliki tingkat akurasi sebesar 29.28%, garis pantai MSL sebesar 65.45% dan garis pantai HAT sebesar 47.48%. Variasi akurasi yang diperoleh dapat terjadi karena beberapa hal diantaranya minimnya data input kedalaman yang digunakan, kerapatan data kedalaman yang sangat bervariasi, perbedaan waktu perolehan data antara data yang digunakan untuk penyusunan Peta LPI dan data yang digunakan dalam penelitian ini. Meskipun hasil uji akurasi yang diperoleh masih kurang memuaskan metode yang disusulkan ini cukup menjanjikan untuk diadopsi sebagai metode alternatif dalam pembangunan garis pantai dan untuk mengatasi keterbatasan data, waktu dan biaya dalam penyediaan garis pantai nasional.