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All Journal BAREKENG: Jurnal Ilmu Matematika dan Terapan Innovative: Journal Of Social Science Research

Salamena, Gianita Anastasia

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Author-ID : 8119525

Humanities Computer Science & IT Control & Systems Engineering Economics, Econometrics & Finance Energy Engineering Law, Crime, Criminology & Criminal Justice Mathematics Mechanical Engineering Physics Public Health Transportation Other

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Perencanaan K3 Laboratorium Hidrolika Politeknik Negeri Ambon Salamena, Ganisa Elsina; Salamena, Gianita Anastasia
Innovative: Journal Of Social Science Research Vol. 4 No. 6 (2024): Innovative: Journal Of Social Science Research
Publisher : Universitas Pahlawan Tuanku Tambusai

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31004/innovative.v4i6.16425

Penerapan Keselamatan dan Kesehatan Kerja (K3) sangat diperlukan untuk penjaminan mutu dalam sebuah organisasi kerja. Dalam perkembangannya K3 memiliki peran penting dalam mengukur penjaminan mutu dalam sebuah pekerjaan atau lokasi kerja. Sehingga keberadaan K3 sangat penting. Laboratorium adalah salah satu objek yang harus memiliki standar dan operasional K3. Karena ada potensi bahaya yang memiliki risiko dengan tingkat tertentu. Pada penelitian ini objek studi adalah laboratorium Hidrolika POLNAM. Laboratorium ini memiliki potensi bahaya yaitu kejatuhan alat/barang, sengat listrik, tergelincir akibat cipratan air, infeksi mikroorganisme, keadaan darurat gempa dan kebakaran. Berdasarkan rumusan potensi bahaya tersebut kemudian di analisis risiko-dampak, yaitu: luka ringan hingga kematian. Hasil dari analisis risiko dampak dikembangkan dan direncanakan fasilitas K3 yang terdiri atas Alat Pelindung Diri (APD), Tanda Bahaya, Fasilitas Penanggulangan kebakaran, dan tata cara pencegahan dan penanganan tindakan darurat. Rencana penerapan K3 ini dapat dijadikan sebagai acuan dalam penyusunan panduan K3 di laboratorium hidrolika.

3D MODELING COMPUTATION TO EVALUATE GROYNE STRUCTURE PERFORMANCE: CASE STUDY OF PASSO COASTAL AREA Salamena, Ganisa Elsina; Salamena, Gianita Anastasia; Loupatty, Grace; Palembang, Citra Fathia
BAREKENG: Jurnal Ilmu Matematika dan Terapan Vol 19 No 1 (2025): BAREKENG: Journal of Mathematics and Its Application
Publisher : PATTIMURA UNIVERSITY

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.30598/barekengvol19iss1pp643-654

Groyne is very important to protect the coastline with the concept of maintaining the balance of sediment transport. Groyne building in theory can work well if worked in groups or more than one. In this study, the Passo beach location was chosen because there is an existing groyne building that, if seen on Google Earth, has been damaged by the scattering of the constituent rocks. If the groyne cannot work to balance the sediment transport, it may occur that mass destruction to the infrastructure behind the groyne itself, such as regional roads, may occur. To find out the level of damage, an in-depth study needs to be carried out. In this paper, Delft-3D mathematical modeling was carried out to investigate groyne damage by looking at the performance of groyne in maintaining the balance of sediment transport in the Passo beach area. Hydrodynamic and coastal sediment modeling analyses were carried out in wet and dry season conditions. Modeling was carried out over one month with a morphology factor of 12 to obtain sediment transport for one year. In the existing dry season conditions, it shows that at the observation point, there is erosion of 2 meters, and in the wet season sediment transport is balanced. It is implied that the groyne structure must be replaced for being surpass the structure lifetime.

Implementasi Sensor Gerak (PIR) sebagai Detektor Gerakan Manusia dalam Ruang Salamena, Gianita Anastasia; Talapessy, Ronaldo; Loupatty, Grace; Kelibulin, Josephus R.; Salamena, Vicky
Innovative: Journal Of Social Science Research Vol. 4 No. 2 (2024): Innovative: Journal Of Social Science Research
Publisher : Universitas Pahlawan Tuanku Tambusai

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31004/innovative.v4i2.12019

Pada penelitian ini telah dirancangbangun sebuah Sistem pendeteksi gerak tubuh manusia terdiri dari rangkaian digital yang menerima sinyal analog sensor gerak PIR GH718 berdasarkan gelombang inframerah yang dipancarkan oleh manusia dan diubah menjadi sinyal digital rangkaian pengendali berbasis mikrokontroler ATmega8535. Sistem dilengkapi dengan Buzzer dimana, dimana ika sinyal keluaran analog sensor tersebut menangkap gelombang panas akibat pergerakan manusia, maka rangkaian digital akan dibentuk oleh rangkaian catu daya untuk menyalakan bel listrik, sebagai indikator keberadaan manusia. Sistem pendeteksi dapat mendeteksi keberadaan manusia dengan jarak maksimum 7 meter, secara horizontal dan vertikal sensor mendeteksi pada sudut 300 hingga 1500 di depan sensor, dengan tegangan keluaran 3.57 V ketika mendeteksi pergerakan tubuh manusia dan 0 V ketika tidak mendeteksi gerak tubuh manusia.

Quantum Computing Technology: Towards Superfast Computational Power Pratomo, Arief Budi; Asfahani, Asfahani; Sitopu, Joni Wilson; Salamena, Gianita Anastasia
Innovative: Journal Of Social Science Research Vol. 4 No. 3 (2024): Innovative: Journal Of Social Science Research (Special Issue)
Publisher : Universitas Pahlawan Tuanku Tambusai

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31004/innovative.v4i3.12172

Quantum computing technology is determined to revolutionize computing power by leveraging the principles of quantum mechanics. The primary issues include qubit stability, error rates, and the need for extremely low temperatures to maintain quantum coherence. This research aims to explore advances in qubit stability, quantum error correction, and hybrid quantum-classical systems to overcome current limitations in quantum computing. This research method utilizes the Systematic Literature Review (SLR) methodology. This research systematically identifies, evaluates, and synthesizes existing research. The results of this research reveal significant advances in qubit coherence times. These innovative error correction techniques integrate machine learning and practical implementation of hybrid systems while highlighting ongoing challenges in scalability and integration. This study provides recommendations for developing scalable architectures and robust integration methods to exploit the potential of quantum computing fully.

Co-Authors ARIEF BUDI PRATOMO Asfahani, Asfahani Kelibulin, Josephus R. Loupatty, Grace Palembang, Citra Fathia Ronaldo Talapessy Salamena, Ganisa Elsina Salamena, Vicky

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