Mia Wimala scite author profile

ABSTRAKGreen campus didefinisikan sebagai kampus yang berwawasan lingkungan, yang mengintegrasikan ilmu pengetahuan lingkungan ke dalam kebijakan, manajemen, dan kegiatan tridharma perguruan tinggi. Green campus juga harus menjadi contoh implementasi pengintegrasian ilmu lingkungan dalam semua aspek manajemen dan praktek pembangunan berkelanjutan. Pada penelitian ini dilakukan pengembangan kategori peran serta pihak manajemen kampus beserta indikator penyusunnya yang semula belum ada di UI GreenMetric. Penelitian ini menggunakan data sekunder berupa studi literatur dari standar dan toolkit yang digunakan di luar maupun dalam negeri yaitu STARS AASHE, Green Guide for University, dan Greening University Toolkit yang dianggap sesuai dengan strategi peningkatan efektivitas peran manajemen kampus dalam menyukseskan penerapan green campus. Hasil penelitian menunjukan bahwa kategori manajemen yang diusulkan terdiri dari 4 indikator, yaitu: perencanaan berkelanjutan, pengembangan mahasiswa dan staf, penilaian berkelanjutan, dan kerjasama dengan institusi.Kata kunci: green campus, UI Greenmetric, peran manajemen ABSTRACTGreen campus is defined as campus with environmental insight, that integrates environmental science into policy, management, and base three pilar of collage. Green campus is also used as an example of implementing the integration of environmental science in all aspects of sustainable development management and practices. This research aims to develop the category including the indicators of campus management’s role in green campus assessment based on UI GreenMetric. Secondary data were obtained from study literature of standards and toolkits used all around the world, i.e. STARS AASHE, Green Guide for University, and Greening University Toolkit which are related to the strategy of increasing the effectiveness of campus management’s role in succeeding the implementation of green campus. The results showed that the proposed category of management consist of 4 indicators: sustainability planning, student and staff development, sustainability assessment, and community partnership.Keywords: green campus, UI Greenmetric, management role

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Development of Knowledge and Attitude Measurement Tools in Disaster Preparedness Schools

Setiawan¹,

Salim²,

Wimala³

et al. 2020

IJDM

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Indonesia is the largest archipelago country in the world located at the confluence of four tectonic plates. This condition makes Indonesia potentially and become vulnerable to natural hazard that have a significant impact and reach various sectors. One of the impacts of natural hazard that occurred in Indonesia is the education sector. This natural hazard has an impact on the physical building of schools and also hinders the process of teaching and learning, causing trauma, and even fatalities at school. The Indonesian Institute of Sciences (LIPI) through the Community Preparedness (COMPRESS) program inaugurated disaster preparedness education at the school community level. In 2008, LIPI began implementing disaster risk reduction by developing a model of disaster preparedness schools. Then LIPI published Guidelines for Implementing Disaster Preparedness Schools in 2013. This guide does not yet have a specific Knowledge and Attitude category and can be used as a reference. Therefore, the development of the Disaster Preparedness School Implementation Manual needs to be done. The development of this measuring instrument was analysed by compiling a comparison matrix using the AHP method so as to produce a new development system from the Knowledge and Attitude assessment category. This study produced 3 sub-categories of Knowledge and Attitude assessment, namely (1) Standard Operating Procedure (SOP) for Teaching and Learning Disasters with a weight of 33%, (2) Knowledge about Disasters and Disaster Management with a weight of 43%, and (3) Knowledge Access About Disasters and Disaster Management with a weighting of 24%. Such approach can be used in advancement of others variables of measuring tool for school preparedness.

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Perkembangan Internet of Things di Industri Konstruksi

Wimala

Imanuela²

2022

JoSC

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Dalam satu dekade terakhir, belum banyak ditemukan penelitian yang membahas tentang kemajuan penggunaan Internet of Things (IoT) di industri konstruksi Indonesia. Di era industri 4.0 seperti sekarang ini, dibutuhkan sebuah penelitian untuk mengetahui perkembangan IoT di industri konstruksi baik di Indonesia maupun di luar negeri, dan mengetahui kesenjangan di antaranya. Penelitian ini dilakukan menggunakan metode bibliometrik dengan software Publish or Perish 7. Data akan dikelompokkan dalam lima ranah pada industri konstruksi yang sangat terpengaruh dengan masuknya IoT yaitu: construction safety, machine control, site management, fleet management dan project management. Dari penelitian didapati bahwa Cina merupakan negara dengan kemajuan penggunaan IoT paling pesat dimana ranah yang paling banyak dibahas adalah terkait construction safety. Sementara itu, penerapan IoT di industri konstruksi di Indonesia baru dimulai dalam beberapa tahun terkakhir, yang ditandai dengan masih sedikitnya karya ilmiah yang terkait penerapan IoT di industri konstruksi. Pemerintah Indonesia juga masih belum berinvestasi pada sektor penelitian dan pengembangan sebanyak negara lain yang ditinjau. Temuan ini diharapkan mampu menjadi basis dalam menginisiasi penerapan IoT di industri konstruksi Indonesia.

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Preliminary Study of Sago Fine Waste as a Sand Replacement Material for Cement Brick

Izaan

Hani

Norhayati

et al. 2022

IOP Conf. Ser.: Earth Environ. Sci.

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This paper presented a preliminary results of utilization sago fine waste as a sand replacement material for cement bricks. Sago waste is a by-product of the extraction of sago starch. Usually, the bark is not utilized for other products and being dumped directly into the rivers or left for natural degradation. About 32,250 tons of sago bark waste annually. Sand however usually obtained by using machinery at the riverbank which greatly contribute to damaging the ecosystem of the river and contributing to global warming. For environmental protection and sustainable development, extensive research has been conducted on the production of bricks from waste materials. The replacement percentage of SFW are 0%, 5%, 10%, 15%, 20% and 25% with water content of 50% and 60%. Density, water absorption and compressive strength are the properties that have been investigated. From the results obtained, both density and compressive strength are decreasing as the percentages of SFW increasing. On the other hand, from the data of water absorption it was found that the percentage of water absorption of brick was increased correspond to the increasing percentages of the SFW. Based on the findings, the optimum brick properties are SFW1W0.6 with the strength 5.18 MPa that can be used as non-load bearing bricks and the optimum percentage of water absorption is at 13.33%. From this study, it was found that the replacement of sand by SFW give a significant impact on density, strength, and water absorption performance of concrete brick.

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Mia Wimala

Breaking through the Barriers to Green Building Movement in Indonesia: Insights from Building Occupants

Pengembangan Indikator Peran Serta Pihak Manajemen Perguruan Tinggi dalam Penerapan Konsep Green Campus. (Hal. 82-93)

Development of Knowledge and Attitude Measurement Tools in Disaster Preparedness Schools

Perkembangan Internet of Things di Industri Konstruksi

Preliminary Study of Sago Fine Waste as a Sand Replacement Material for Cement Brick

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