ABSTRAKANALISIS DAN PERANCANGAN SISTEM INFORMASI ENERGI NUKLIR. Pengelolaan hasil penelitian dan kegiatan Pusat Kajian Sistem Energi Nuklir (PKSEN), baik dalam bentuk dokumen maupun hasil kegiatan lainnya, merupakan bagian yang penting dari rangkaian kegiatan pencapaian Misi PKSEN. Pengelolaan dokumen yang baik akan memudahkan pemberian masukan perbaikan ataupun penggunaan hasil yang maksimal. Namun selama beberapa tahun belakangan ini, masih terdapat beberapa kekurangan di dalam pengelolaan dokumen hasil penelitian dan kegiatan yang dilakukan PKSEN. Tujuan dari penelitian ini adalah melakukan analisis dan perancangan konsep flow desain/layout Sistem Informasi Energi Nuklir untuk mempermudah penerapan Sistem Informasi Energi Nuklir (SIEN). Sistem informasi ini, disamping digunakan sebagai sistem pengelolaan hasil penelitian dan kegiatan PKSEN juga dapat digunakan sebagai media informasi bagi masyarakat. Paket Sistem Informasi Energi Nuklir ini diharapkan menjadi “satu pintu gerbang” informasi PKSEN. Metodologi penelitian yang digunakan adalah: (i) analisis sistem organisasi, (ii) analisis dan perancangan sistem informasi; (iii) analisis dan perancangan sistem perangkat lunak; (iv) analisis dan perancangan sistem basis data. Pada penelitian ini telah: diidentifikasi seluruh aktivitas dan sumberdaya organisasi PKSEN, dilakukan analisis penerapan SIEN menggunakan analisis SWOT, diidentifikasi beberapa jenis perangkat yang dibutuhkan, disusun hirarki SIEN, ditentukan sistem basis data yang digunakan adalah sistem basis data terpusat dan telah ditentukan pemilihan DBMS menggunakan MySQL. Hasil yang diperoleh adalah sebuah rancangan dasar Sistem Informasi Energi Nuklir (SIEN) yang nantinya akan mempermudah penerapan SIEN yang akan digunakan sebagai sistem pengelolaan hasil penelitian dan kegiatan PKSEN juga dapat digunakan sebagai media informasi bagi masyarakat.Kata kunci: analisis, perancangan, sistem informasi, energi nuklir. ABSTRACTANALYSIS AND DESIGN OF NUCLEAR ENERGY INFORMATION SYSTEMS. Management of research reports and activities of the Center for Nuclear Energy System Assessment (PKSEN), either in the form of documents and the results of other activities, are important part of the series of activities PKSEN mission achievement. Management of good documents will facilitate the provision of improved inputs or use the maximum results. But over the past few years, there are still some problem in the management of research reports and activities performed by PKSEN. The purpose of this study is to analyze and design flow layout of the Nuclear Energy Information System to facilitate the implementation of the Nuclear Energy Information System. In addition to be used as a research management system and PKSEN activities, it can also be used as a information media for the community. Nuclear Energy Information System package is expected to be "one gate system" for PKSEN information. The research methodology used are: (i) analysis of organizational systems, (ii) the analysis and design of information systems; (iii) the analysis and design of software systems; (iv) the analysis and design of database systems. The results of this study are: had identified and resources throughout the organization PKSEN activation, had analyzed the application of SIEN using SWOT analysis, had identified several types of devices required, had been compiled hierarchy of SIEN, had determined that the database system used is a centralized database system and had elections MySQL as DBMS. The result is a basic design of the Nuclear Energy Information System) which will used as a research and activities management system of PKSEN and also can be used as a medium of information for the community.Keywords: analysis, design, information systems, nuclear energy.
The steel manufacturing industry is an inseparable part of the nuclear power plant construction project. This industry is a business full of dynamics, risks, and challenges. The implementation of risk management becomes an obligation that must be executed in managing this very complex project. In general, risk management in manufacturing includes steps to understand and identify potential problems that may occur, evaluate, monitor, and handle risks. The main risk management objectives are to prevent or minimize adverse effects due to unforeseen events through risk aversion or preparation of contingency plans related to those risks. This paper describes the identification of risk factors and assessments using the Boston Matrix. The results of the analysis show that unrealistic schedules, skill not appropriate, not available equipment, transportation barriers to the workshop, fluctuations in steel material prices, wrong specifications from owner, incorrect interpretation of specifications, misinterpretation of drawings, incorrect volume, material storage, wrong cutting, incorrect installation, and wrong order are factors with moderate and high risk.
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