https://journal.unej.ac.id/JIAMPI/issue/feedJournal of Ikatan Ahli Manajemen Proyek Indonesia2025-06-08T19:56:14+07:00Anik Ratnaningsihjiampi@unej.idOpen Journal Systems<p>The Journal of Ikatan Ahli Manajemen Proyek Indonesia (JIAMPI) is an academic, state-of-the-art research and applied project management journal that presents the results of research, engineering practice, theory development and advanced applications in project management. The scope of this journal is project management from various fields, including construction projects, information technology projects, oil and gas projects, manufacturing and industrial projects, education and empowerment service projects, and those that are relevant. The JIAMPI solves current industrial problems by using cross-disciplinary knowledge and approaches. The journal seeks to inspire new thinking by merging and combining different techniques from diverse fields. All submitted papers are subject to plagiarism checks and double-anonymized peer review. This journal is published based on IAMPI's collaboration with the Civil Engineering Postgraduate Program at Universitas Jember.</p>https://journal.unej.ac.id/JIAMPI/article/view/1310Pemodelan Building Information Modelling (BIM) 5D pada Sistem Proteksi Kebakaran Gedung Rumah Sakit2025-06-07T15:54:04+07:00M. Naufal Kurnia Samudrakurnianaufal01@gmail.comJojok Widodo Soetjiptojojok.teknik@unej.ac.idWiwik Yunani Widiartiwiwik.teknik@unej.ac.id<p>Population growth, accompanied by a lack of environmental cleanliness and health awareness, increases public health risks. Hospitals are the leading destination for people to get health services. Ngudi Waluyo Wlingi Regional Hospital in Blitar Regency is building an ICU Building to treat patients with critical illnesses, both infectious and non-infectious. This study aims to model the fire protection system of the ICU building of Ngudi Waluyo Blitar Regional Hospital using the 5D Building Information Modeling (BIM) approach using Autodesk Revit software. Fire protection system modeling is crucial in the context of the increasing need for safety in public buildings such as hospitals. The secondary data consists of DED Drawings, Mutual Check 0, Work Plan and Requirements (RKS), and Blitar Unit Price Analysis (AHSP). The research stages include three-dimensional modeling of architecture and fire protection systems, extraction of work volumes through Quantity Take Off (QTO), and cost estimation based on applicable regulations. The study results show that BIM Revit can simulate sprinkler systems, smoke and heat detectors, indoor hydrants, and other safety panels visually and quantitatively. The estimated cost of the fire protection system reached Rp 811,236,639. This study provides evidence that BIM can improve the accuracy of fire protection system planning and support cost efficiency in public service building construction projects.</p>2025-04-30T00:00:00+07:00Copyright (c) 2025 Journal of Ikatan Ahli Manajemen Proyek Indonesiahttps://journal.unej.ac.id/JIAMPI/article/view/1304Model Perencanaan Pemeliharaan Bangunan Gedung Menggunakan Building Information Modeling (BIM)2025-06-07T16:04:02+07:00Jamal Ilmi Amaliawanjamalilmi855@gmail.comSyamsul Arifinsyamsul.teknik@unej.ac.idAnita Trisianaanita.teknikunej@gmail.com<p>The rapid development in Indonesia is marked by the increasing needs and supporting infrastructure. In its development, the need for facilities and infrastructure should be accompanied by good maintenance management so that the economic life of the building can be maintained. This study aims to develop a building maintenance planning model based on Building Information Modeling (BIM) and Computerized Maintenance Management System (CMMS) technology. The case study was conducted at the Agrotechnopark Laboratory Building, University of Jember, using Autodesk Revit 2024 software for three-dimensional architectural modeling and the Limble CMMS application for building maintenance simulation. The data includes technical drawings (DED), field inspection results, and maintenance standard documents based on PUPR Regulation No. 24/PRT/M/2008. The modeling results show an accurate volume of work, including a wall area of 4749 m², a floor of 3487 m², a ceiling of 2064 m², and a total of windows and doors calculated per unit. Limble CMMS allows the integration of maintenance data, preventive and corrective scheduling, and digital recording of building history. This model has been proven to increase the efficiency of building maintenance management and can provide early warning for maintenance actions, making it very relevant for application to public facility buildings.</p>2025-04-30T00:00:00+07:00Copyright (c) 2025 Journal of Ikatan Ahli Manajemen Proyek Indonesiahttps://journal.unej.ac.id/JIAMPI/article/view/1672Pengaruh Penerapan Keselamatan dan Kesehatan Kerja (K3) terhadap Produktifitas Tenaga Kerja pada Proyek Pekerjaan MEP di Apartemen Kyo Society Surabaya2025-06-08T19:56:14+07:00Priyo Winardipriyowinardi97@gmail.comHendro Sutowijoyohendro.sutowijoyo@narotama.ad.ic<p>This study examines the impact of the implementation of the Occupational Safety and Health (OHS) program on labor productivity in mechanical, electrical, and plumbing (MEP) work projects in the construction of Kyo Society Apartments in Surabaya. This study aims to: 1) Identify occupational safety and health risks faced by MEP workers; 2) Analyze the effect of OHS risks on labor productivity; 3) Formulate mitigation efforts to minimize these risks. This research uses quantitative methods with data collection through surveys distributed to MEP project workers. Data analysis was conducted using descriptive and inferential statistical techniques to test the relationship between OHS variables and work productivity. The results showed that there is a significant relationship between OHS implementation and labor productivity. Good implementation of OHS programs contributes to increased productivity through reduced incidence of workplace accidents and improved worker health. Proposed risk mitigation efforts include periodic training, provision of personal protective equipment (PPE), and strict enforcement of safety policies. In conclusion, the implementation of OHS has a positive impact on labor productivity in MEP projects. The recommendations from this study are expected to be a reference for project managers to improve the effectiveness of the OHS program in order to achieve optimal productivity and a safer work environment</p>2025-04-30T00:00:00+07:00Copyright (c) 2025 Journal of Ikatan Ahli Manajemen Proyek Indonesiahttps://journal.unej.ac.id/JIAMPI/article/view/1323Kajian Penerapan Standar K3 Terhadap Kinerja Waktu dan Kedisiplinan Kerja2025-06-05T00:36:44+07:00Widi Arrahmanwidiarrahman@gmail.comLukas Beladi Sihombinglukas_sihombing@yahoo.com<p>Despite being hindered by the COVID-19 pandemic, construction work in Indonesia has returned to normal, especially in the infrastructure sector. The high risk of workplace accidents in construction is a major concern, with data showing an increase in accidents each year. 2023 workplace accidents reached 289 thousand cases, most occurring in the construction sector. This study aims to examine the impact of occupational safety and health (OSH) sanctions on the discipline of using personal protective equipment (PPE) and time performance in the construction project of PMJLand Tower. The study's results indicate that OSH sanctions improve worker discipline in using PPE and maintain project time performance. However, sanctions are not the only factor; management commitment, training, and effective supervision also play crucial roles. This research also identifies high accident risks due to indiscipline in PPE use, with the top five risks significantly affecting project time performance.</p>2025-04-30T00:00:00+07:00Copyright (c) 2025 Journal of Ikatan Ahli Manajemen Proyek Indonesiahttps://journal.unej.ac.id/JIAMPI/article/view/1143Pemodelan Struktur Gedung Tower At-Ta’awun Universitas Muhammadiyah Surabaya Dengan BIM 5D2025-06-07T16:18:53+07:00Anik Ratnaningsihanik.teknik@unej.ac.idLestari Tata Handayanilestaritata01@gmail.comSyamsul Arifinsyamsul.teknik@unej.ac.id<p>The rapid development of building infrastructure requires a more integrated development system. Building Information Modeling (BIM) is a technology that supports the construction process. Details of the volume of work implementation or Quantity Taken are features of BIM that help use BIM 5D. Quantity Take-off calculations based on BIM are more precise and detailed than conventional systems. One of the software supporting BIM is Autodesk Revit. Autodesk Revit helps design construction buildings in 3D. The At-Ta'Awun Tower Building Construction Project, Universitas Muhammadiyah Surabaya, has not used the Building Information Modeling (BIM) method in its implementation and uses conventional methods with Autocad and Microsoft Excel software in calculating its Quantity take-off. Based on this, a review will be carried out on the implementation of Building Information Modeling (BIM) 5D in the construction of the At-Ta'awun Tower Building, Universitas Muhammadiyah Surabaya, which aims to obtain QTO and RAB results and BIM-based work duration. The research steps include data collection, 3D modeling with Autodesk Revit 2024 software, clash detection, Quantity take off for budget plan, MS Project scheduling plan, and scheduling simulation with Autodesk Navisworks Manage 2024. The application of BIM to the At-Ta'awun tower building construction project, Universitas Muhammadiyah Surabaya, found 3D modeling consisting of lower structure and upper structure work by producing Quantity take off. From the BIM-based quantity take-off results on Autodesk Revit 2024 software, the total work for concreting was 5079.53 m3, reinforcement 1439028.23 kg, and formwork 32653.00 m2. The Budget Plan was obtained at Rp54,860,928,276.00, and the scheduling planning (schedule) duration required to complete the structural work is 308 calendar days. This study shows that 5D BIM can reduce the risk of volume errors, improve the efficiency of time and cost planning, and provide effective integration of technical and visual data for construction project management.</p>2025-04-30T00:00:00+07:00Copyright (c) 2025 Journal of Ikatan Ahli Manajemen Proyek Indonesia