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Mohammed Ali Berawi
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CSID Journal of Infrastructure Development
Published by Universitas Indonesia
ISSN : 24074438     EISSN : 24075957     DOI : https://doi.org/10.7454/jid
Core Subject : Science, Social, Engineering,
Civil Engineering, Building, Construction & Architecture Decision Sciences, Operations Research & Management Engineering Social Sciences
The CSID Journal of Infrastructure Development is peer-reviewed journal dedicated to advancing cutting-edge research and practices in the infrastructure and built environment. Topic of interest include, but not limited to; Infrastructure and Transportation Systems: Road, railway, seaport, airport infrastructure development, including international case studies and comparative analyses. Urban and Rural Planning: Smart and healthy cities, land use planning, utilities, ICT integration, and cross-border urban development strategies. Sustainability and Environmental Resilience: Climate adaptation, renewable energy systems, water and wastewater management, and sustainability practices in urban development. Infrastructure Finance and Asset Management: Life-cycle cost analysis, risk assessment, public-private partnerships, and economic models of infrastructure investment. Digital Transformation in the Built Environment: The role of building information modeling (BIM), digital twins, artificial intelligence (AI), and machine learning in global infrastructure innovation.
Arjuna Subject : Teknik (semua kategori) - Bangunan dan Konstruksi
Articles 149 Documents
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A Comparative Study of Local and Global Construction Materials Sourcing Strategies for Road Projects in Nigeria Ajiboye, Araoye Olarinkoye; Silas, Micaiah Zhitsu; Adindu, Chinedu Chimdi; Alhassan, Elijah Aina; Kolo, Stephen Sunday
CSID Journal of Infrastructure Development Vol. 7, No. 2
Publisher : UI Scholars Hub

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Abstract

This study is a comparative analysis of local and global sourcing strategies to determine the impact of strategic material sourcing on road construction project performance. The study aimed to evaluate the effects of material-sourcing strategies on the performance of road construction companies in Nigeria. A mixed-methods approach was used, incorporating both qualitative and quantitative research. Data collection involved sampling techniques using structured questionnaires and oral interviews. Regression analysis evaluated the relationship between strategic material sourcing and road construction performance. The results revealed that 87.5% of the materials used by road construction companies in the study areas were sourced from the local market, which indicates a high dependence on local resources and substantial investments and purchases within the local economy. Additionally, it was shown that local material sourcing was advantageous over global sourcing in terms of quick delivery and cost savings on road projects. However, the study also revealed that global material sourcing was necessary for projects requiring advanced and higher-quality materials. The study concludes that a high percentage of domestic material sourcing is essential for boosting the Nigerian economy through industrialization, employment generation, and a robust and self-sufficient economy. It is recommended that both government and private material suppliers explore ways to enhance the quality and availability of local road construction materials through advanced manufacturing technologies to improve service delivery by road project contractors. Furthermore, expanding the existing road material procurement process could create opportunities for construction companies beyond the local area and foster healthier competition among them by leveraging economies of scale.
The Most Influential Factors on The Risk Cost Estimation Process of Implementing Bim 5d in Quantity Take-Off for Green Retrofitting of High-Rise Buildings Dewi, Febrianti Silviana; Latief, Yusuf; Kussumardianadewi, Bernadette Detty
CSID Journal of Infrastructure Development Vol. 7, No. 2
Publisher : UI Scholars Hub

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Abstract

Green retrofitting aims to guide buildings toward sustainable practices, reducing carbon emissions associated with building operations and construction. This study explores the application of Building Information Modeling (BIM) 5D Quantity Take-Off (QTO) to existing high-rise buildings, focusing on components that enhance the performance of environmentally friendly structures and project management. This research identifies the factors influencing the cost estimation process and examines the risks across various phases, activities, outputs, and utilization of BIM 5D in cost estimation. The study highlights the most influential factors in implementing green retrofitting for high-rise buildings using structured interviews, questionnaires, and expert validation. The analysis demonstrates that BIM 5D QTO significantly impacts the risk associated with cost estimation in green retrofitting processes. The study ranks the criteria based on respondent feedback by employing Relative Importance Index (RII) analysis. The statistical analysis identifies key factors affecting the risk of cost estimation in BIM QTO for green retrofitting of high-rise buildings. These factors include evaluating specifications, defining acceptance criteria, decomposing the high-level Work Breakdown Structure (WBS), inputting sizes and specifications of each work component into the 3D model, integrating scheduling into the 3D model, and establishing a BIM Execution Plan.
Comparison of The Accuracy of Contour Data in Photogrammetric and Terrestrial Surveys Saputra, Hendra; Rizki, Roma; Sastra, Marhadi
CSID Journal of Infrastructure Development Vol. 7, No. 2
Publisher : UI Scholars Hub

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Abstract

Understanding and accurately representing the Earth's surface is crucial in various scientific and practical fields. Over the past decades, measurement technology has seen remarkable advancements, offering an array of methods for recording and analyzing Earth's surface with increasing precision and efficiency. Two primary approaches have risen to the forefront of this field: the Digital Terrain Model (DTM) and terrestrial measurements using a Total Station. Although both technologies offer unique advantages and constraints, a comprehensive direct comparison between these two methods often remains an underexplored area. The Digital Elevation Model (DEM) represents the height of the ground surface resulting from acquisition using drones. Ground Control Points (GCPs) are evenly distributed in the study’s Area of Interest (AoI) to enhance accuracy and precision. The DEM data is then converted into contour maps and corrected for horizontal and vertical accuracy using the Root Mean Square Error (RMSE) method following the Geospatial Information Agency's standards (Regulation No. 15 of 2014). Terrestrial measurement is a method used to create contour maps using a Total Station to obtain field coordinate data. Terrestrial measurements create contour maps using a Total Station, with field coordinate data corrected by GPS Geodetic methods and compared with aerial photo DEM data. RMSE calculations reveal that DEM data has RMSExy of 0.319 meter (m) and RMSEz of 0.197 m, whereas terrestrial data using the Total Station shows RMSExy of 0.062 m and RMSEz of 0.039 m. Accuracy comparisons indicate that the DEM from aerial photographs has a Circular Error (CE) of 0.485 m and Linear Error (LE) of 0.325 m, while terrestrial data accuracy using a Total Station shows CE of 0.094 m and LE of 0.064 m.
Critical Success Factors in Pump Production to Increase Lean Manufacturing Project Performance Dwianditya, I Bayu; Riantini, Leni Sagita; Latief, Yusuf
CSID Journal of Infrastructure Development Vol. 7, No. 2
Publisher : UI Scholars Hub

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Abstract

Floods represent a significant global disaster, occurring more frequently and causing severe damage. The effective production of pumps is crucial in supporting flood infrastructure projects. Lean Manufacturing (LM) and Project Management (PM) approaches must be incorporated to improve pump production manufacturing. Therefore, this study aims to identify the critical success factors that enhance LM performance in pump production projects for flood management through surveys conducted among pump manufacturers, governmental bodies, and relevant stakeholders engaged in flood infrastructure projects. The study's results highlight the importance of understanding and analyzing project complexity, aligning pump design with project requirements, and mastering processes and technical aspects, including method compliance and continuous improvement within the Lean framework. Effective project management, emphasizing goal clarity, planning, and execution, is also crucial. The insights obtained from this study significantly contribute to understanding the critical considerations in pump production to support flood infrastructure projects.
Strategies for Resilient Build Back in The Post-Flood Era: An AHP-Dematel Technique Tahir, Muhammad; Idris, Mohd Fadzil Bin Mohd
CSID Journal of Infrastructure Development Vol. 7, No. 2
Publisher : UI Scholars Hub

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Abstract

Pakistan suffered from devastating floods in 2022, causing extensive infrastructural, economic, social, and other damages. Effective risk management was notably absent in the country. Therefore, this paper identifies critical factors influencing the build-back-better (BBB) framework and resilience building. The evaluation of various strategies for risk reduction in infrastructure during floods, ensuring its resilience, is also addressed. This study employs Multi-Criteria Decision Making (MCDM) techniques, specifically the Analytic Hierarchy Process (AHP) and the Decision-Making Trial and Evaluation Laboratory (DEMATEL), to assess critical factors in BBB in the context of devastating floods. The AHP analysis effectively ranked the identified factors based on their relative weights, while DEMATEL determined the inter-relationships among the parameters, categorizing them into effect and cause groups. The results indicate that improvement in structural design is essential, whereas asset replacement is the least important factor. According to the DEMATEL analysis, Cash-for-Work was the most important causal factor in improving resilience-building procedures. The findings of this study assist policymakers in formulating a risk-resilient framework for enhancing construction strategies and developing a strong and resilient infrastructure, effectively influencing associated stakeholders.
Analyzing the Effect of the Construction Safety Audit Model Using the Business Process Model and Notation (BPMN) Method on Improving Communication and Collaboration Between Stakeholders. Ghazali, Muhammad; Nugroho, Danang Budi; Latief, Yusuf
CSID Journal of Infrastructure Development Vol. 7, No. 2
Publisher : UI Scholars Hub

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Abstract

The significant increase in infrastructure development is directly proportional to the rising accident rate in the construction sector, making it one of the highest-risk sectors for accidents. This phenomenon indicates that existing construction safety audits have not been effective in preventing accidents, largely because audits are generally conducted only at the construction stage. Audits at the design stage, however, have the potential to impact accident prevention significantly. Therefore, this research aims to develop a construction safety audit model using the Business Process Model and Notation (BPMN) and analyzes the impacts on stakeholder communication and collaboration. BPMN was chosen because it provides a clear and standardized visual representation of business processes, making it easier to identify potential safety issues and improve stakeholder understanding. Statistical methods were employed to examine the relationships, resulting in a linear equation model with a strong correlation. Furthermore, audit activities conducted through three layers of stakeholders can be efficiently modeled using BPMN, positively impacting stakeholder communication and collaboration. Applying the Three Lines of Defense (TLoD) theory and BPMN provides new insights for construction safety committees and companies to plan and conduct more comprehensive safety audits. The implication of this study includes a potential reduction in construction accidents and improved work safety through more effective communication and collaboration among stakeholders.
The Role of Stakeholder Involvement in Enhancing Safe Drinking Water Infrastructure: An Interpretative Structural Modeling Approach Rahmanea, Awlya; Rarasati, Ayomi Dita
CSID Journal of Infrastructure Development Vol. 7, No. 2
Publisher : UI Scholars Hub

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Abstract

One of the primary goals listed in the Sustainable Development Goals (SDGs) is to “Achieve universal and equitable access to safe and affordable drinking water for all,” as stated in SDG 6.1. To obtain this goal, the Government of Indonesia has developed the 2020-2024 National Medium-Term Development Plan (RPJMN), which has set specific targets including achieving 100% access to decent drinking water, 15% access to safe drinking water, and establishing 10 million house connections. The Ministry of National Development Planning has established a goal of achieving 45% access to safe drinking water by 2030 as part of the SDGs. However, as per the World Health Organization (WHO), Indonesia is projected to attain a 30% level of access to safe drinking water by 2022, which falls short of the objective set for 2030. Therefore, this study aims to identify the stakeholders involved in achieving safe drinking water goals and the factors that affect the achievement of access to safe drinking water. The methods employed include interviews to identify and map stakeholders, Geometric Mean (GM) analysis to assess the level of influence and interest of stakeholders, and Interpretative Structural Modelling (ISM) to determine the influence level of each factor. The findings reveal that seven agencies are involved as stakeholders. The primary stakeholders in the "Manage Closely" quadrant include the Ministry of National Development Planning, the Ministry of Public Works and Housing, and the Local Government. Additionally, 23 factors were found to have an impact on the provision of safe drinking water. The ISM analysis indicated that the most influential factors were “Restrictions on authority related to regional autonomy and power sharing between institutions/ministries,” “The number of stakeholders involved,” and “Regulations and policies related to the procurement of safe drinking water supply.”
Investigating the Relationship Among the Construction Safety Plan, Knowledge Management, Audit Process, Information System, Web, and BIM with Construction Safety Performance Fadli, Zafira Alysha; Latief, Yusuf; Nugroho, Danang Budi
CSID Journal of Infrastructure Development Vol. 7, No. 2
Publisher : UI Scholars Hub

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Abstract

The rapid growth of high-rise building construction in Indonesia has led to a significant increase in accidents, necessitating a robust audit process for construction safety. This research investigates the relationship between construction safety plans (CSPs), audit processes, knowledge management (KM), information systems, the web, and BIM on construction safety performance, aiming to develop a BIM-based KM audit process. To analyze the significance level of various indicators for each variable considerable importance, a mixed-methods approach was employed, combining qualitative insights from expert interviews with quantitative analysis using Structural Equation Modeling (SEM) via SmartPLS. The findings in the study reveal that the studied variables have a Cronbach's Alpha value above 0.7, and the retained variables have a significant value greater than or equal to 0.7. In this study, the confidence level is 95%, where there is a relationship between variables that meet the t-table, which is > 1.96, it can be concluded that the relationship between each variable has a significant value. This study provides a framework for integrating these elements to enhance construction safety performance, offering valuable guidelines for industry stakeholders to improve safety practices in construction projects.
RETRACTED: Empowerment of Increasing Economic Resilience Post Covid-19 Janjang Wulung Village Community Through Creative Economic Village Planning Wardhana, Alvian; Ramayuda, Muhammad; Muhammad, Faza Farhan; Nariswari, Acyuta Putri; Cahya, Salsa Dwi; Wicaksono, Garin Ardi; Dianafi, Dani Rizky; Ivan, Muhammad
CSID Journal of Infrastructure Development Vol. 7, No. 2
Publisher : UI Scholars Hub

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Abstract

This article has been retracted at the request of the authors. Reason: 1. Conflict of interest for using an open database under the assignment of “Studio Desa” on the odd semester 2020/2021 at Perencanaan Wilayah dan Kota, Universitas Brawijaya 2. The plaintiff's consideration comes from another researcher under the assignment of “Studio Desa” related to the reconstruction of Journal results and development 3. Avoid bigger conflicts, especially those related to all parties, including authors, Plaintiff parties, institutions, and all parties involved The Publisher
External Financing, Governance, and Infrastructure Development: Evidence From Sub-Saharan Africa Noah, Afees Oluwashina; David, Oladipo Olalekan
CSID Journal of Infrastructure Development Vol. 7, No. 3
Publisher : UI Scholars Hub

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Infrastructure development in Sub-Saharan Africa (SSA) requires diversified financing strategies to address a significant funding shortfall that cannot be met by domestic resources alone. This research evaluates the contributions of external financing—namely Official Development Assistance (ODA), Foreign Direct Investment (FDI), and Private Participation in Infrastructure (PPI)—in complementing domestic efforts to advance infrastructure in SSA. It examines their influence, alongside governance, on the development of physical and social infrastructure components. Employing methodologies such as Panel-Corrected Standard Errors (PCSE) and System Generalized Method of Moments (SGMM) across 43 SSA economies from 2000 to 2022, the analysis reveals that FDI substantially enhances physical infrastructure development but does not significantly impact social infrastructure. In contrast, ODA is shown to have a negative direct effect on overall infrastructure development, whereas PPI shows no significant direct influence. However, when considering indirect effects mediated by governance, all external financing sources positively affect both types of infrastructure, except for PPI’s influence on social infrastructure. Theoretically, this study reinforces the critical roles of economic growth, institutional quality, and external financing in supporting infrastructure development, as suggested by related theories. The study recommends that SSA authorities should focus on attracting more foreign investment, particularly in physical infrastructure projects, and encourage a broader diversification of external financing sources beyond FDI alone. Moreover, enhancing governance practices is essential for effective resource allocation and utilization. The study also advocates for improved public spending efficiency through enhanced project prioritization and governance reforms to foster sustainable infrastructure development in the region.

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