A smart city infrastructure implementation framework – insights from smart street lighting implementation optimization

Maria Anityasari; Rizki Amrizal; Erwin Widodo; Sjamsjul Anam; Boon Cheong  Chew

doi:10.12928/ijio.v6i2.13307

Authors

Maria Anityasari Institut Teknologi Sepuluh Nopember
Rizki Amrizal Institut Teknologi Sepuluh Nopember
Erwin Widodo Institut Teknologi Sepuluh Nopember
Sjamsjul Anam Institut Teknologi Sepuluh Nopember
Boon Cheong Chew Universiti Teknikal Malaysia Melaka

DOI:

https://doi.org/10.12928/ijio.v6i2.13307

Keywords:

Analytical Hierarchy Process, Cost benefit analysis, Development planning, Optimization, Mixed integer goal programming

Abstract

In recent years, the concept of smart cities and infrastructure has gained momentum as a solution to challenges such as population growth, resource management, and environmental sustainability. Rapid urbanization in many developing countries highlights the need for efficient infrastructure planning and management. This framework offers a structured approach for decision-making and resource allocation, enabling prioritization of investments to maximize limited resources while supporting development goals. The framework is tested through an analysis of the Smart Street Lighting Systems (SSLS) in Surabaya, Indonesia, addressing the city's intention to upgrade street lighting to reduce maintenance costs and energy consumption. Currently, the street lighting system faces issues including a high rate of broken or damaged lights and inefficiencies in handling complaints. However, limited funding and varied regional needs constrain any comprehensive upgrade. The proposed framework integrates the Analytical Hierarchy Process (AHP) to prioritize regions as weighting inputs, Mixed Integer Goal Programming (MIGP) to optimize the distribution of SSLS and conventional LED lighting across regions, and Cost-Benefit Analysis (CBA) to evaluate financial feasibility. Results recommend purchasing 11,915 new SSLS units with region-specific distributions, achieving a financially viable Benefit-Cost Ratio (BCR) of 2.059. These findings demonstrate practical implementation of smart city principles, balancing cost-efficiency, service performance, and stakeholder priorities. Policymakers can use this framework to maximize impact within budget constraints. This framework serves as a viable template for other regions and countries embarking on smart city infrastructure implementation.

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