Evaluating Smart Mobile Public Services for Bridging Digital Divide in Rural Governance Systems

Muhtarom Muhtarom; Dewi Immaniar Desrianti; Nengah Sukendri; Thomas Green; Muhammad Farhan Kamil

doi:10.33050/italic.v4i2.1065

Authors

Muhtarom Muhtarom Universitas Terbuka https://orcid.org/0009-0002-1497-9574
Dewi Immaniar Desrianti Universitas Raharja https://orcid.org/0000-0002-0409-6754
Nengah Sukendri State Hindu Institute of Gde Pudja Mataram https://orcid.org/0000-0002-2635-3109
Thomas Green EESP Incorporation https://orcid.org/0009-0001-7048-2231
Muhammad Farhan Kamil Alfabet Inkubator Indonesia https://orcid.org/0009-0001-6918-1618

DOI:

https://doi.org/10.33050/italic.v4i2.1065

Keywords:

Digital Governance, Digital Literacy, Governance Performance , Infrastructure, Development

Abstract

The persistent digital divide remains a critical challenge for rural governance, particularly in developing regions where disparities in infrastructure, digital literacy, and institutional capacity hinder equitable access to public services. This study aims to evaluate the impact of mobile-based public services on improving governance outcomes, specifically in terms of accessibility, efficiency, transparency, citizen participation, and public trust within rural contexts. A quantitative research design is employed using Structural Equation Modeling (SEM), based on survey data collected from 250 rural respondents and supported by national digital access indicators to ensure empirical robustness. The results reveal that mobile-based public services significantly enhance governance performance, with strong positive effects on accessibility (β= 0.72), efficiency (β = 0.68), and transparency (β = 0.70). These improvements subsequently foster higher levels of citizen participation (β = 0.75), which plays a critical mediating role in strengthening public trust (β = 0.80). Additionally, the measurement and structural models demonstrate strong reliability, convergent validity, discriminant validity, and overall model fit, confirming the robustness of the proposed framework. This study contributes to the digital governance literature by offering an integrated socio-technical and empirical SEM-based framework that explains how mobile-based services can effectively bridge the digital divide and enhance rural governance outcomes. Furthermore, it provides practical and policy-relevant insights aligned with Sustainable Development Goals (SDG 9, SDG 10, and SDG 16), supporting inclusive and sustainable digital transformation strategies.

References

[1] E. Vigoda-Gadot and S. Mizrahi, “The digital governance puzzle: Towards integrative theory of humans, machines, and organizations in public management,” Technology in Society, vol. 77, p. 102530, 2024.

[2] C. Lukita, T. Handra, F. P. Oganda, and M. Laurens, “Data-driven innovation for circular digital economy in sustainable urban development,” IAIC Transactions on Sustainable Digital Innovation (ITSDI), vol. 7, no. 1, pp. 97–105, 2025.

[3] C. Huang, W. Liu, W. Iqbal, and S. A. R. Shah, “Does digital governance matter for environmental sustainability? the key challenges and opportunities under the prism of natural resource management,” Resources Policy, vol. 91, p. 104812, 2024.

[4] M. G. Hardini, N. A. Yusuf, A. R. A. Zahra et al., “Convergence of intelligent networks: Harnessing the power of artificial intelligence and blockchain for future innovations,” ADI Journal on Recent Innovation, vol. 5, no. 2, pp. 200–209, 2024.

[5] M. Kassen, “Blockchain and digital governance: Decentralization of decision making policy,” Review of Policy Research, vol. 42, no. 1, pp. 95–121, 2025.

[6] A. Sutarman, J. Williams, D. Wilson, and F. B. Ismail, “A model-driven approach to developing scalable educational software for adaptive learning environments,” International Transactions on Education Technology (ITEE), vol. 3, no. 1, pp. 9–16, 2024.

[7] T. O. Jejeniwa, N. Z. Mhlongo, and T. O. Jejeniwa, “Conceptualizing e-government initiatives: lessons learned from africa-us collaborations in digital governance,” International Journal of Applied Research in Social Sciences, vol. 6, no. 4, pp. 759–769, 2024.

[8] R. G. Rahmadani, O. D. Nurhayati, and D. M. K. Nugraheni, “Oriented enterprise architecture for enhancing digital governance and technopreneurship in regional governments,” Aptisi Transactions on Technopreneurship (ATT), vol. 7, no. 3, pp. 942–956, 2025.

[9] J. Hu and X. Zhang, “Digital governance in china: Dispute settlement and stability maintenance in the digital age,” Journal of Contemporary China, vol. 33, no. 148, pp. 561–577, 2024.

[10] D. Septyawati, S. Suroso, S. Bhupathiraju, C. T. Hua, and A. Fitriani, “Blockchain technology integration for enhancing security and reliability in modern information systems,” International Transactions on Artificial Intelligence, vol. 4, no. 1, pp. 95–104, 2025.

[11] G. Esposito, A. Terlizzi, M. Guarino, and N. Crutzen, “Interpreting digital governance at the municipal level: Evidence from smart city projects in belgium,” International Review of Administrative Sciences, vol. 90, no. 2, pp. 301–317, 2024.

[12] J. Florence and A. Aprillia, “E-satisfaction as a mediator between e-service quality, e-trust, and e-loyalty,” APTISI Transactions on Management, vol. 9, no. 2, pp. 231–240, 2025.

[13] Y. Du, J. Xu, and X. Yuan, “How public digital governance system affects firms’ digital technology innovation performance: Base on open innovation perspective,” Technology in Society, vol. 83, p. 103001, 2025.

[14] U. Rahardja, Q. Aini, A. S. Bist, S. Maulana, and S. Millah, “Examining the interplay of technology readiness and behavioural intentions in health detection safe entry station,” JDM (Jurnal Dinamika Manajemen), vol. 15, no. 1, pp. 125–143, 2024.

[15] I. Isabella, A. Alfitri, A. Saptawan, N. Nengyanti, and T. Baharuddin, “Empowering digital citizenship in indonesia: Navigating urgent digital literacy challenges for effective digital governance,” Journal of Governance and Public Policy, vol. 11, no. 2, pp. 142–155, 2024.

[16] A. K. Jaya, U. Ependi, A. A. Setyawan, A. Jaiswal, G. P. Cesna, R. Kurniaji et al., “Artificial intelligence analysis of cultural narratives shaping emotional responses to infertility,” in 2025 4th International Conference on Creative Communication and Innovative Technology (ICCIT). IEEE, 2025, pp. 1–7.

[17] K. Chen, Q. Li, M. Shoaib, W. Ameer, and T. Jiang, “Does improved digital governance in government promote natural resource management? quasi-natural experiments based on smart city pilots,” Resources Policy, vol. 90, p. 104721, 2024.

[18] J. Wilson and E. Erika, “Empowering eco-innovation through digitalization in startup enterprises,” Startupreneur Business Digital (SABDA Journal), vol. 4, no. 2, pp. 146–154, 2025.

[19] K. S. Mohammed, O. A. A.-J. Sallam, S. B. Abdelkader, and M. Radulescu, “Dynamic effects of digital governance and government interventions on natural resources management: Fresh findings from chinese provinces,” Resources Policy, vol. 92, p. 105004, 2024.

[20] Q. Aini, S. Naurah, A. S. Bist, R. A. Sunarjo, D. Novitasari, I. Sasono, and D. Apriliasari, “Designing an ai-based expert system to enhance standard language use on social media,” International Transactions on Artificial Intelligence, vol. 3, no. 2, pp. 181–191, 2025.

[21] S. Qian and W. Yu, “Green finance and environmental, social, and governance performance,” International Review of Economics & Finance, vol. 89, pp. 1185–1202, 2024.

[22] N. P. L. Santoso, M. Migunani, L. Pasha, M. R. Syauqy, and N. Rangi, “Measuring the humanistic impact of digital technologies on happiness a cross-cultural analysis,” Journal of Orange Technology, vol. 2, no. 1, pp. 13–24, 2025.

[23] W. Chen, Y. Xie, and K. He, “Environmental, social, and governance performance and corporate innovation novelty,” International Journal of Innovation Studies, vol. 8, no. 2, pp. 109–131, 2024.

[24] R. A. Sunarjo, T. Pujiati, D. Apriliasari, and M. Hardini, “Digital onboarding in agricultural platforms and its impact on agricultural productivity,” IAIC Transactions on Sustainable Digital Innovation (ITSDI), vol. 6, no. 2, pp. 205–214, 2025.

[25] M. Zhou, Z. Huang, and K. Jiang, “Environmental, social, and governance performance and corporate debt maturity in china,” International Review of Financial Analysis, vol. 95, p. 103349, 2024.

[26] C. Lukita, A. K. Chandra, R. Fahrudin, N. M. Agatha, and D. P. Suci, “Maturity level measurement model of msmes for sustainable economic growth,” Aptisi Transactions on Technopreneurship (ATT), vol. 8, no. 2, pp. 434–442, 2026.

[27] N. R. Ahmad, “Urban water service delivery in emerging economies: Fiscal sustainability, cost recovery, and governance performance,” International Journal of Business and Economic Affairs, vol. 10, no. 3, pp. 70–85, 2025.

[28] D. Danang, H. Haryani, Q. Aini, F. A. Ramahdan, and J. Edwards, “Empowering digital literacy through blockchain based alphasign for secure and sustainable e-governance,” ADI Pengabdian Kepada Masyarakat Jurnal (ADIMAS Jurnal), 2025.

[29] H. Al Amosh, S. F. Khatib, A. Alkurdi, and A. H. Bazhair, “Capital structure decisions and environmental, social and governance performance: Insights from jordan,” Journal of Financial Reporting and Accounting, vol. 22, no. 4, pp. 972–989, 2024.

[30] C. Aurora, H. Henry, T. Handra, F. Sutisna, J. Parker et al., “Implementing blockchain technology to strengthen privacy and authenticity in university records,” Jurnal MENTARI: Manajemen, Pendidikan dan Teknologi Informasi, vol. 4, no. 1, pp. 83–93, 2025.

[31] T. H. D. Truong, “Environmental, social and governance performance and firm value: does ownership concentration matter?” Management Decision, vol. 63, no. 2, pp. 488–511, 2025.

[32] J. Wang and S. Zhang, “Environmental protection tax, green innovation, and environmental, social, and governance performance,” Finance Research Letters, vol. 65, p. 105592, 2024.

[33] C. S. B. Bangun, D. P. Riskhandini, and N. Lyraa, “Blockchain governance models for enhancing e-commerce user satisfaction,” Blockchain Frontier Technology, vol. 4, no. 2, pp. 72–83, 2025.

[34] E. Setiawaty, H. Hartoyo, R. Nurmalina, and L. N. Yuliati, “Entrepreneurship and innovation in telemedicine adoption among physicians in indonesia,” Aptisi Transactions on Technopreneurship (ATT), vol. 7, no. 3, pp. 927–941, 2025.

[35] M. Anzar, H. Hasbullah, and I. Asraf, “The influence of digital literacy on citizen engagement and participation in e-government services for inclusive digital governance,” Journal Social Civilecial, vol. 2, no. 2, pp. 87–98, 2024.

[36] R. Evans, F. P. Oganda, M. A. Setiawan, L. Nurjanah, and M. Sunengsih, “Assessing the environmental and economic effects of smart grid integration using sem,” International Transactions on Artificial Intelligence, vol. 4, no. 1, pp. 49–60, 2025.

[37] A. K. AbdulKareem and K. A. Oladimeji, “Cultivating the digital citizen: trust, digital literacy and e-government adoption,” Transforming Government: People, Process and Policy, vol. 18, no. 2, pp. 270–286, 2024.

[38] A. S. Anita, T. Kuusk, G. Nicola, M. Hardini, and U. Rahardja, “Advancements in artificial intelligence and their contributions to sustainable development goals: A multidisciplinary review,” Sundara Advanced Research on Artificial Intelligence, vol. 2, no. 1, pp. 37–47, 2026.

[39] A. M. Fadli and R. Niswaty, “Integrating media literacy into school governance: An administrative framework for digital citizenship,” International Journal of Administration and Education, pp. 161–173, 2025.

[40] Ministry of National Development Planning/Bappenas, “National Medium-Term Development Plan (RPJMN) 2020–2024,” https://www.bappenas.go.id, 2020, focuses on digital transformation, public service inclusion, and reducing the digital divide.

[41] Kementerian Komunikasi dan Informatika Republik Indonesia, “Indonesia Digital Roadmap 2021–2024,” https://kominfo.go.id, 2021, mendorong literasi digital, infrastruktur, dan layanan publik berbasis digital.

[42] M. Gebhardt, T. W. Thun, M. Seefloth, and H. Z¨ulch, “Managing sustainability—does the integration of environmental, social and governance key performance indicators in the internal management systems contribute to companies’ environmental, social and governance performance?” Business Strategy and the Environment, vol. 32, no. 4, pp. 2175–2192, 2023.

[43] A. Kadim, I. Yusnita, A. Sutarman, R. Lesmana, and F. A. Ramahdan, “Assessing the impact of corporate governance and strategic leadership on economic growth and market stability,” IAIC Transactions on Sustainable Digital Innovation (ITSDI), vol. 6, no. 2, pp. 177–187, 2025.

[44] A. M. Habib et al., “Does the efficiency of working capital management and environmental, social, and governance performance affect a firm’s value? evidence from the united states,” Financial Markets, Institutions and Risks, vol. 6, no. 3, pp. 18–25, 2022.

[45] U. Rahardja, M. T. D. S. Putri, N. Septiani, F. Amelia, A. Avandi, and R. Evans, “Human centered legal governance for autonomous ai in digital societies,” Legal Autonomous Web-based Governance (LAW), vol. 1, no. 1, pp. 29–41, 2026.

[46] M. H. Shakil, “Environmental, social and governance performance and stock price volatility: A moderating role of firm size,” Journal of Public Affairs, vol. 22, no. 3, p. e2574, 2022.

Evaluating Smart Mobile Public Services for Bridging Digital Divide in Rural Governance Systems

Authors

DOI:

Keywords:

Abstract

References

Downloads

Published

Issue

Section

License

Block Name