Road Assessment: Analyzing Geometric Standards Compliance With The Power Of Open-Source Google Earth - A Case Study Of Waecicu Road, West Manggarai
DOI:
https://doi.org/10.37253/leader.v1i4.8954Abstract
This study conducted a case study on Waecicu Road in NTT to evaluate its compliance with the Indonesian Road Geometric Design Guidelines 2021. It aims to revolutionize the process of road assessment by utilizing the power of open-source Google Earth. The study found that Google Earth's features, such as satellite imagery, 3D modeling, and measurement tools, provide a powerful and cost-effective means to assess road geometry, including lane width, slope, and curvature. Using Google Earth, road engineers and planners can quickly identify problem areas and take necessary measures to improve road safety and compliance with standards. The study's findings could contribute to developing more effective and efficient road assessment techniques, particularly in areas with limited resources and infrastructure.
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References
[1] T. Hafli, M. Anjani and M. Fahmi, "Pengaruh Geometrik Jalan Raya Terhadap Pengurangan Rasio Kecelakaan Lalu Lintas," Malikussaleh Journal of Mechanical Science and Technology, 5(2), pp. 44-49, 2021.
[2] F. Kaharu, L. Lalamentik and M. Manoppo, "Evaluasi geometrik jalan pada ruas jalan trans sulawesi Manado-Gorontalo di desa Botumoputi sepanjang 3 km.," Jurnal Sipil Statik, 8(3)., 2020.
[3] A. I. Rifai and M. T. Hastuti, "Analysing urban public transport users’ satisfaction: A case study of Tanjung Priok port route by JakLingko," in AIP Conference Proceedings (Vol. 2599, No. 1). AIP Publishing., 2023.
[4] M. Isradi, J. Prasetijo, Y. D. Prasetyo, N. Hartatik and A. I. Rifai, "PREDICTION OF SERVICE LIFE BASE ON RELATIONSHIP BETWEEN PSI AND IRI FOR FLEXIBLE PAVEMENT," Proceedings on Engineering, vol. 5, no. 2, pp. 267-274, 2023.
[5] W. Wincent, A. I. Rifai and M. Isradi, "The Road Performance Analysis in Jalan Ahmad Yani Batam Using IHCM 1997," Indonesian Journal of Multidisciplinary Science, vol. 1, no. 1, pp. 103-116, 2022.
[6] J. Victory, A. I. Rifai and S. Handayani, "The Satisfaction Analysis of Local Public Transportation (Carry) Services at Batam, Indonesia," Indonesian Journal of Multidisciplinary Science, vol. 1, no. 1, pp. 69-80, 2022.
[7] Y. Immanuel, A. I. Rifai and J. Prasetijo, "The Road Performance Analysis of the Tuah Madani Roundabout, Batam-Indonesia," Indonesian Journal of Multidisciplinary Science, vol. 1, no. 1, pp. 27-36, 2022.
[8] A. M. Lubis, A. I. Rifai and S. Handayani, "The Satisfaction Level of Local Batam City Bus (Bimbar), Indonesia," Indonesian Journal of Multidisciplinary Science, vol. 1, no. 1, pp. 59-68, 2022.
[9] D. A. Sahara, A. I. Rifai and M. A. Irianto, "Vertical Alignment Design of Special Operational Road: A Case TPA Bangkonol, Banten," Citizen: Jurnal Ilmiah Multidisiplin Indonesia , vol. 2, no. 5, pp. 924-933, 2022.
[10] D. D. Haycal, A. I. Rifai and J. Thole, "Community Perception of Local Public Transportation (Angkot) Performance in Palu, Indonesia," Citizen: Jurnal Ilmiah Multidisiplin Indonesia, vol. 2, no. 5, pp. 906-915, 2022.
[11] A. Hermawan, A. I. Rifai and S. Handayani, "Analysis of Student Mode Selection Behavior at Batam International University.," Indonesian Journal of Multidisciplinary Science, vol. 1, no. 1, pp. 1-16, 2022.
[12] A. I. Rifai, Y. Ramadian, M. Isradi and A. Mufhidin, "Study of Implementation Planning of Electronic Road Pricing System on Jakarta," in International Conference on Industrial Engineering and Operations Management , Monterrey, 2021.
[13] I. Andito, A. Rifai and A. Akhir, "The Design of Alignment Horizontal Using Indonesia Highway Design Standard: A Case of Jalan Babat–Tapen, East Java.," Indonesian Journal of Multidisciplinary Science, 1(1), pp. 199-210, 2022.
[14] A. Megarestya, A. Rifai and M. Isradi, "The Horizontal Curved Geometric Design with Autocad® Civil 3D on Jalan Muara Wahau, East Kalimantan.," Indonesian Journal of Multidisciplinary Science, 1(1), pp. 237-250, 2022.
[15] L. Chen, J. Wang, X. Li and S. Zhang, "Utilizing the Pavement Condition Index (PCI) for optimizing maintenance strategies.," Journal of Infrastructure Systems, 31(2), 04021049, p. 31, 2022.
[16] R. Johnson, J. Smith and C. Williams, "Utilizing the Pavement Condition Index (PCI) for prioritizing road maintenance activities and resource allocation.," Journal of Infrastructure Systems,27(2), p. 27, 2021.
[17] N. Ahmed, M. Rahman and M. Hasan, "Evaluation of road conditions in an urban area using Pavement Condition Index (PCI).," Journal of Urban Planning and Development,145(1), p. 145, 2019.
[18] R. Patil, S. Patel and V. Choubey, "Pavement Condition Index (PCI) as a tool for monitoring and managing road infrastructure.," Journal of Traffic and Transportation Engineering,7(4), pp. 400-407, 2020.
[19] S. Zhang, X. Shi, Y. Li and X. Liu, "Advanced calculation methods and interpretation criteria for Pavement Condition Index (PCI) evaluation.," Journal of Infrastructure Systems,29(1), p. 29, 2022.
[20] G. Wang, Y. Han, D. Gong and Q. Li, "Calculation methods and interpretation criteria for Pavement Condition Index (PCI) evaluation.," Journal of Traffic and Transportation Engineering, 5(3),, pp. 216-223, 2018.
[21] J. Smith, A. Johnson, C. Williams and K. Brown, "Localized evaluation approaches for assessing regional road network conditions.," Journal of Transportation Engineering,Part B:Pavement, 146(2),04019023, p. 146, 2020.
[22] M. Ziyadi, H. Ozer, S. Kang and I. Al-Qadi, "Vehicle energy consumption and an environmental impact calculation model for the transportation infrastructure systems.," Journal of cleaner production, 174, pp. 424-436, 2018.
[23] A. Fernandez, C. Rodriguez, R. Martinez and M. Garcia, "Benefits of using the Pavement Condition Index (PCI) to guide maintenance strategies: A case study.," Journal of Transportation Engineering, Part B: Pavement, 147(1), 04020029, p. 147, 2021.
[24] M. Wardhana, E. Suharto, I. Setiawan and A. Mulyanto, "Pavement condition index as a tool for road maintenance prioritization in Indonesia.," International Journal of GEOMATE,16 (54), pp. 35-45, 2019.
[2] F. Kaharu, L. Lalamentik and M. Manoppo, "Evaluasi geometrik jalan pada ruas jalan trans sulawesi Manado-Gorontalo di desa Botumoputi sepanjang 3 km.," Jurnal Sipil Statik, 8(3)., 2020.
[3] A. I. Rifai and M. T. Hastuti, "Analysing urban public transport users’ satisfaction: A case study of Tanjung Priok port route by JakLingko," in AIP Conference Proceedings (Vol. 2599, No. 1). AIP Publishing., 2023.
[4] M. Isradi, J. Prasetijo, Y. D. Prasetyo, N. Hartatik and A. I. Rifai, "PREDICTION OF SERVICE LIFE BASE ON RELATIONSHIP BETWEEN PSI AND IRI FOR FLEXIBLE PAVEMENT," Proceedings on Engineering, vol. 5, no. 2, pp. 267-274, 2023.
[5] W. Wincent, A. I. Rifai and M. Isradi, "The Road Performance Analysis in Jalan Ahmad Yani Batam Using IHCM 1997," Indonesian Journal of Multidisciplinary Science, vol. 1, no. 1, pp. 103-116, 2022.
[6] J. Victory, A. I. Rifai and S. Handayani, "The Satisfaction Analysis of Local Public Transportation (Carry) Services at Batam, Indonesia," Indonesian Journal of Multidisciplinary Science, vol. 1, no. 1, pp. 69-80, 2022.
[7] Y. Immanuel, A. I. Rifai and J. Prasetijo, "The Road Performance Analysis of the Tuah Madani Roundabout, Batam-Indonesia," Indonesian Journal of Multidisciplinary Science, vol. 1, no. 1, pp. 27-36, 2022.
[8] A. M. Lubis, A. I. Rifai and S. Handayani, "The Satisfaction Level of Local Batam City Bus (Bimbar), Indonesia," Indonesian Journal of Multidisciplinary Science, vol. 1, no. 1, pp. 59-68, 2022.
[9] D. A. Sahara, A. I. Rifai and M. A. Irianto, "Vertical Alignment Design of Special Operational Road: A Case TPA Bangkonol, Banten," Citizen: Jurnal Ilmiah Multidisiplin Indonesia , vol. 2, no. 5, pp. 924-933, 2022.
[10] D. D. Haycal, A. I. Rifai and J. Thole, "Community Perception of Local Public Transportation (Angkot) Performance in Palu, Indonesia," Citizen: Jurnal Ilmiah Multidisiplin Indonesia, vol. 2, no. 5, pp. 906-915, 2022.
[11] A. Hermawan, A. I. Rifai and S. Handayani, "Analysis of Student Mode Selection Behavior at Batam International University.," Indonesian Journal of Multidisciplinary Science, vol. 1, no. 1, pp. 1-16, 2022.
[12] A. I. Rifai, Y. Ramadian, M. Isradi and A. Mufhidin, "Study of Implementation Planning of Electronic Road Pricing System on Jakarta," in International Conference on Industrial Engineering and Operations Management , Monterrey, 2021.
[13] I. Andito, A. Rifai and A. Akhir, "The Design of Alignment Horizontal Using Indonesia Highway Design Standard: A Case of Jalan Babat–Tapen, East Java.," Indonesian Journal of Multidisciplinary Science, 1(1), pp. 199-210, 2022.
[14] A. Megarestya, A. Rifai and M. Isradi, "The Horizontal Curved Geometric Design with Autocad® Civil 3D on Jalan Muara Wahau, East Kalimantan.," Indonesian Journal of Multidisciplinary Science, 1(1), pp. 237-250, 2022.
[15] L. Chen, J. Wang, X. Li and S. Zhang, "Utilizing the Pavement Condition Index (PCI) for optimizing maintenance strategies.," Journal of Infrastructure Systems, 31(2), 04021049, p. 31, 2022.
[16] R. Johnson, J. Smith and C. Williams, "Utilizing the Pavement Condition Index (PCI) for prioritizing road maintenance activities and resource allocation.," Journal of Infrastructure Systems,27(2), p. 27, 2021.
[17] N. Ahmed, M. Rahman and M. Hasan, "Evaluation of road conditions in an urban area using Pavement Condition Index (PCI).," Journal of Urban Planning and Development,145(1), p. 145, 2019.
[18] R. Patil, S. Patel and V. Choubey, "Pavement Condition Index (PCI) as a tool for monitoring and managing road infrastructure.," Journal of Traffic and Transportation Engineering,7(4), pp. 400-407, 2020.
[19] S. Zhang, X. Shi, Y. Li and X. Liu, "Advanced calculation methods and interpretation criteria for Pavement Condition Index (PCI) evaluation.," Journal of Infrastructure Systems,29(1), p. 29, 2022.
[20] G. Wang, Y. Han, D. Gong and Q. Li, "Calculation methods and interpretation criteria for Pavement Condition Index (PCI) evaluation.," Journal of Traffic and Transportation Engineering, 5(3),, pp. 216-223, 2018.
[21] J. Smith, A. Johnson, C. Williams and K. Brown, "Localized evaluation approaches for assessing regional road network conditions.," Journal of Transportation Engineering,Part B:Pavement, 146(2),04019023, p. 146, 2020.
[22] M. Ziyadi, H. Ozer, S. Kang and I. Al-Qadi, "Vehicle energy consumption and an environmental impact calculation model for the transportation infrastructure systems.," Journal of cleaner production, 174, pp. 424-436, 2018.
[23] A. Fernandez, C. Rodriguez, R. Martinez and M. Garcia, "Benefits of using the Pavement Condition Index (PCI) to guide maintenance strategies: A case study.," Journal of Transportation Engineering, Part B: Pavement, 147(1), 04020029, p. 147, 2021.
[24] M. Wardhana, E. Suharto, I. Setiawan and A. Mulyanto, "Pavement condition index as a tool for road maintenance prioritization in Indonesia.," International Journal of GEOMATE,16 (54), pp. 35-45, 2019.
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