Perkembangan teknologi GIS menyediakan konsep, alat, dan analisis yang
mendukung kebutuhan teknik sipil dan lingkungan. Tulisan ini membahas secara
singkat konsep buffer analysis/multiple ring buffer analysis pada platform GIS dalam
aplikasi teknik sipil dan lingkungan. Tulisan ini menjelaskan penelitian-penelitian
sebelumnya yang menerapkan buffer analysis/multiple ring buffer analysis. Buffer
analysis/multiple ring buffer analysis digunakan untuk mengetahui area layanan (halte bus, shelter untuk bencana), yang umum digunakan dalam teknik sipil; dan untuk memahami area dampak (perletakan TPA, kebisingan), yang umum digunakan dalam bidang teknik sipil dan lingkungan. Tulisan ini menyebutkan keterbatasan buffer analysis/multiple ring buffer analysis yang hanya berfokus pada variabel jarak.

Asif, K., Chaudhry, M. N., Ashraf, U., Ali,

I., & Ali, M. (2020). A GIS-based

multi-criteria evaluation of landfill

site selection in lahore, Pakistan.

Polish Journal of Environmental

Studies, 29(2), 1511–1521.

https://doi.org/10.15244/pjoes/95181

BilaÅŸco, Åž., Govor, C., RoÅŸca, S., Vescan,

I., Filip, S., & Fodorean, I. (2017).

GIS model for identifying urban areas

vulnerable to noise pollution: case

study. Frontiers of Earth Science,

(2), 214–228.

Esri. (2012). The Modern Platform for

Civil IT. GIS Solution for Civil

Engineering, 9688(9), 9688.

Retrieved from

http://www.esri.com/library/brochures

/pdfs/gis-sols-for-civilengineering.pdf

Karsauliya, S. (2013). Application of

Remote Sensing and GIS in Solid

Waste Management: A Case Study of

Surroundings of River Yamuna, India.

International Journal of

Environmental Engineering and

Management, 4(6), 2231–1319.

Retrieved from

http://www.ripublication.com/

Mahamid, I. (2016). Multi-criteria and

landfill site selection using GIS

 : a

case study from Palestine Multi

Criteria and Landfill Site Selection

Using Gis

 : A Case

Study From

Palestine. (January 2010).

Mitchell, A., & Minami, M. (1999). The

ESRI guide to GIS analysis:

geographic patterns & relationships

(Vol. 1). ESRI, Inc.

Proximity analysis. (n.d.). Retrieved

October 29, 2021, from

https://desktop.arcgis.com/en/arcmap/

3/analyze/commonly-usedtools/proximity-analysis.htm

Ridwan, V. F. (2014). Optimalisasi Konsep

Penempatan Transit Oriented

Development dengan Menggunakan

Sistem Informasi Geografi dan

Genetika Algoritma di Jalan Perintis

Kemerdekaan Kota Makassar.

Hasanuddin University.

Sahitya, K. S., & Prasad, C. S. R. K.

(2020). Evaluation of opportunity

based urban road network

accessibility using GIS. Spatial

Information Research, 28(4), 487–

https://doi.org/10.1007/s41324019-00309-6

Shams, S., & Rahman, S. M. S. (2010).

GIS based Risk Analysis for Arsenic

Contamination

 : A Case Study of

Chapai Nawabganj District in

Bangladesh. International Conference

on Environmental Aspects of

Bangladesh (ICEAB10), 146–148.

Wang, X., & vom Hofe, R. (2007).

Research Methods in Urban and

Regional Planning.

https://doi.org/10.1007/978-3-54049658-8

Witten, K., Pearce, J., & Day, P. (2011).

Neighbourhood Destination

Accessibility Index: A GIS Tool for

Measuring Infrastructure Support for

Neighbourhood Physical Activity.

Environment and Planning A:

Economy and Space, 43(1), 205–223.

https://doi.org/10.1068/a43219