1. Ministry of Environment, Low Impact Development Technique Element Guideline, Korea, 2013.
  2. Environmental Protection Agency (EPA), Low Impact Development – A Literature Review, Washington, D.C., 2000.
  3. Prince George’s County, Low-Impact Development: An Integrated Design Approach, Largo, Maryland, 2000.
  4. Prince George’s County, Low-Impact Development Hydrologic Analysis: Companion Document to the Low-Impact Development Design Strategies, Largo, Maryland, 2000.
  5. Environmental Protection Agency (EPA), Reducing Stormwater Costs through Low Impact Development (LID) Strategies and Practices, Washington, D.C., 2007.
  6. B.K. Ferguson, Porous Pavements, CRC Press, Boca Raton, 2005.
  7. R.S. Rollings, M.P. Rollings, Applications for Concrete Paving Block in the United States Market, Uni-Group USA, Palm Beach Gardens, Florida, 1992.
  8. R.S. Rollings, M.P. Rollings, A Permeable Paving Stone System, SF Concrete Technology, Mississauga, ON, 1999.
  9. D.R. Smith, Permeable Interlocking Concrete Pavements: Selection, Design, Construction, Maintenance, 2nd ed., Interlocking Concrete Pavement Institute, Washington, D.C., 2001.
  10. Seoul Metropolitan City, The Ordinance on the Revision of All Ordinance on Rainwater Management, Seoul Policy 3212, Korea, 2014.
  11. E.Z. Bean, W.F. Hunt, D.A. Bidelspach, Field survey of permeable pavement surface infiltration rates, J. Irrig. Drain. Eng., 133 (2007) 249–255.
  12. D.R. Smith, K. Earley, J.M. Lia, Potential Application of ASTM C 1701 for Evaluating Surface Infiltration of Permeable Interlocking Concrete Pavements, Proc. 10th International Conference on Concrete Block Paving, Shanghai, Peoples Republic of China, 2012.
  13. W.B.N. Peter, L. Terry, D. Carsten, Comparing two methods of determining infiltration rates of permeable interlocking concrete pavers, Water, 6 (2014) 2353–2366.
  14. R.J. Winston, A.M. Al-Rubaei, G.T. Blecken, V. Maria, W.F. Hunt, Maintenance measures for preservation and recovery of permeable pavement surface infiltration rate – the effects of street sweeping, vacuum cleaning, high pressure washing, and milling, J. Environ. Manage., 169 (2016) 132–144.
  15. Seoul Metropolitan City, Permeable Block Pavement Design, Installation and Maintenance Standard, 2nd ed., Korea, 2013.
  16. D.R. Smith, Permeable Interlocking Concrete Pavement – Design Specifications Construction Maintenance, Interlocking Concrete Pavement Institute, Herndon, Virginia, 2011.
  17. Interpave, Guide to the Design, Construction and Maintenance of Concrete Block Permeable Pavements, 6th ed., The Precast Concrete Paving and Kerb Association, 2010.
  18. Ministry of Land, Infrastructure and Transport, Parking Lot Act in Korea, Article 3 of the Enforcement Rule of the Parking Lot Act, Korea, 2012.
  19. ASTM C1701/C1701M-09, Standard Test Method for Infiltration Rate of in place Pervious Concrete, 2009.
  20. ASTM D 3385-03, Standard Test Method for Infiltration Rate of Soils in Field using Double-Ring Infiltrometer, 2003.
  21. M. Borst, A.A. Rowe, E.K. Stander, T.P. O’Connor, Surface Infiltration Rates of Permeable Surfaces: Six Month Update (November 2009 through April 2010), Environmental Protection Agency (EPA), Edison, New Jersey, 2010.
  22. E. Lee, G. Kim, J. Ahn, H.-S. Shin, Surface infiltration rate of permeable block pavements depending on the size of filling materials, J. Korean Soc. Hazard Mitig., 17 (2017) 227–233.