1 |
Batty, M. and Y. Xie. 1994. From cells to cities. Environment and Planning B: Planning and design 21(7):S31-S48.
DOI
|
2 |
Batty, M. and Y. Xie. 1997. Possible urban automata. Environment and Planning B: Planning and design 24(2):175-192.
DOI
|
3 |
Chapin, F.S. and S.F. Weiss. 1966. Urban growth dynamics in a regional cluster of cities, John Wiley and Sonds, Inc.
|
4 |
Hagerstrand, T. 1965. A Monte Carlo approach to diffusion. European Journal of Sociology 6(01):43-67.
DOI
|
5 |
Jung, J.J. 2001. Cellular automata modeling for analysis and prediction of urban growth in capital Area. Ph.D. Thesis, Seoul Nat'l Univ., Seoul, Korea. (정재준. 2001. 수도권의 도시성장 분석 및 예측을 위한 셀룰라 오토마타 모델링. 서울대학교 대학원 박사학위논문).
|
6 |
Koh, J.K. and H.S. Kim. 2013. A preliminary study integration climate change mitigation and adaptation. Journal of Korea Environmental Policy and Administration Society 21(1):29-59 (고재경, 김희선. 2013. 기후변화 완화와 적응 통합에 관한 시론적 연구. 환경정책 21(1):29-59).
|
7 |
Korea Environment Institute(KEI). 2014. Development of socio-ecomomic pathway scenario for climate change adaptation (환경정책평가연구원. 2014. 저탄소 기후변화 적응 사회를 위한 사회 경제 변화 시나리오 개발).
|
8 |
Kriegler, E., B.C. O'Neill, S. Hallegatte, T. Kram, R. Lempert, R.H. Moss and T.J. Wilbank. 2010. Socio-economic scenario development for climate change analysis. CIRED Working paper DT/WP.
|
9 |
KRIHS National Urban Disaster Management Research Center. 2013. The mannual for vulnerability analysis of urban climate change disaster (Ver.3.0):1-24 (국토연구원 국가도시방재 연구센터. 2013. 도시 기후변화 재해취약성 분석 매뉴얼(Ver.3.0):1-24).
|
10 |
Lee, S.H., J.M. Yun, K.C. Seo, K.W Nam and S.C. Park. 2004. A study on the urban growth model of Gimhae city using cellular automata. Journal of the Korean Association of Geographic Information Studies 7(3):118-125 (이성호, 윤정미, 서경천, 남광우, 박상철. 2004. 셀룰라 오토마타를 이용한 김해시의 도시성장모형에 관한 연구. 한국지리정보학회지 7(3):118-125).
|
11 |
Lee, S.H. and K.S. Oh. 2010. Analyzing the effect of greenbelt on urban growth and environmental pollution by cellular automata method, Journal of Korea Planners Association 45(3):193-208 (이상헌, 오규식. 2010. 셀룰라 오토마타를 이용한 개발제한구역의 효과분석-도시의 확산 및 인구증가, 환경오염을 중심으로. 국토계획 45(3):193-208).
|
12 |
O'Neill, B.C., E. Kriegler, K. Riahi, K.L. Ebi, S. Hallegatte, T.R. Carter, R. Mathur and D.P. van Vuuren. 2014. A new scenario framework for climate change research: the concept of shared socioeconomic pathways. Climatic Change 122(3):387-400.
DOI
|
13 |
Takeyama, M. 1996. Geo-algebra: a mathematical approach to integrating spatial modeling and GIS. Ph.D. Thesis, Univ. of California Santa Barbara, USA.
|
14 |
Tobler, W.R. 1979. Cellular geography. Philosophy in Geography. 20:379-386.
|
15 |
White, R. and G. Engelen. 1993. Cellular automata and fractal urban form: a cellular modeling approach to the evolution of urban land-use patterns. Environment and Planning A 25(8):1175-1199.
DOI
|
16 |
Yun, J.M. 2002. A study on the urban growth using fuzzy-AHP and cellular automata. Ph.D. Thesis, Pusan Nat'l Univ., Pusan, Korea (윤정미. 2002. 퍼지-AHP와 셀룰라 오토마타를 이용한 도시성장에 관한 연구. 부산대학교 대학원 박사학위논문).
|