广州大都市登革热时空传播混合模式

[1] 疾病传播输入输出流的时空特征分析——以北京SARS流行为例 [J]. 中国科学:地球科学, 2013, 43 (09) : 1499 - 1517

[2] 网络度相关及其传播特征研究 [J]. 计算机研究与发展, 2013, 50 (04) : 741 - 749

[3] 基于遥感与地理信息技术的登革热环境风险因子标识 [J]. 中华疾病控制杂志, 2010, 14 (09) : 869 - 873

[4] Incorporating the human- Aedes mosquito interactions into measuring the spatial risk of urban dengue fever[J] . Tzai-Hung Wen,Min-Hau Lin,Hwa-Jen Teng,Niann-Tai Chang.Applied Geography . 2015

[5] Impact of meteorological factors on the spatiotemporal patterns of dengue fever incidence[J] . Lung-Chang Chien,Hwa-Lung Yu.Environment International . 2014

[6] Urbanization Increases Aedes albopictus Larval Habitats and Accelerates Mosquito Development and Survivorship [J]. PLOS NEGLECTED TROPICAL DISEASES, 2014, 8 (11):

[7] Spatio-temporal dynamics of dengue 2009 outbreak in Córdoba City, Argentina[J] . E.L. Estallo,A.E. Carbajo,M.G. Grech,M. Frías-Céspedes,L. López,M.A. Lanfri,F.F. Ludue?a-Almeida,W.R. Almirón.Acta Tropica . 2014

[8] Dengue outlook for the World Cup in Brazil: an early warning model framework driven by real-time seasonal climate forecasts[J] . Rachel Lowe,Christovam Barcellos,Caio A S Coelho,Trevor C Bailey,Giovanini Evelim Coelho,Richard Graham,Tim Jupp,Walter Massa Ramalho,Marilia Sá Carvalho,David B Stephenson,Xavier Rodó.The Lancet Infectious Diseases . 2014

[9] Impact of road networks on the distribution of dengue fever cases in Trinidad, West Indies[J] . R.S. Mahabir,D.W. Severson,D.D. Chadee.Acta Tropica . 2012 (3)

[10] Population Movement and Vector-Borne Disease Transmission: Differentiating Spatial–Temporal Diffusion Patterns of Commuting and Noncommuting Dengue Cases[J] . Tzai-Hung Wen,Min-Hau Lin,Chi-Tai Fang.Annals of the Association of American Geographers . 2012 (5)

[1] 疾病传播输入输出流的时空特征分析——以北京SARS流行为例 [J]. 中国科学:地球科学, 2013, 43 (09) : 1499 - 1517

[2] 网络度相关及其传播特征研究 [J]. 计算机研究与发展, 2013, 50 (04) : 741 - 749

[3] 基于遥感与地理信息技术的登革热环境风险因子标识 [J]. 中华疾病控制杂志, 2010, 14 (09) : 869 - 873

[4] Incorporating the human- Aedes mosquito interactions into measuring the spatial risk of urban dengue fever[J] . Tzai-Hung Wen,Min-Hau Lin,Hwa-Jen Teng,Niann-Tai Chang.Applied Geography . 2015

[5] Impact of meteorological factors on the spatiotemporal patterns of dengue fever incidence[J] . Lung-Chang Chien,Hwa-Lung Yu.Environment International . 2014

[6] Urbanization Increases Aedes albopictus Larval Habitats and Accelerates Mosquito Development and Survivorship [J]. PLOS NEGLECTED TROPICAL DISEASES, 2014, 8 (11):

[7] Spatio-temporal dynamics of dengue 2009 outbreak in Córdoba City, Argentina[J] . E.L. Estallo,A.E. Carbajo,M.G. Grech,M. Frías-Céspedes,L. López,M.A. Lanfri,F.F. Ludue?a-Almeida,W.R. Almirón.Acta Tropica . 2014

[8] Dengue outlook for the World Cup in Brazil: an early warning model framework driven by real-time seasonal climate forecasts[J] . Rachel Lowe,Christovam Barcellos,Caio A S Coelho,Trevor C Bailey,Giovanini Evelim Coelho,Richard Graham,Tim Jupp,Walter Massa Ramalho,Marilia Sá Carvalho,David B Stephenson,Xavier Rodó.The Lancet Infectious Diseases . 2014

[9] Impact of road networks on the distribution of dengue fever cases in Trinidad, West Indies[J] . R.S. Mahabir,D.W. Severson,D.D. Chadee.Acta Tropica . 2012 (3)

[10] Population Movement and Vector-Borne Disease Transmission: Differentiating Spatial–Temporal Diffusion Patterns of Commuting and Noncommuting Dengue Cases[J] . Tzai-Hung Wen,Min-Hau Lin,Chi-Tai Fang.Annals of the Association of American Geographers . 2012 (5)