Robinson, Darren, ed. (Nov 12, 2012). "6". Computer Modelling for Sustainable Urban Design: Physical Principles, Methods and Applications. Routledge. p. 157. ISBN9781136539350. Retrieved 6 October 2017.
doi.org
Shiftan Y. (2000). "The advantage of activity-based modelling for air-quality purposes: theory vs practice and future needs". Innovation. 13 (1): 95–110. doi:10.1080/135116100111685. S2CID143098156.
Beckx C, Arentze T, Int Panis L, Janssens D, Vankerkom J, Wets G (2009). "An integrated activity-based modelling framework to assess vehicle emissions: approach and application". Environment and Planning B: Planning and Design. 36 (6): 1086–1102. doi:10.1068/b35044. S2CID62582857.
Beckx C, Int Panis L, Van De Vel K, Arentze T, Janssens D, Wets G (2009). "The contribution of activity-based transport models to air quality modelling: a validation of the ALBATROSS - AURORA model chain". Science of the Total Environment. 407 (12): 3814–3822. Bibcode:2009ScTEn.407.3814B. doi:10.1016/j.scitotenv.2009.03.015. PMID19344931.
Hatzopoulou M, Miller E (2010). "Linking an activity-based travel demand model with traffic emission and dispersion models: Transport's contribution to air pollution in Toronto". Transportation Research Part D. 15 (6): 315–325. doi:10.1016/j.trd.2010.03.007.
Dhondt; et al. (2012). "Health impact assessment of air pollution using a dynamic exposure profile: Implications for exposure and health impact estimates". Environmental Impact Assessment Review. 36: 42–51. doi:10.1016/j.eiar.2012.03.004.
Beckx C (2009). "Disaggregation of nation-wide dynamic population exposure estimates in The Netherlands: applications of activity-based transport models". Atmospheric Environment. 43 (34): 5454–5462. Bibcode:2009AtmEn..43.5454B. doi:10.1016/j.atmosenv.2009.07.035.
Beckx C, Int Panis L, Van De Vel K, Arentze T, Janssens D, Wets G (2009). "The contribution of activity-based transport models to air quality modelling: a validation of the ALBATROSS - AURORA model chain". Science of the Total Environment. 407 (12): 3814–3822. Bibcode:2009ScTEn.407.3814B. doi:10.1016/j.scitotenv.2009.03.015. PMID19344931.
Beckx C (2009). "Disaggregation of nation-wide dynamic population exposure estimates in The Netherlands: applications of activity-based transport models". Atmospheric Environment. 43 (34): 5454–5462. Bibcode:2009AtmEn..43.5454B. doi:10.1016/j.atmosenv.2009.07.035.
Beckx C, Int Panis L, Van De Vel K, Arentze T, Janssens D, Wets G (2009). "The contribution of activity-based transport models to air quality modelling: a validation of the ALBATROSS - AURORA model chain". Science of the Total Environment. 407 (12): 3814–3822. Bibcode:2009ScTEn.407.3814B. doi:10.1016/j.scitotenv.2009.03.015. PMID19344931.
semanticscholar.org
api.semanticscholar.org
Shiftan Y. (2000). "The advantage of activity-based modelling for air-quality purposes: theory vs practice and future needs". Innovation. 13 (1): 95–110. doi:10.1080/135116100111685. S2CID143098156.
Beckx C, Arentze T, Int Panis L, Janssens D, Vankerkom J, Wets G (2009). "An integrated activity-based modelling framework to assess vehicle emissions: approach and application". Environment and Planning B: Planning and Design. 36 (6): 1086–1102. doi:10.1068/b35044. S2CID62582857.
