Part 1. Introduction

Part 2. Methods for big spatial data analysis 1. Spatial statistics and data assimilation 2. Spatial and temporal statistical models 3. Spatial econometrics and social interaction models 4. Spatial clustering models 5. Complex network models 6. Spatial mobility data models 7. Land use and transport models 8. Land use scenario visualization tools

Part 3. Urban applications of big spatial data analysis 9. Surface temperature mapping for heat wave risk management 10. Spatial heat-wave assessments using Geo-tagged Twitter data 11. Assimilation of cell phone mobility data for agent based simulation 12. Spatial-social network analysis of the patent data 13. CO2 emission mapping using human sensor data 14. Optimal community clustering for sharing economy 15. View value analysis using 3D urban structure data 16. Big Spatial Data Analysis: case studies in New York 17. Big Spatial Data Analysis: case studies in London

Yoshiki Yamagata is the Head of Global Carbon Project International Office at the Center for Global Environmental Research, National Institute for Environmental Studies.He received his Ph.D. degree in System Science from the University of Tokyo, Japan.His research interests include Urban Resilience, Urban Analytics, and Urban Systems. Hajime Seya received his Ph.D. degree in engineering from University of Tsukuba. His research interests include urban transportation planning, regional science, geographical information science, integrated land-use-transport modeling, and spatial statistics/econometrics. Seya has published 33 papers.