Spatial Analysis & Modelling

Our projects

• Climate Adaptation

  Land-use change is one of the important factors in the climate change cycle and the relationship between the two is interdependent; changes in land use may affect the climate whilst climatic change will also influence future land-use. The figure below describes the intricate relation between land use and climate.

  source: US CCSP, 2004

  At SPINlab research focuses mainly on the implications of climate change for land-use patterns. To analyse this we make use of land-use models that simulate potential spatial resulting from socio-economic changes, climate impacts and human-induced adaptation and mitigation measures. More specifically we focus on issues such as:

  • adaptation in rural areas
  • linking hydrologic and land-use models
  • developing new tools for drafting adaptation strategies
  • flood risk assessments
  • water shortage

• Spatial planning

  Spatial planning relates to policy interventions that aim to steer spatial developments in such a way that societal and environmental conditions are improving, whilst also meeting other objectives related to, for example, economic development, water management and biodiversity conservation. Reconciling these often conflicting objectives is an extremely demanding task that calls for: clear undisputed information on current developments; insight in possible future trends; the preparation of alternative policy measures and an understanding of their impact. Spatial analysis can provide the required information on past, current and projected spatial developments as well as indicate the impact of existing and proposed policy measures as is demonstrated in this thesis. See the figure on this page as an example of an analysis result (Source: Koomen and Dekkers, 2013).

  SPINlab combines various forms of spatial analysis with newly available and highly detailed spatial data sets in research that supports the formulation of spatial polices in domains such as:

  • open space preservation
  • rural vitality
  • urban intensification
  • sustainable urban development
  • attracting knowledge workers

• Land Use Modelling

  The analysis and simulation of land-use change has long been the topic of intensive research at Vrije Universiteit Amsterdam.

  Current efforts focus on:

  • Analysis of trends and driving forces in past land use changes. Past projects include the explanation of land-use patterns and land prices through statistical (regression) analysis to underpin the development of land-use models within Europe or in other regions in the world. Currently we are involved in the analysis of property prices and land values c.q. empirical bid rents, see www.landvalues.nl for more information. With these analyses we aim to shed more light on the valuation of amenities and the explanation of (spatial) factors that determine the market price of residential land use.
  • Simulation of future land use. We participate in various projects to further develop the Land Use Scanner model and continue to apply it in several scenario-based studies, for example related to climate change or agriculture. Validation of the model is the latest research priority.
  • Impact assessment of anticipated land use changes. The ultimate goal of most simulation studies of future land use is to inform policymakers on the possible future state of several policy related issues. We assist this evaluation of policy themes with the development and application of indicators of land use change, related to for example the fragmentation of open space, the concentration of urbanisation and flood risk assessment.

• The Land Use Scanner model – Applications, model development, downloads & exercises

  Vrije Universiteit Amsterdam has a long-standing experience in integrated land use modelling.

   Research is done in both a national and an international context. Applications include studies into the future of agriculture, to climate adaptation. Most of this research was carried out for and with an operational land use model that integrates urban and non-urban types of land use, the Land Use Scanner.

  This integrated GIS-based land use model was developed in close co-operation with the Netherlands Environmental Assessment Agency (PBL), Geodan and the Agricultural Economics Research Institute (LEI). The Land Use Scanner is part of the LUMOS system and work on the model is done within the LUMOS consortium.

  This website provides more information on the outline and characteristics of the model. A fully functional demonstration version of the model can be downloaded here, a wide range of exercises related to this and other land-use models is also available, while a recent set of simulation results can be downloaded here.

  Model Outline

  The Land Use Scanner is a GIS-based model that produces simulations of future land use, based on the integration of sector-specific inputs from dedicated models. The model is based on demand-supply interaction for land, with sectors competing for allocation within suitability and policy constraints. It uses a comparatively static approach that simulates a future state, in a limited number of time steps. Recent applications simulate land-use patterns in three subsequent time steps, whereas initial applications used only one or two.

  Unlike many other land-use models the objective of the Land Use Scanner is not to forecast the 

  dimension of land-use change but rather to integrate and allocate future land-use demand from different sector-specific models or experts. The next figure presents the basic structure of the Land Use Scanner model.

  External regional projections of land-use change, which are usually referred to as demand or claims, are used as input for the model. These are land-use type specific and can be derived from, for example, sector-specific models of specialised institutes. The predicted land-use changes are considered as an additional demand for the different land-use types as compared with the present area in use for each land-use type.

  The total of the additional demand and the present area for each land-use function is allocated to individual grid-cells based on the suitability of the cell. The definition of local suitability may incorporate a large number of spatial datasets referring to the following aspects that are discussed below: current land use, physical properties, operative policies and market forces generally expressed in distance relations to nearby land-use functions.

  Model Characteristics

  Some general, characteristic features of Land Use Scanner are:

  Grid based	The model describes for all grids in a system the relative proportions of land to be used for a number of land use types. Model specification and software allow large numbers of grids. The present model version covering the Netherlands uses 100 by 100 meter grid cells.
  Integrated	The model provides an integration framework for sector-specific data bases and policy proposals by confronting these inputs in a spatial-analytical context.
  Exhaustive	The model is exhaustive in the sense that all grids in a spatial unit (in most cases a country) are considered. All types of land use are explicitly considered; thus there are no remaining categories left untreated. The model can be formulated in such a way that transfers of wet grids (sea, lakes) into land are allowed.
  Dynamic	The model deals with changes in land use taking into account present land use patterns. The suitabilities of the grids for certain types of land use are not assumed constant, but may change as the result of changes in land use in the course of time. Recent applications distinguish up to three time steps in simulation.
  Satellite structure	The model is driven by forecasts at a national or regional level in terms of variables such as population, agricultural production, infrastructure, etc.
  Policy oriented	Several types of sector-specific policies have strong spatial implications. Land Use Scanner makes these implications explicit. The model helps solving questions referring to the types of grids in which major policy conflicts can be expected to emerge. It can also be used to investigate the implications of sector-specific and macro policies for human settlement and land use patterns.

  The property of integration means that the Land Use Scanner can function as a tool to improve communication between analysts working in various fields of land use (for example urban functions versus agriculture versus natural land use). The model also helps to improve consistency between projections made in these fields. Thus a potential use of the Land Use Scanner is that is does not only function as a modelling tool, but also as a communication tool between analysts in various policy fields.

• Location value

  Analysing property values, (dis-)amenities, externalities and the value of location for companies

  What determines the value of a property? Real estate agents know the answer: Location-location-LOCATION!

  We can use information on the characteristics of sold properties in revealed preference analyses to value amenities and disamenities, externalities and, for instance, public goods.

  A huge empirical literature using hedonic pricing techniques uses this insight for the purpose of valuation of individual aspects of the location, such as accessibility of jobs and facilities, the presence of open space, noise disturbances, the value of having a private parking place instead of a public parking permit.

  Some exemplary valuation studies that we have carried out focus on:

  • Attractivity of urban and cultural amenities to knowledge workers
  • Presence of open space
  • Transport noise nuisance
  • (E)valuation of parking space
  • Determining land rents from house transactions and using land rents in explanatory valuation studies

  Further, one of the P’s in the marketing mix is the P from Place. This P has been understudied for a long time, but since a few years researchers and companies increasingly are interested in the value of place. Place concerns the location of a company (supply), the location of customers (demand, B2B & B2C), and the interaction between supply and demand in space. The SPINlab co-operates with the Department of Marketing to further explore the spatial aspects of marketing-related topics. The Geomarketing-course and the supervision of master thesis research in this field are some of the most prominent mutual activities.