164,418 research outputs found
Public Participation GIS for sustainable urban mobility planning: methods, applications and challenges
Sustainable mobility planning is a new approach to planning, and as such it requires new methods of public participation, data collection and data aggregation. In the article we present an overview of Public Participation GIS (PPGIS) methods with potential use in sustainable urban mobility planning. We present the methods using examples from two recent case studies conducted in Polish cities of Poznań and Łodź. Sustainable urban mobility planning is a cyclical process, and each stage has different data and participatory requirements. Consequently, we situate the PPGIS methods in appropriate stages of planning, based on potential benefits they may bring into the planning process. We discuss key issues related to participant recruitment and provide guidelines for planners interested in implementing methods presented in the paper. The article outlines future research directions stressing the need for systematic case study evaluation
City sustainability: the influence of walkability on built environments
A vital issue in community is providing an easy access to the transport network for different range of community members such
as; very young, old, children and disable people. The functions that walking and walkable area can be support includes
community involvement, health, meeting and gathering and recreation which has positive effects on sustainability and vice versa.
Walkability is the basis of sustainable city. The same as bicycling, walking can be known as ‘green’ type of transportation which
except crowding reduction and also has low level of environmental influence, energy conserving without any air and noise
pollution. It can be more than a purely useful type of travel to shopping, school and work. Also have both social and recreational
importance.
This research aims at supporting urban design knowledge and practice and contributing to the broader field of “walkability” by
refining the methods and measures used to analyse the relationship between walking behaviour and physical environment and its
impacts on city sustainability. In order to integrate knowledge from theories and research on walkability from different fields and
of different perspectives, it is crucial to first build a broader view and a more comprehensive understanding of how the built
environment influences walking. What has been done during the earlier part of this project, and will be shown in this research, is
to provide a better understanding of the complexity of the relationship between the built environment and walking and also the
complexity that lies in both of these entities, the urban form and walking activity
The structure of Inter-Urban traffic: A weighted network analysis
We study the structure of the network representing the interurban commuting
traffic of the Sardinia region, Italy, which amounts to 375 municipalities and
1,600,000 inhabitants. We use a weighted network representation where vertices
correspond to towns and the edges to the actual commuting flows among those. We
characterize quantitatively both the topological and weighted properties of the
resulting network. Interestingly, the statistical properties of commuting
traffic exhibit complex features and non-trivial relations with the underlying
topology. We characterize quantitatively the traffic backbone among large
cities and we give evidences for a very high heterogeneity of the commuter
flows around large cities. We also discuss the interplay between the
topological and dynamical properties of the network as well as their relation
with socio-demographic variables such as population and monthly income. This
analysis may be useful at various stages in environmental planning and provides
analytical tools for a wide spectrum of applications ranging from impact
evaluation to decision-making and planning support.Comment: 12 pages, 12 figures, 4 tables; 1 missing ref added and minor
revision
Integrated urban evolutionary modeling
Cellular automata models have proved rather popular as frameworks for simulating the physical growth of cities. Yet their brief history has been marked by a lack of application to real policy contexts, notwithstanding their obvious relevance to topical problems such as urban sprawl. Traditional urban models which emphasize transportation and demography continue to prevail despite their limitations in simulating realistic urban dynamics. To make progress, it is necessary to link CA models to these more traditional forms, focusing on the explicit simulation of the socio-economic attributes of land use activities as well as spatial interaction. There are several ways of tackling this but all are based on integration using various forms of strong and loose coupling which enable generically different models to be connected. Such integration covers many different features of urban simulation from data and software integration to internet operation, from interposing demand with the supply of urban land to enabling growth, location, and distributive mechanisms within such models to be reconciled. Here we will focus on developin
Spatial accessibility and social inclusion: The impact of Portugal's last health reform
Health policies seek to promote access to health care and should provide appropriate geographical accessibility to each demographical functional group. The dispersal demand of health‐careservices and the provision for such services atfixed locations contribute to the growth of inequality intheir access. Therefore, the optimal distribution of health facilities over the space/area can lead toaccessibility improvements and to the mitigation of the social exclusion of the groups considered mostvulnerable. Requiring for such, the use of planning practices joined with accessibility measures. However,the capacities of Geographic Information Systems in determining and evaluating spatial accessibility inhealth system planning have not yet been fully exploited. This paper focuses on health‐care services planningbased on accessibility measures grounded on the network analysis. The case study hinges on mainlandPortugal. Different scenarios were developed to measure and compare impact on the population'saccessibility. It distinguishes itself from other studies of accessibility measures by integrating network data ina spatial accessibility measure: the enhanced two‐stepfloating catchment area. The convenient location forhealth‐care facilities can increase the accessibility standards of the population and consequently reducethe economic and social costs incurred. Recently, the Portuguese government implemented a reform thataimed to improve, namely, the access and equity in meeting with the most urgent patients. It envisaged,in terms of equity, the allocation of 89 emergency network points that ensured more than 90% of thepopulation be within 30 min from any one point in the network. Consequently, several emergency serviceswere closed, namely, in rural areas. This reform highlighted the need to improve the quality of the emergencycare, accessibility to each care facility, and equity in their access. Hence, accessibility measures becomean efficient decision‐making tool, despite its absence in effective practice planning. According to anapplication of this type of measure, it was possible to verify which levels of accessibility were decreased,including the most disadvantaged people, with a larger time of dislocation of 12 min between 2001 and 2011
Spatial optimization for land use allocation: accounting for sustainability concerns
Land-use allocation has long been an important area of research in regional science. Land-use patterns are fundamental to the functions of the biosphere, creating interactions that have substantial impacts on the environment. The spatial arrangement of land uses therefore has implications for activity and travel within a region. Balancing development, economic growth, social interaction, and the protection of the natural environment is at the heart of long-term sustainability. Since land-use patterns are spatially explicit in nature, planning and management necessarily must integrate geographical information system and spatial optimization in meaningful ways if efficiency goals and objectives are to be achieved. This article reviews spatial optimization approaches that have been relied upon to support land-use planning. Characteristics of sustainable land use, particularly compactness, contiguity, and compatibility, are discussed and how spatial optimization techniques have addressed these characteristics are detailed. In particular, objectives and constraints in spatial optimization approaches are examined
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