"The result of this analytic process is a summary, usually a graphical sketch, which sets in relation the relevant environmental information with the morphology of the site in terms of parcel, topography, and built environment."
The process of analyzing a site's physical, social, economic, and environmental characteristics to inform urban design and planning decisions.
Land Use: This refers to the designation or division of physical space for different purposes such as commercial, residential, recreational, and industrial.
Zoning: Zoning is a process by which land is designated and regulated to ensure that certain land uses are compatible and are located appropriately.
Topography: The study of the shape and characteristics of landforms such as hills, valleys, ridges, and mountains.
Geology: The study of the structure, composition, and natural processes of the earth's surface.
Ecology: The study of relationships between organisms and their environment.
Climate: The long-term pattern of temperature, wind, precipitation, etc.
Hydrology: The study of water in the environment, such as the distribution and quality of water sources, and the impacts of human activity on water resources.
Infrastructure: The basic physical and organizational structures needed for the operation of a society or enterprise, such as roads, bridges, and water supply systems.
Transportation: Ways in which people and goods are transported, including pedestrian and bicycle traffic, buses, and cars.
Easements and Rights-of-Way: The legal rights of individuals or entities to use someone else's land for a specific purpose.
Demographics: The study of human populations, including their size, growth, density, and distribution, as well as their characteristics such as age, gender, income, education, ethnicity, and occupation.
Historic and Cultural Resources: The preservation and interpretation of cultural heritage resources that reflect the values, beliefs, and behaviors of a group or society.
Natural Resources: The living and non-living elements in the environment, such as flora and fauna, minerals, and energy sources.
Urban Fabric: The physical environment created by the built environment, including buildings, streetscapes, and public spaces.
Site Inventory and Analysis: A structured method to identify and record information about a specific site in order to understand its characteristics, challenges, opportunities and constraints.
Site Assessment and Evaluation: A process of using a set of criteria to assess and evaluate the relative suitability and value of alternative development scenarios.
Site Planning: The process of arranging buildings, open spaces, and infrastructure on a site to create an efficient, safe, and visually pleasing environment.
Impact Assessment: A process to determine the potential impact of new development on the surrounding environment.
Sustainable Design Strategies: Design strategies that aim to reduce the negative impact of development on the environment, and create healthy, energy-efficient, and livable communities.
Community Engagement: The process of involving the community in design and planning decisions to ensure that development reflects local needs, values, and aspirations.
Site context analysis: This involves studying the location, orientation, surrounding environment, and existing structures on a site. It identifies opportunities and constraints influencing the site's development.
Historical and cultural analysis: This looks at significant historical and cultural events or artefacts located on the site, highlighting their relevance to the area's identity.
Environmental analysis: This evaluates the environmental quality and impact on the site, including soil, water, air, flora, fauna, and other ecological factors.
Accessibility analysis: This examines how easy it is to access the site using different transport modes, including road, rail, and footpaths. It considers the location's proximity to essential amenities, such as healthcare, shopping, and education.
Social analysis: This identifies the socio-economic and demographic characteristics of the site's surrounding community, such as age, gender, race, and income levels, to inform community engagement and participation.
Visual and aesthetic analysis: This evaluates the site's visual quality and aesthetic appeal, including the existing land uses, architecture, and natural features.
Economic analysis: This identifies the site's economic potential, strengths, and weaknesses, as well as the risks and opportunities for investment and profit.
Risk and hazard analysis: This identifies potential hazards and risks that may affect the site's development, such as natural disasters, land instability, and crime.
Land use analysis: This examines the various uses of land surrounding the site, including residential, commercial, industrial, and agricultural activities.
Regulatory and legal analysis: This assesses the legal and regulatory requirements of the site's development, including zoning, land use regulations, and planning permissions.
Cultural and social heritage analysis: This evaluates the cultural and social significance of the site's heritage, including the history, traditions, values, and beliefs of the community and groups.
Infrastructure and utility analysis: This examines the site's essential infrastructure, including electricity, water, transport, and telecommunications.
Site capacity analysis: This estimates the site's ability to accommodate various land uses and activities, including population capacity, traffic capacity, and environmental capacity.
Functional analysis: This studies how the site functions within the larger urban system and identifies linkages, dependencies, and conflicts.
SWOT analysis: This involves a summary of the site's strengths, weaknesses, opportunities, and threats, providing data to inform decision-making.
"Site analysis is dedicated to the study of the climatic, geographical, historical, legal, and infrastructural context of a specific site."
"This result is then used as a starting point for the development of environment-related strategies during the design process."
"Examples of traditional climate-related site analysis tools are the Sundial, the Sun Path Diagram, the Radiation Square, the Wind Rose, and the Wind Square."
"These conventional methods of site analysis are efficient in simple sites with irrelevant close obstructions, where the analysis can be reduced to the parcel at the ground level or even exclusively to its center point."
"More elaborated techniques, like Volumetric Site Analysis, can instead be used to study more intricate and obstructed sites like those of high and dense urban settings."
"The result of this analytic process is a summary, usually a graphical sketch..."
"...which sets in relation the relevant environmental information with the morphology of the site in terms of parcel, topography, and built environment."
"This result is then used as a starting point for the development of environment-related strategies during the design process."
"Examples of traditional climate-related site analysis tools are the Sundial, the Sun Path Diagram, the Radiation Square, the Wind Rose, and the Wind Square."
"These conventional methods of site analysis are efficient in simple sites with irrelevant close obstructions..."
"More elaborated techniques, like Volumetric Site Analysis, can instead be used to study more intricate and obstructed sites..."
"...dedicated to the study of the climatic, geographical, historical, legal, and infrastructural context of a specific site."
"This result is then used as a starting point for the development of environment-related strategies during the design process."
"Examples of traditional climate-related site analysis tools are the Sundial, the Sun Path Diagram, the Radiation Square, the Wind Rose, and the Wind Square."
"These conventional methods of site analysis are efficient in simple sites..."
"More elaborated techniques, like Volumetric Site Analysis..."
"The result of this analytic process is a summary..."
"...which sets in relation the relevant environmental information with the morphology of the site..."
"This result is then used as a starting point for the development of environment-related strategies during the design process."