Download: Strata3D_GDB.zip3D Strata data product is a static dataset of registered
cadastral strata scheme title plans digitised from plan images. This product
does not form part of the dynamic DCDB cadastral web services. It provides
access to state-wide visualisation of digitised strata plans and is a
complimentary dataset to the official cadastral features within New South
Wales. The Strata Plans 3D data is an indicative representation of registered
strata plans in NSW. The 3D Strata contains registered land titles only.
Use LimitationsThe creation of the 3D Strata data employs industry levels
of rigour, skill and care in ensuring the relevance, timeliness, accuracy,
coherence, interpretability and accessibility of this data. But does not
guarantee the data is without errors, additions or omissions and provides no
guarantees as to the usefulness, accuracy or timeliness of the data provided.
Data products produced are for research purposes only and should be considered
indicative and for representational purposes only. This data may be used in
conjunction with cadastral authoritative datasets for visualisation purposes.
DCS Spatial Services may at its sole discretion change the type(s) of spatial
datasets (or layers) that it makes available.
LineageDigital strata plans are derived products produced by
georeferencing and deriving features and textual information from the face of
the strata title plan image. The textual and diagram information is translated
into a computer readable digitised format for storage, viewing and querying in
geospatial technologies.
Positional boundary parent parcel features within each
digitised strata plan are derived from the NSW Cadastre Lot features. NSW Cadastre web service is a dynamic map of
cadastral features extracted from the NSW Digital Cadastral Database (DCDB).
Source: Service
Delivery DCS, Spatial Services
Web service access: http://maps.six.nsw.gov.au/arcgis/rest/services/public/NSW_Cadastre/MapServer
Associated ResourcesResource: 3D Buildings
The 3D Buildings are outlines of building that have been
created and classified through remote sensing information and provide
footprint, elevation, height and roof form features of buildings. This data is
3D enabled using LiDAR datasets in order to create the 3D Building features
with a Level of Detail 2.0.
Source: Service Delivery
DCS, Spatial Services
Resource: Digital Elevation
Model
Bare Earth Digital Elevation Model with 1m resolution.
Generated from Classification Level 3 LiDAR data. Accuracy LiDAR point cloud
used to generate DEM was ±0.3m @ 95% CI. The coverage of this dataset is over
the Sydney region. The C3 LAS data set contains point data in LAS 1.2 format
sourced from a LiDAR (Light Detection and Ranging) from an ALS50ii (Airborne
Laser Scanner) sensor. The processed data has been manually edited to achieve
ICSM classification level 3 whereby the ground class contains minimal
non-ground points such as vegetation, water, bridges, temporary features,
jetties etc. This data has an accuracy of 0.3m (95% Confidence Interval)
vertical and 0.8m (95% Confidence Interval) horizontal with a minimum point
density of 1.03 laser pulse per square metre. For more information on the data
accuracy, refer to the lineage provided in the data history.
Lineage Process Step3D Strata was created with the utilisation of multiple
internal spatial datasets. 3D spatial lot and common property lot heights and
volumes are suggestive only.
The following methodology was utilised for the
dimensioning of the digitalised strata plans for 3D visualisation purposes.
Surveyor strata plan images do not contain comprehensive
height, elevation or survey accurate positioning of the building features
within a parcel of land. Strata plan floor levels are distributed within the
building footprint and maximum eave height or flat roof form height of the
building forms, allowing for spatial units to extruded vertically up to the
roof height of the building shell. StratumLevel_maximum = max (StratumLevel).
CeilingHeight = (Height_MAX)⁄((StratumLevel_maximum+1) )
The following methodology was used to create a floor
elevation height for each lot and part lot of the strata scheme units.
Elevation may represent 3D Building elevation or 1 and 5 metre DEM elevation.
FloorEaveHeight = Elevation+(CeilingHeight × StratumLevel). For all strata
plans that do not have corresponding 3D building height data a process of
spatial unit floor to ceiling heights was determined through an estimation
based on residential height regulations. In the case of the production of the
heights for the estimated and generic height spatial units, all lots and common
property units were classed as “Habitable”. "Habitable” gives reference to
the minimum and maximum heights for floor to ceiling measurements outlined
in Building Code of Australia (BCA). With a minimum height of 2.4 and maximum
height of 3 metre ceilings, a determined height of 2.8 metres was used to
represent the height of individual spatial units with reference to strata floor
level data.
The following methodology was used to create a ceiling
extrusion height for each lot and part lot of the strata scheme units. CeilingHeight
= 2.8 (metres). The following methodology was used to create a floor elevation
height for each lot and part lot of the strata scheme units. Elevation
represents 1 or 5 metre DEM elevation values. FloorEaveHeight =
Elevation+(CeilingHeight × StratumLevel)
Metadata
Type
Hosted Feature Layer
Update Frequency
As Required
Contact Details
Contact us via the Spatial
Services Customer Hub
Relationship to Themes and
Datasets
NSW Land Parcel and Property Theme of the
Foundation Spatial Data Framework
Accuracy
The dataset maintains a positional relationship
to, and alignment with, the Lot and Property digital datasets. The Lot and
Property data was captured by digitising the best available cadastral mapping
at a variety of scales and accuracies, ranging from 1:500 to 1:250 000
according to the National Mapping Council of Australia, Standards of Map
Accuracy (1975). Therefore, the position of the feature instance will be
within 0.5mm at map scale for 90% of the well-defined points. That is, 1:500
= 0.25m, 1:2000 = 1m, 1:4000 = 2m, 1:25000 = 12.5m, 1:50000 = 25m and
1:100000 = 50m. A program of positional upgrade (accuracy improvement) is
currently underway.
Standards and
Specifications
Open Geospatial Consortium (OGC) implemented and
compatible for consumption by common GIS platforms. Available as either cache
or non-cache, depending on client use or requirement.
Aggregators
Spatial Services | Department of Customer
Services
Distributors
Spatial Services | Department of Customer
Services
Dataset Producers and
Contributors
Spatial Services | Department of Customer
Services
Co-ordinate System
GDA94/MGA zone 56
EPSG: 28356
Datum
GDA 1994
Spatial Extent
West 150.014678
East 151.135712
North -32.996069
South -34.337416
