Snake Projection
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The Snake Projection is a continuous map projection typically used as the planar coordinate system for realizing low distortion throughout long linear engineering projects.[1]
Details
The Snake Projection was originally developed by University College London and Network Rail to provide a continuous low distortion projection for the West Coast Mainline infrastructure works.[2] The parameters defining each Snake Projection are tailored for the specific project; the most typical use is with large-scale linear engineering projects such as rail infrastructure, however the projection is equally applicable to any application requiring a low distortion grid along a linear route (for example pipelines and roads).[3] The name of the projection is derived from the sinuous snake-like nature of the projects it may be designed for. Typical map projection distance distortion characteristics of a Snake Projection are minimal over the whole route within approximately 20 kilometres of the centre line.[4]
The principal advantage of the projection is that, for the corridor defining the design space, distances measured on the ground have a nearly one to one relationship with distances in coordinate space (i.e. no scale factor need be applied to convert between distances in grid and distances on the ground).[5] The length of the applicable corridor is variable on a project basis, however when required the projection can extend over several hundreds of kilometres to achieve grid distortion of less than 20 parts per million along the route.[6] The main disadvantage is that away from the design corridor the distortion of the projection is not controlled.
The Snake Projection is suited for engineering purposes due to its low distortion characteristics. An example of its differentiation from mapping grids is the 60m increase in length of the London to Birmingham section of the HS2 rail line, purely due to the more accurate grid representation compared to the length when using the national mapping coordinate system British National Grid.[7]
Usage
The Snake Projection is the engineering coordinate system used for a significant proportion of primary rail routes in the UK,[8] including that of the HS2 London to Birmingham high speed line.[9] For the London to Glasgow West Coast Main Line the distortion in the Snake Projection used is no greater than 20 parts per million within 5 kilometres of either side of the track.[10]
Implementation
The Snake Projection algorithm converts between geographical and grid coordinates, however the method of technical implementation can vary. One method of implementing a Snake Projection is to define using an NTv2 geodetic transformation coupled with a standard parameterised map projection (such as Transverse Mercator); this is increasing in popularity due to better compatibility with CAD and GIS software.[7] The global EPSG geodetic coordinate system database features several snake projection definitions through the NTv2 approach.[11] Other implementations include those published through the SnakeGrid organisation.[12]
See also
References
- ↑ Iliffe, J. C.; Arthur, J. V.; Preston, C. (2007). "The Snake Projection: A Customised Grid for Rail Projects". Survey Review 39 (304): 90–99. doi:10.1179/003962607X165041.
- ↑ Gibbons, Chris (2023). "Working with SnakeGrid". https://journals.cices.org/ces/ces-february-2023/features/working-with-snakegrid.
- ↑ Reynolds, John (2011). An Introduction to Applied and Environmental Geophysics (2 ed.). John Wiley & Sons. ISBN 978-0-471-48535-3. https://www.wiley.com/en-gb/An+Introduction+to+Applied+and+Environmental+Geophysics%2C+2nd+Edition-p-9780471485353. Retrieved 2018-02-06.
- ↑ Iliffe, J. C. (2017). "The development and analysis of quasi-linear map projections". Cartography and Geographic Information Science 45 (3): 270–283. doi:10.1080/15230406.2017.1325332. http://discovery.ucl.ac.uk/1556463/. Retrieved 2018-11-26.
- ↑ SCSI (26 November 2020). "Map Projections and Scale Factor". Society of Chartered Surveyors Ireland. https://scsi.ie/wp-content/uploads/2020/11/Map-Projections-and-Scale-Factor.pdf.
- ↑ "Use of Global Navigation Satellite Systems (GNSS) in land surveying and mapping, 3rd edition". 16 May 2023. p. 34. https://www.rics.org/content/dam/ricsglobal/documents/standards/Use%20of%20GNSS%20in%20land%20surveying%20and%20mapping_3rd%20edition.pdf#page=34.
- ↑ 7.0 7.1 "Advances in Engineering Survey Grid Transformations for Rail Infrastructure". 30 November 2020. https://learninglegacy.hs2.org.uk/document/advances-in-engineering-survey-grid-transformations-for-rail-infrastructure/.
- ↑ XYHT (2015-01-15). "Corridor Projections Solved". Flatdog Media. http://www.xyht.com/professional-surveyor-archives/corridor-projections-solved/. Retrieved 5 February 2018.
- ↑ UCL. "HS2 becomes fifth project this year to adopt SnakeGrid system". UCL. https://www.cege.ucl.ac.uk/news-events/Lists/News%20%20Announcements/Announcement/displayifs.aspx?List=55c7dbd4-3027-423f-bfcf-ed525bb40245&ID=121&ContentTypeId=0x010400A41508A6A59B4D45AC85D44B776AC063. Retrieved 5 February 2018.[yes|permanent dead link|dead link}}]
- ↑ Uren, John; Price, Bill (2010). Surveying for Engineers (5 ed.). Basingstoke: Palgrave Macmillan. https://www.macmillanihe.com/page/detail/Surveying-for-Engineers/?K=9780230221574. Retrieved 2018-02-06.
- ↑ "EPSG Geodetic Parameter Dataset". https://epsg.org/search/by-name/?query=snake.
- ↑ "FREQUENTLY ASKED QUESTIONS". https://snakegrid.org/frequently-asked-questions.
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