IMIS - Marine Research Groups | Compendium Coast and Sea

IMIS - Marine Research Groups

[ report an error in this record ]basket (0): add | show Print this page

Optimising protocols for high-definition imaging of historic shipwrecks using multibeam echosounder
Westley, K.; Plets, R.; Quinn, R.; McGonigle, C.; Sacchetti, F.; Dale, M.; McNeary, R.; Clements, A. (2019). Optimising protocols for high-definition imaging of historic shipwrecks using multibeam echosounder. Archaeological and Anthropological Sciences 11(7): 3629-3645. https://dx.doi.org/10.1007/s12520-019-00831-6
In: Archaeological and Anthropological Sciences. Springer: Heidelberg. ISSN 1866-9557; e-ISSN 1866-9565, more
Related to:
Westley, K.; Plets, R.; Quinn, R.; McGonigle, C.; Sacchetti, F.; Dale, M.; McNeary, R.; Clements, A. (2019). Correction to: Optimising protocols for high-definition imaging of historic shipwrecks using multibeam echosounder. Archaeological and Anthropological Sciences 11(7): 3647-3648. https://dx.doi.org/10.1007/s12520-019-00844-1, more
Peer reviewed article  

Available in  Authors 

Keyword
    Marine/Coastal

Authors  Top 
  • Westley, K.
  • Plets, R., more
  • Quinn, R.
  • McGonigle, C.
  • Sacchetti, F.
  • Dale, M.
  • McNeary, R.
  • Clements, A.

Abstract
    Conservation of historic shipwrecks is prohibitively expensive and in situ preservation and recording are the preferred archaeological approaches. Non-destructive high-definition 3D imaging is therefore essential for recording and managing submerged historic shipwrecks. Multibeam echosounders (MBES), the standard tool for hydrographic survey, can produce point clouds to image complex 3D structures. However, wreck imaging is often done using MBES in traditional survey mode optimised for morphological characterisation of the seafloor. This does not necessarily provide high-definition imagery required by archaeologists. This study demonstrates key factors influencing high-definition MBES imaging of wrecks through a controlled field experiment. Results show that optimal high-definition 3D imaging is achieved through maximising the pulse rate, narrowing the angular sector, using the highest frequency and shortest pulse lengths, applied to at least 3 to 5 overlapping centreline-parallel and offset passes with additional perpendicular/oblique lines. Variations in survey design are demonstrated to exert strong controls on sounding density and distribution, with high-density on horizontal and vertical wreck surfaces enabled by a combination of overlapping passes and offset lines. Adoption of this method would result in more widespread high-definition 3D imaging of wrecks to benefit archaeological research and develop effective mitigation strategies to minimise loss of the fragile underwater resource.

All data in the Integrated Marine Information System (IMIS) is subject to the VLIZ privacy policy Top | Authors