Abstract
This chapter introduces laser scanning to students and researchers who are interested in using this three-dimensional (3D) acquisition method for biological research. Laser scanning is yet another tool for transforming biological structures into 3D models that contain useful geometric and topological information. Current laser scanning technology makes it relatively straightforward to acquire 3D data for visualization purposes. However, there are many additional challenges that are necessary to overcome if one is interested in collecting and analyzing data from their laser-scanned 3D models. In this chapter, I review some basic concepts, including what laser scanning is, reasons for using laser scanning in biological research, how to choose a laser scanner, and how to use a laser scanner to acquire 3D data, and I provide some examples of what to do with 3D data after they have been acquired.
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References
Aiello L, Wood B, Key C, Wood C (1998) Laser scanning and paleoanthropology: an example from Olduvai Gorge, Tanzania. In: Strasser E, Fleagle J, Rosenberger A, McHenry H (eds) Primate locomotion. Plenum, New York, pp 223–236
Bernardini F, Rushmeier H (2002) The 3D model acquisition pipeline. Comput Graph Forum 21:149–172
Besl P, McKay N (1992) A method for registration of 3-D shapes. IEEE Trans Pattern Anal Machine Intell (PAMI) 14:239–256
Byrne PJ, Garcia JR (2007) Autogenous nasal tip reconstruction of complex defects: a structural approach employing rapid prototyping. Arch Facial Plastic Surg 9:358–364
Da Silveira AC, Daw JL, Kusnoto B, Evans C, Cohen M (2003) Craniofacial applications of three-dimensional laser surface scanning. J Craniofacial Surg 14:449–456
Dennis JC, Ungar PS, Teaford MF, Glander KE (2004) Dental topography and molar wear in Alouatta palliata from Costa Rica. Am J Phys Anthropol 125:152–161
Hennessy RJ, McLearie S, Kinsella A, Waddington JL (2005) Facial surface analysis by 3D laser scanning and geometric morphometrics in relation to sexual dimorphism in cerebral-craniofacial morphogenesis and cognitive function. J Anat 207:283–295
Jungers WL, Falsetti AB, Wall CE (1995) Shape, relative size, and size-adjustments in morphometrics. Yearbook Phys Anthropol 38:137–161
Kappelman J (1998) Advances in three-dimensional data acquisition and analysis. In: Strasser E, Fleagle J, Rosenberger A, McHenry H (eds) Primate locomotion. Plenum, New York, pp 205–222
M'Kirera F, Ungar PS (2003) Occlusal relief changes with molar wear in Pan troglodytes troglodytes and Gorilla gorilla gorilla. Am J Primatol 60:31–42
Mosimann JE, James FC (1979) New statistical methods for allometry with application to Florida red-winged blackbirds. Evolution 33:444–459
Park HK, Chung JW, Kho HS (2006) Use of hand-held laser scanning in the assessment of craniometry. Forensic Sci Int 160:200–206
Rowe J, Razdan A (2003) A prototype digital library for 3D collections: tools to capture, model, analyze, and query complex 3D data. Museums and the Web 2003, Charlotte, NC (see http://www.archimuse.com/mw2003/papers/rowe/rowe.html)
Tocheri MW (2007) Three-dimensional riddles of the radial wrist: derived carpal and carpometacarpal joint morphology in the Genus Homo and the implications for understanding the evolution of stone tool-related behaviors in hominins. Ph.D. dissertation, Arizona State University, Tempe, AZ
Tocheri MW, Marzke MW, Liu D, Bae M, Jones GP, Williams RC, Razdan A (2003) Functional capabilities of modern and fossil hominid hands: 3D analysis of trapezia. Am J Phys Anthropol 122:101–112
Tocheri MW, Razdan A, Williams RC, Marzke MW (2005) A 3D quantitative comparison of trapezium and trapezoid relative articular and nonarticular surface areas in modern humans and great apes. J Human Evol 49:570–586
Tocheri MW, Orr CM, Larson SG, Sutikna T, Jatmiko E, Saptomo EW, Due RA, Djubiantono T, Morwood MJ, Jungers WL (2007) The primitive wrist of Homo floresiensis and its implications for hominin evolution. Science 317:1743–1745
Ungar PS (2004) Dental topography and diets of Australopithecus afarensis and early Homo. J Hum Evol 46:605–622
Ungar PS, M'Kirera F (2003) A solution to the worn tooth conundrum in primate functional anatomy. Proc Natl Acad Sci USA 100:3874–3877
Ungar P, Williamson M (2000) Exploring the effects of tooth wear on functional morphology: a preliminary study using dental topographic analysis. Palaeontologia Electronica 3 (see http://palaeo-electronica.org/2000_1/gorilla/issue1_00.htm)
Wettstein R, Kalbermatten DF, Rieger UM, Schumacher R, Dagorov P, Pierer G (2006) Laser surface scanning analysis in reconstructive rhytidectomy. Aesthetic Plastic Surg 30:637–640
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Tocheri, M.W. (2009). Laser Scanning: 3D Analysis of Biological Surfaces. In: Sensen, C.W., HallgrÃmsson, B. (eds) Advanced Imaging in Biology and Medicine. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-540-68993-5_4
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DOI: https://doi.org/10.1007/978-3-540-68993-5_4
Publisher Name: Springer, Berlin, Heidelberg
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