Consideration of the use of visible light 3D scanning for prisoner contraband possession assessment and other similar purposes

Contraband possession assessment of those being involuntarily confined, whether in the context of a civilian criminal detention facility or detention of captured warfighters is inherently problematic. Some individuals may desire to, for a number of purposes, retain objects beyond screening. These objects may range from benign to weapons or other objects that could injure other detainees or which, in the context of warfighters, may be detrimental to security or defense objectives in other ways. This paper describes the prospective use of a visible light scanner for checkpoint assessment purposes. It contrasts the invasiveness of this technology with conventional techniques.

[1]  Zhihong Mao,et al.  Segment inertial parameters of Korean adults estimated from three-dimensional body laser scan data , 2011 .

[2]  Galina Bogdanova,et al.  Digitization and 3D Scanning of Historical Artifacts , 2013, Digital Presentation and Preservation of Cultural and Scientific Heritage.

[3]  Enrico Vezzetti,et al.  Study and development of a low cost “OptInertial” 3D scanner , 2014 .

[4]  Liliana-Laura Badita,et al.  3D MEASURING OF COMPLEX AUTOMOTIVE PARTS USING VIDEO-LASER SCANNING , 2013 .

[5]  Guido M. Cortelazzo,et al.  Handheld scanning with 3D cameras , 2013, 2013 IEEE 15th International Workshop on Multimedia Signal Processing (MMSP).

[6]  Jeremy Straub,et al.  A Raspberry Pi-Based 3D Scanner , 2014 .

[7]  Nicola D'Apuzzo 3D body scanning technology for fashion and apparel industry , 2007, Electronic Imaging.

[8]  Janalt Damstra,et al.  Evaluation of anthropometric accuracy and reliability using different three-dimensional scanning systems. , 2011, Forensic science international.

[9]  Luigi Maria Galantucci,et al.  New method to calibrate and validate a high-resolution 3D scanner, based on photogrammetry , 2014 .

[10]  Ta-Te Lin,et al.  Fusion of image and laser-scanning data in a large-scale 3D virtual environment , 2013, Other Conferences.

[11]  H. A. M. Daanen,et al.  3D whole body scanners revisited , 2013, Displays.

[12]  Bugao Xu,et al.  A portable stereo vision system for whole body surface imaging , 2010, Image Vis. Comput..

[13]  Mir Behrad Khamesee,et al.  A laser scanning based reverse engineering system for 3D model generation , 2013, IECON 2013 - 39th Annual Conference of the IEEE Industrial Electronics Society.

[14]  Jeremy Straub,et al.  A very low-cost 3D scanning system for whole-body imaging , 2015, Sensing Technologies + Applications.

[15]  Régis Mollard,et al.  The effect of arm posture on the scan-derived measurements. , 2010, Applied ergonomics.

[16]  Enrico Vezzetti,et al.  Development of an innovative low-cost MARG sensors alignment and distortion compensation methodology for 3D scanning applications , 2013, Robotics Auton. Syst..

[17]  J.-M. Lu,et al.  The Evaluation of Scan-Derived Anthropometric Measurements , 2010, IEEE Transactions on Instrumentation and Measurement.

[18]  Firoz Alam,et al.  Rapid prototyping of high performance sportswear , 2012 .

[19]  Pierre Grussenmeyer,et al.  METHODOLOGICAL DEVELOPMENTS IN 3D SCANNING AND MODELLING OF ARCHAEOLOGICAL FRENCH HERITAGE SITE : THE BRONZE AGE PAINTED CAVE OF "LES FRAUX", DORDOGNE (FRANCE) , 2013 .

[20]  Mark Boehmer,et al.  3-D landmark detection and identification in the CAESAR project , 2001, Proceedings Third International Conference on 3-D Digital Imaging and Modeling.

[21]  P. Tikuisis,et al.  Human body surface area: measurement and prediction using three dimensional body scans , 2001, European Journal of Applied Physiology.

[22]  Paolo Cignoni,et al.  Acquiring, stitching and blending diffuse appearance attributes on 3D models , 2016, The Visual Computer.

[23]  Sanda Nas,et al.  ASPECTS REGARDING 3D LASER SCANNING SURVEYS FOR ROAD DESIGN , 2013 .

[24]  Peter Kühmstedt,et al.  Handheld 3D Scanning with Automatic Multi-view Registration Based on Optical and Inertial Pose Estimation , 2014 .

[25]  E. Vezzetti,et al.  Study and development of a low cost “ OptInertial ” 3 D scanner , 2022 .

[26]  Linda Nesi,et al.  The use of 3D laser scanning technology in buildings archaeology: the case of Måketorpsboden in Kulturen museum, Lund , 2013 .

[27]  Michael Groenendyk,et al.  A Further Investigation into 3D Printing and 3D Scanning at the Dalhousie University Libraries: a Year Long Case Study , 2013 .

[28]  Sandro Barone,et al.  Experimentation of structured light and stereo vision for underwater 3D reconstruction , 2011 .

[29]  Jeremy Straub,et al.  Initial Work on the Characterization of Additive Manufacturing (3D Printing) Using Software Image Analysis , 2015 .

[30]  Peter Pokorný,et al.  Optical 3D Scanning of Cutting Tools , 2013 .

[31]  Hein A.M. Daanen,et al.  Whole body scanners , 1998 .

[32]  Jeremy Straub,et al.  Development of a Large, Low-Cost, Instant 3D Scanner , 2014 .

[33]  Soon-Yong Park,et al.  A Fast and Dense 3D Scanning Technique Using Dual Pseudorandom Arrays and A Hole-filling Method , 2013 .

[34]  D. ProfessorPh.,et al.  THE USE OF 3D SCANNING AND RAPID PROTOTYPING IN MEDICAL ENGINEERING , 2013 .

[35]  Kathleen M Robinette,et al.  Precision of the CAESAR scan-extracted measurements. , 2006, Applied ergonomics.

[36]  Mathew Legg,et al.  Automatic 3D scanning surface generation for microphone array acoustic imaging , 2014 .

[37]  Jorge Vicente Lopes da Silva,et al.  3D Scanning Using RGBD Imaging Devices: A Survey , 2015 .

[38]  Xie Hongquan,et al.  Status and development trend of 3D laser scanning technology in the mining field , 2013 .

[39]  Lyle Dick,et al.  Application of 3D Laser Scanning to the Preservation of Fort Conger, a Historic Polar Research Base on Northern Ellesmere Island, Arctic Canada , 2013 .

[40]  Sergio Vera,et al.  3D Scanning System for In-Vivo Imaging of Human Body , 2014 .

[41]  Ángel M. Felicísimo,et al.  Estimating the Uncertainty of Terrestrial Laser Scanner Measurements , 2012, IEEE Transactions on Geoscience and Remote Sensing.

[42]  Masaaki Mochimaru,et al.  Errors in landmarking and the evaluation of the accuracy of traditional and 3D anthropometry. , 2011, Applied ergonomics.

[43]  Lamine Mahdjoubi,et al.  Providing real-estate services through the integration of 3D laser scanning and building information modelling , 2013, Comput. Ind..

[44]  Philip C. Treleaven,et al.  3D Body Scanning and Healthcare Applications , 2007, Computer.

[45]  Pierre Guyomarc'h,et al.  Quantification of Perspective‐Induced Shape Change of Clavicles at Radiography and 3D Scanning to Assist Human Identification , 2014, Journal of forensic sciences.

[46]  Jeremy Straub,et al.  Characterization of 3D printing output using an optical sensing system , 2015, Sensing Technologies + Applications.

[47]  Jinsheng Kang,et al.  Fluctuating asymmetry and preferences for sex-typical bodily characteristics , 2008, Proceedings of the National Academy of Sciences.

[48]  Giancarlo Ferrigno,et al.  Autoscan: A Flexible and Portable 3D Scanner , 1998, IEEE Computer Graphics and Applications.

[49]  Kathleen M. Robinette,et al.  The CAESAR project: a 3-D surface anthropometry survey , 1999, Second International Conference on 3-D Digital Imaging and Modeling (Cat. No.PR00062).

[50]  Paolo Cignoni,et al.  A low cost 3D scanner based on structured light , 2001 .