Nel, Willem AJStanton, DAbdul Gaffar, MY2010-07-222010-07-222009-10Nel, W,Stanton, D, and Abdul Gaffar, MY. 2009. Detecting 3-D rotational motion and extracting target information from the principal component analysis of scatterer range histories. International Radar Conference 2009, Bordeaux, France, 12-16 October 2009, pp 6http://hdl.handle.net/10204/4116International Radar Conference 2009, Bordeaux, France, 12-16 October 2009ISAR imagery of ships are complicated by the 3-D motion of the target, which causes blurring in the imagery. A technique is proposed which could help detect such motion and prove useful to both analyse the 3-D motion as well as possibly help to estimate the 3-D position of scatterers as a by-product of the analysis. The technique is based on principal component analysis of accurate scatterer range histories and is shown only in simulation. Future research should focus on practical application.enISAR imagery3D motionPrincipal component analysisRadar imagingRange historyDetecting 3-D rotational motionInternational Radar Conference 2009Conference PresentationNel, W., Stanton, D., & Abdul Gaffar, MY. (2009). Detecting 3-D rotational motion and extracting target information from the principal component analysis of scatterer range histories. http://hdl.handle.net/10204/4116Nel, W, D Stanton, and MY Abdul Gaffar. "Detecting 3-D rotational motion and extracting target information from the principal component analysis of scatterer range histories." (2009): http://hdl.handle.net/10204/4116Nel W, Stanton D, Abdul Gaffar MY, Detecting 3-D rotational motion and extracting target information from the principal component analysis of scatterer range histories; 2009. http://hdl.handle.net/10204/4116 .TY - Conference Presentation AU - Nel, W AU - Stanton, D AU - Abdul Gaffar, Y AB - ISAR imagery of ships are complicated by the 3-D motion of the target, which causes blurring in the imagery. A technique is proposed which could help detect such motion and prove useful to both analyse the 3-D motion as well as possibly help to estimate the 3-D position of scatterers as a by-product of the analysis. The technique is based on principal component analysis of accurate scatterer range histories and is shown only in simulation. Future research should focus on practical application. DA - 2009-10 DB - ResearchSpace DP - CSIR KW - ISAR imagery KW - 3D motion KW - Principal component analysis KW - Radar imaging KW - Range history KW - Detecting 3-D rotational motion KW - International Radar Conference 2009 LK - https://researchspace.csir.co.za PY - 2009 T1 - Detecting 3-D rotational motion and extracting target information from the principal component analysis of scatterer range histories TI - Detecting 3-D rotational motion and extracting target information from the principal component analysis of scatterer range histories UR - http://hdl.handle.net/10204/4116 ER -